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ifptraining.com


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A word from the CEOIn today’s industry we are facing many challenges. With falling crude oil prices, it is now more important than ever to focus on developing and strengthening the professional competency of your workforce.

For the past 40 years, IFP Training has been providing clients in the oil and gas, chemical and engine industries with tailored training solutions to meet industry needs.

In these past four decades, more than 380,000 professionals from over 80 countries have increased their competencies thanks to one of our 1,400 public or in-house training sessions. With an expert staff of 100 permanent instructors and 600 consultants we are able to deliver tailored trainings aimed at driving success.

Our comprehensive panoply of courses, with topics spanning from geosciences, drilling and surface facilities to refining, petrochemicals, products and engines, caters to a wide audience, from operators and technicians to engineers and managers.

As a partner of excellence for oil and gas professional development, IFP Training is determined to provide professionals with the knowledge and skills required to perform their jobs safely and efficiently. I am pleased to announce that IFP Training now offers a wide range of certifications that allows industry professionals to formally validate their acquired competencies.

This catalog presents our public courses in Exploration & Production and provides you with an idea of the in-house training programs that we regularly organize for our clients.

We would be delighted to welcome you to one of our many public training sessions or to design a course that meets the specific needs of your company. Please don’t hesitate to contact us if you should need any help.

Below is a selection of new solutions that I believe will help your team meet today’s industry challenges.

Certified programs based on a qualitative management system and Oil & Gas industry standards (p. 12)

Professional career paths in line with the industry (p. 38)

IFP Training’s Competence Assessment System (CAS) (p. 17)

Courses that respond to your current issues:

- Integrated reservoir On-Site Workshop (Poitiers Field Lab) – E-258C

- Enhanced Oil Recovery (EOR) – E-386C

- Unconventional Resources – E-395

- Production Optimization – E-543

- Project Management – E-700C

- Estimation & Cost Control – E-745C

Jean-Luc KARNIK Chief Executive Officer

IFP Training 4

IFP Training Certifications 12

Competence Assessment System 17

Your Contacts 18

User Guide 19

Course Index 20

Course Calendar 30

Typical Career Paths 38

Overview of Technical Fields 49

Keyword List 296

Registration 302

Terms & Conditions 304

Registration Form 307

3

IFP Training 4

IFP Training Certifications 12

Competence Assessment System 17

Your Contacts 18

User Guide 19

Course Index 20

Course Calendar 30

Typical Career Paths 38

Overview of Technical Fields 49

Keyword List 296

Registration 302

Terms & Conditions 304

Registration Form 307

Table of Contents

4

Our Mission

We work hand in hand with the Oil & Gas, chemical and engine industries to give you the best

training possible.

Our unique, industry-focused and customized training solutions are delivered worldwide by experienced

instructors who share a common objective: to develop your professional skills while improving industry

best practices, overall performance and operational safety.

Our HistoryIFP Training was created in 1975 by IFP Energies nouvelles and

IFP School to meet the training needs of professionals from the Oil &

Gas, chemical and engine industries.

IFP Energies nouvelles (IFPEN) is a public-sector research and

training center based in France. It has an international scope,

covering the fields of energy, transport and the environment.

From research to industry, technological innovation is central

to all its activities. IFPEN focuses on providing solutions

to take up the challenges facing society in terms of

energy and climate, promoting the emergence of a

sustainable energy mix.

For more than 90 years now, IFP School has been

training young engineers to overcome industry

challenges. This prestigious academic

institution delivers Master’s degrees to

approximately 600 students each year

who saw in excellent post-graduate

programs setup in partnership

with world-class universities and

companies an opportunity to

develop their expertise and

advance in their careers.

About IFP TrainingTechnical expertise and know-how delivered by industry professionals and experienced instructors.

5

ShareThe knowledge and experience ofour skilled instructors

Your expertise through interactive training methods

Develop

BuildA strong long-term partnership

CustomizeOur training solutions to meet your specific operational needs

OfferA wide range of programs adapted to industry expectations

Our Promiseto You

At IFP Training you will

Learn from original, practical and customized programs

Take short courses to enhance current competency

Acquire specific expertise with longer, multi-disciplinary vocational programs

Design a site-specific program for your operators, technicians, engineers and managers and obtain job certification

Leverage the industry experience of our trainers

Experience your plant in the training room through our high-fidelity customized simulators and associated training programs

Participate in interactive learning through case studies, simulations, hands-on workshops and On-the-Job Training (OJT)

Choose from a comprehensive spectrum of technical programs for the whole Oil & Gas chain

We provide:

To:

1,200 clients15,600 trainees per year from 80 countries

1,400 sessions per year550 training courses

100 permanent instructors and a network of 600 consultants

In these past four decades, more than 380,000 professionals from over 80 countries have increased their competencies thanks to one of our 1,400 public or in-house training sessions.

6

Our Know-How

EXPLORATION& PRODUCTION

REFINING& CHEMICALS

IC ENGINES& LUBRICANTS

ECONOMICS& MANAGEMENT

Geosciences & ReseRvoiR enGineeRinG

Geology

Geophysics

Logs & Petrophysics

Reservoir Geology & Geophysics

Reservoir engineering

DRiLLinG & WeLL

Drilling & completion

Fluids

Well

Well control

FieLD oPeRations & Hse

Process engineering (Oil, Gas and Water)

operations (Oil & Gas)

operator certification

Health, safety, environment

equipment

integrity: Maintenance & inspection

PRojects & LoGistics

Development engineering

construction

Project Management

Logistics

MuLtiDisciPLinaRy & tRansveRsaL tRaininG couRses

exploration & Production technical Management

Design studies

Reservoir Management

co2 capture & storage

PRoDucts, PRocesses & cHeMicaL enGineeRinG

Multidisciplinary & transversal training courses

Processes & chemical engineering

analysis, Products, transfer & storage

MateRiaLs, equiPMent, Maintenance & insPection

equipment, Materials, corrosion & inspection

energy & thermal equipment

Rotating Machines

Maintenance & Works

oPeRation, instRuMentation & ReGuLation

operator certification

technician training

instrumentation & Process control

operational simulators

saFety, HeaLtH & enviRonMent

sHe Management

safety in operations & Works

Health & environment Protection

constRuction stuDies & PRojects

construction engineering

technical expertise

Project Management

enGine DesiGn

ic engines evolution

spark ignited engines

Diesel engines

Hybrid Powertrain

transmission

Base engine Design

industrial Processes

nvH

Reliability

enGine oPeRation

combustion in spark ignited engine

combustion in Diesel engine

air supply

supercharging

Pollutants emissions

exhaust Gases aftertreatment

Measurement on engine test Bench

engine Management

ic enGines FoR aeRonautics

Reciprocating engines

continuous Flow

Hybridation

LuBRication

Lubricants Physico-chemistry

theory of Lubrication

Lubrication of engines

Lubrication of industrial Machines

PoWeRtRain PRojects ManaGeMent

engine Project Management

Lean Management

system Project Management

Partnerships

Powertrain safety

eneRGy econoMics

Petroleum economics

natural Gas economics

Liquefied natural Gas economics

uPstReaM econoMics

upstream economics & Management

contractual Framework of exploration & Production

negotiation of exploration & Production contracts

Practice of exploration & Production contracts Modeling

DoWnstReaM econoMics

Downstream economics & Management

economic Framework of Refining

economic optimization of Refining operations

supply chain

tRaDinG & sHiPPinG

oil Markets & trading

Gas Markets & trading

contractual Framework of Gas production & transportation

shipping: chartering contracts & operations

natural Gas & electricity trading

Finance & ManaGeMent

Financial Management

investment Profitability studies

upstream contractual audit

Governance of an e&P company

7

Our Know-How IFP Training, A Global Presence

We deliver customized courses and advanced training programs around the world, working closely with our clients to anticipate their needs and develop their competencies to reach the highest of industry standards.

Training Centers in France

Rueil-Malmaison

Lillebonne

Lyon-Solaize

Martigues

Pau

Subsidiaries

France: RSI

Bahrain: IFP Training & Consulting Middle-East

United States: RSI Simcon Inc.

Representative in Nigeria

8

Information & Introduction Courses

Early Vocational Training

Advanced Technical Competency Development

Career Evolution

IFP Training works with industry professionals, from operators, technicians and engineers, to managers and executives, to help them reach career milestones.

For All Your Career Moves

Graduate Programs with IFP School

Master programs delivered overseas

Graduate diplomas for proficiency programs

Training for Certification

Accredited Operator Certification

IWCF “Well control” Certification

IFP Training Certification: a formal certification of competencies and know-how at international standards

Distance Learning

Blended Learning

In-House Courses

We come to you, to address local operational concerns

We offer customized training solutions tailored to your unique needs

Public Courses

400 of the programs in our catalog are public courses designed to improve your skills

9

We work with you to offer the right training solutions adapted to your needs.

Block-Release Vocational Training

Learn from experience thanks to our in-class and OJT sessions

Ideal for operators, maintenance and lab technicians

Training for New Industrial Projects

Job-specific foundation courses

Advanced technical competency development

Customized training for operating new facilities, using dynamic simulators

International Conferences

IFP Training organizes two annual conferences in collaboration with Petrostrategies, which bring together Oil & Gas industry leaders:

The International Oil Summit

The International Gas & Electricity Summit

Consulting Services Training Design

Recruitment Assistance

Competency Assessment

Audit of training plans

Training plan elaboration

Training program design

Design and management of training centers

Creation of training manuals

Blended Learning

Distance-learning method combining self-training with teamwork and tutor assistance

Interactive tutoring, individual coaching and rigorous competency evaluation of trainees

10

IFP Training and its subsidiary RSI have combined their skills and experience to improve operational staff performance in the Oil & Gas industry.

50 years of experience in the conception of dynamic simulators

(more than 2,000 models delivered)

40 years of experience in training Oil & Gas professionals

(more than 1,400 sessions per year)

Panel Operator Training Dynamic Simulator

Training Solutions with Simulators Bring your plant into the training room!

We offer a unique learning experience so that you can always be one step ahead.

11

Active Learning & Hands-On Training

Dynamic Process Simulators

Equipment

Process units

Workbenches

Instrumentation - Regulation

Mechanics

Drilling Simulator / Workshops for Hands-On Operation and Maintenance Training Programs

Lillebonne

Rueil-Malmaison

Lyon-Solaize

MartiguesPau Marseille

Bordeaux

Paris

Rueil-Malmaison(headquarters)232,av. napoléon Bonaparte92852 Rueil-Malmaison cedexGPS: 48.8771, 2.1726

Normandieimmeuble Futura 1 Rue a. Desgenetais

76170 LillebonneGPS: 49.522027, 0.5306

PauRue Paul et Henri courteault

64000 PauGPS: 43.3096, 0.3602

Lyon-SolaizeRond-point de l'Échangeur de solaize – BP369360 solaizeGPS: 45.6431, 4.8274

Étang de BerreLe Bâteau Blanc – Bât. c chemin de Paradis 13500 MartiguesGPS: 43.4066, 5.0459

Our Training Centers in France

12

IFP Training Certifications

What is an IFP Training Certification?

Who are our Certifications for?

These certifications are based on international requirements and a solid quality management system managed by IFP Training.

IFP Training Certifications represent an internationally accredited skills base. They certify a level of competency and constitute a true point of reference in an industry professional’s career path.

In order to meet the needs of Oil & Gas industry professionals, IFP Training

offers four types of certificates that meet specific needs and validate

associated competencies that are clearly defined in our guidelines.

Vocational Certificate: For technicians or operators who wish

to develop or improve their skills and enhance their level of

qualification.

Graduate Certificate: Intended for engineers (or the

equivalent) that would like to expand their field of

competencies in the petroleum domain and prove the

mastery of their profession with a certification.

Advanced Certificate: To provide engineers or

specialists with an expertise in a specific domain

and confirm the excellency of their level of

qualification.

Executive Certificate: Open to existing

or future managers or high potentials

to provide them with an overview

of the petroleum industry and the

necessary competencies to fill top

positions.

13

“IFP Training now offers a wide range of certifications that allows industry professionals to formally validate their acquired skills”.

The Certification Process

IFP Training is in close contact with the industry and focuses on the permanent evolution of its needs. Competency criteria are constantly updated in order to closely meet the global market requirements.

As a recognized, independent and impartial organization, IFP Training is equipped to deliver high-level professional certifications in a just and fair manner.

In order to guarantee the reliability of our certifications for candidates and business, IFP Training has designed a high quality management system based on international quality standards. These standards define what is expected of certification organizations and explain the necessary measures to be taken in order to carry out structured, impartial and transparent competency assessments.

Each certification is based on a set of characteristics specifically established by IFP Training:

detailed certification references;

clearly defined competencies to be acquired;

structured assessments based on formal procedures;

certificates adapted to the international context.

The combination of these elements ensures the relevancy and value of IFP Training Certifications.

Certi�cation

Initial Knowledge& Competency

Evaluation

Training

Assessments

Enrollment

14

IFP Training Certifications in Exploration & Production

new course

also available in French

Duration in days Dates Location Tuition fee

(€ H.T.)Lan-

guage Reference Page

General E&P Training

E-001C iRM - integrated Reservoir Management certification - executive certificate

45 august 29 - october 28Rueil / London

€39,960 en Gen / iRM 53

E-537C Petroleum engineering certification Graduate certificate

100 in-house course en PRoD / PetRoLenG 229

Geosciences

E-201CBasin assessment & Modeling certification

Graduate certificate60 in-house course en Geo / BasMoDceR 235

E-250CReservoir characterization & Modeling certification

Graduate certificate60 in-house course en Res / RcMceR 241

E-258Cintegrated Reservoir on-site Workshop (Poitiers Field Lab) certification

advanced certificate5 May 30 - june 03

Poitiers field trip

€4,190 en Res / inteGRation 91

Reservoir Engineering

E-360C Reservoir engineering certification Graduate certificate

65 in-house course en Gis / ResenGceR 245

E-386C Fundamentals of eoR certification advanced certificate

5 january 30 - February 03 october 24 - 28

Dubai Rueil

€3,060 €3,060

en en

Gis / eoR Gis / eoR 111

E-390CReservoir simulation Workshop certification

advanced certificate10 in-house course en Gis / RessiMuceR 249

E-393CReserves evaluation - Risks & uncertainties certification

advanced certificate5 june 13 - 17 Rueil €3,250 en Gis / RisKun 113

Geosciences Field Trip


advanced certificate5 May 30 - june 03

Poitiers field trip

€4,190 en Res / inteGRation 123

Drilling & Completion

E-405CWell operations & completion engineering certification

Graduate certificate40 in-house course en FoR / ce 255

E-412C Drilling & completion engineering certification Graduate certificate

95 February 08 - june 17 Pau €39,890 en FoR / FoFPe 133

E-425C Directional & Horizontal Drilling certification advanced certificate

5 april 18 - 22 Pau €3,380 en FoR / FDtDHe 145

E-428CDeepwater Drilling & Development certification

advanced certificate5 May 30 - june 03 Pau €3,380 en FoR / oFDWe 147

15

new course



(€ H.T.)Lan-

guage Reference Page

Field Operations & HSE

E-503C advanced oil & Gas Field Processing certification advanced certificate

15 september 19 - october 07 Rueil €9,450 en PRoD / aDvGB 167

E-530C Field operator certification vocational certificate

185 in-house course en PRoD / BoaGB 265

E-531C Panel operator certification vocational certificate

35 september 12 - october 28 Rueil €34,070 en PRoD / PaneLoPGB 175

E-532C Production supervisor certification vocational certificate

35 in-house course en PRoD / PRoDsuP 267

E-533C Production superintendent certification vocational certificate

58 september 14 - December 07Pau, Rueil & Martigues

€39,610 en PRoD / PRoDsi 177

E-534C Production engineer certification Graduate certificate

60 september 05 - november 25Rueil &

Martigues€32,980 en PRoD / PRoDenG 179

E-535CGas & LnG Production engineer certification

Graduate certificate60 in-house course en PRoD / GasenG 269



E-590C Hse superintendent certification vocational certificate


€39,610 en Hse / Hsesi 187

E-591C Hse engineer certification Graduate certificate

80 in-house course en Hse / HseenG 279

E-609Cadvanced instrumentation & instrumented systems certification

advanced certificate5 in-house course en i-R / inst2GB 281

E-610CMultivariable Predictive control certification

advanced certificate4 in-house course en i-R / MvPcGB 282

E-640CMaintenance superintendent certification

vocational certificate58 september 14 - December 07

Pau, Rueil & Martigues

€39,610 en Mai / Mainsi 195

E-645CMaintenance Management certification

advanced certificate5 november 21 - 25 Rueil €3,310 en Mai / MaintMGt 197

Projects & Logistics

E-700C Project Management certification advanced certificate

5

april 03 - 07 june 27 - july 01 May 23 - 27 september 12 - 16

Dubai Rueil

Port-Gentil Rueil

€3,240 €3,300 €3,730 €3,300

en en FR FR

PL / PRojGB PL / PRojGB PL / PRojFR PL / PRojFR

205

E-702C Project Management Path certification Graduate certificate

65 in-house course en PL / PRoPMGB 291

E-740C Project control certification advanced certificate

14 april 04 - 21 october 17 - november 03

Rueil Rueil

€9,310 €9,310

en en

PL / PccGB PL / PccGB 211

E-745C estimation & cost control certification advanced certificate

5

april 17 - 21 april 18 - 22 october 10 - 14 May 16 - 20

Dubai Rueil Rueil

Port-Gentil

€3,240 €3,300 €3,300 €3,730

en en en FR

PL / costGB PL / costGB PL / costGB PL / costFR

217

E-770C Logistic engineer certification Graduate certificate

35 February 01 - March 18 Rueil €22,990 en PL / Let 221

17

Competence Assessment System

Employee security and efficiency is a top priority for any business.Competency assessement is a necessary solution to reach a global level of quality.

IFP Training accompanies you throughout the competence management life cycle

Technical experts for competence checklist construction Competence development plan Experienced assessors

competence assessmentPractical & Theoretical

competency & career Planning

competence Mapping

Individual & Group

training Plan construction

Our Competence Assessment Tool

Customizable

User interface

Composition of the assessment (topics, competences, criteria, …)

Upgradeable to meet the industry

Innovative competences

Adaptable to any site specificities (Onshore, Offshore, LNG, …)

Comprehensive reporting

Employees view

Management view

User friendly

Tool suitable to all IT systems

Easy-to-use interface

A continuous quality-enhancement cycle#1

18

Your Contacts

Executive VP: Fouzia BAÏRItel. + 33 1 41 39 11 [email protected]

GEOSCIENCES & RESERVOIR ENGINEERINGManager: Laurence BOVEtel. + 33 1 41 39 11 [email protected]

DRILLING & COMPLETIONManager: Rémi FERRIÈREtel. + 33 5 59 30 82 [email protected]

FIELD OPERATIONS & HSEManager: Benoît RABAUDtel. + 33 1 41 39 11 [email protected]

PROJETCS & LOGISTICSManager: Yves BONNEFOYtel. + 33 1 41 39 11 [email protected]

Exploration & Production Division

REFINING & CHEMICALS

Executive VP: Christine TRAVERStel. + 33 1 41 39 11 [email protected]

IC ENGINES & LUBRICANTS

Executive VP: Marc BONNINtel. + 33 1 41 39 12 [email protected]

ECONOMICS & MANAGEMENT

Executive VP: Sylvie SAULNIERtel. + 33 1 41 39 10 [email protected]

Others Divisions

FRANCERSIPhilippe VACHERChief Executive [email protected]

UNITED STATESRSI Simcon Inc.Peter HERBERTChief Executive OfficerMob. + 1 832 448 [email protected]

Subsidaries & Representatives

BAHRAINIFP Training & Consulting Middle-EastPhilippe MARTINEZManaging DirectorMob. +973 1 721 [email protected]

NIGERIAFrancis [email protected]

General Contact Information: Tel. + 33 1 41 39 12 12 - [email protected]

ManagementJean-Luc KARNIKChief Executive Officer

Loïc du RUSqUECExecutive VP Strategic [email protected]

Ruben TREVINOMarketing [email protected]

Gaëlle LEBRUNCertification [email protected]

19

User Guide

To register see page 302

The Course Program

Course Enrollment

See syllabus(pp. 38-47)

Use a keyword(pp. 296-301)

Consult the course calendar(pp. 30-36)

See course programs(pp. 53-295)

Browse the course index(pp. 20-29)

53

Gene

ral E

&P T

rain

ing

LANGUAGE LOCATION DATE FEES REFERENCE REGISTRATION CONTACT

Rueil / London Aug 29 - Oct 28 €39,960 GEN / IRM [email protected]

RESERVOIR ENGINEERING AND FIELD DEVELOPMENT FUNDAMENTALS (IFP Training)

23 d

Production geology, geophysicsWell logging, interpretation - Production loggingPetrophysics: rock properties (porosity, saturation, permeability) and their interactions with fl uidsFluid properties: PVT oil gas and waterWell testing: principles and interpretationProduction mechanisms: natural drive (primary recovery), immiscible fl uid injection gas or water (secondary recovery), tertiary recovery (EOR: miscible, chemical or thermal process)Field development methodology, data acquisition, reserves estimationDrilling and completionProject economics & contractsWell performance optimization: infl ow, outfl ow, formation damage remedial (acid stimulation, fracturing, sand control)Assessment of reservoir risks and uncertaintiesUnconventional hydrocarbonsFuture E&P development challenges in a global Energy sceneField trip to Poitiers area (2.5 days): well testing in an aquifer, interpretation and analysis of the results (production, draw-down, build-up), cores and logs observation of a reservoir analogue to the one on which the test was performed, geological and dynamic modeling

CASE STUDIES (Imperial College London) 12 dDevelopment and application of a reservoir simulation model for reservoir management, including up scaling, history matching, and reservoir performance prediction, fi eld development planning and simple economic analysisUK fi eld Development ProjectField trip to the Wessex basinGroup-based computer-aided exercise covering the development and monitoring of a large oil fi eldData analysis, development of a reservoir simulation model, including upscaling and history matchingApplication of model to identify an optimum fi eld development plan with simple economic evaluation

CASE STUDIES (IFP Training) 10 dTertiary recovery in a mature oil fi eld with lean gas injectionReservoir management specifi cities for carbonate fractured reservoirsGas: gas properties and fi eld case: development and monitoring of a gas fi eldAlwyn area: complex gas, condensate and oil fi eld evaluation development and monitoring in the North Sea environmentSpecial case histories: deep water offshore, deep reservoir, heavy oils

PURPOSETo provide, through a multidisciplinary approach of paramount importance for the optimization of fi eld development and operations, an in-depth understanding of key concepts and mechanisms of reservoir managementTo fi nd, through a unique training experience, what could be keys for success when one applies high-standard guiding principles in asset management, from exploration and fi eld development to fi eld operations and enhanced oil recovery

AUDIENCEHigh-potential E&P professionals, future managers of E&P assets and activities, providers of integrated E&P servicesPetroleum engineers, geoscientists, well engineers, project managers, business unit leaders

LEARNING OBJECTIVES - To understand reservoir management best practices for oil & gas fi elds development

- To maximize value creation of oil & gas assets through the technical and economic resources optimization

- To comprehend various disciplines that take part in reservoir management

- To learn about various reservoirs and fi eld development conditions through hands-on and case studies

- To team leaders the relevant knowledge for Reservoir Management in E&P Projects

PREREQUISITEA degree in engineering or geosciences, with preferably a 5-year professional experience

WAYS & MEANSHighly interactive course with serious game and actual case studiesAnimation by E&P senior experienced lecturersTwo fi eld trips for hands-on sessions illustrating reservoirs outcrops and reservoir behaviorTwo weeks of course in Imperial College (London) focused on fi eld development optimization

NOTEAccommodation and transportation costs are not included in the fee. Logistics can be organized by IFP trainingA specifi c brochure for this program is available on request

IRM - Integrated Reservoir Management Certifi cation E-

001C

Coordinator: Jean-Pascal Dejean

45 Days

Reference GEN / IRM

General E&P Training Management

Executive Certifi cate

FInD A COURSE

Course Purpose

New course

Duration

Course with Certification

Course content

Dates, Location Price & Registration

Audience

Learning Objectives

Prerequisites (if any)

Ways & Means

Coordinator

Program Code for E&P Training Courses

Title

Level

Course Index New course

Also available in French

E-learning with personal remote coaching

Tuition fees include instruction and documentation as well as meals and beverage breaks

20


(€ H.T.) Language Reference Page


Management

E-001 iRM - integrated Reservoir Management certification - executive certificate

45 august 29 - october 28 Rueil / London €39,960 en Gen / iRM 53

E-004 international oil summit 1 april 21 Paris €990 en PeH / ios 54

E-006 international Gas & electricity summit 1 october 13 Paris €990 en PeH / iGs 57

E-010 overview of Petroleum economics 4 november 29 - December 02 Rueil €2,450 en ene / oPe 56

E-012 overview of natural Gas economics 4 june 27 - 30 Rueil €2,610 en ene / one 57

E-014 Liquefied natural Gas economics 4 september 20 - 23 Rueil €3,110 en ene / LGe 58

E-016 natural Gas & electricity trading 2 october 04 - 05 Rueil €1,740 en tRt / Get 59

E-018 oil Markets & trading 3 june 01 - 03 Rueil €2,225 en tRt / oMt 60

E-019 shipping: General Features, chartering contracts & operations 4 april 19 - 22

December 13 - 16Rueil Rueil

€2,900 €2,900

en en

tRt / cFs tRt / cFs 61

General Information & Multidisciplinary Courses

E-031 exploration & Production overview 5

june 20 - 24 september 26 - 30 october 23 - 27 november 28 - December 02

Rueil Rueil Dubai Rueil

€3,360 €3,360 €3,240 €3,360

en en en en

Gen / DecouveP Gen / DecouveP Gen / DecouveP Gen / DecouveP

62

E-035 introduction to Petroleum engineering 5 February 29 - March 04 December 05 - 09

Rueil Rueil

€3,380 €3,380

en en

Gen / inFPGe Gen / inFPGe 63



E-033 Hunting for oil: exploration & upstream overview 5 in-house course en Geo / HFo 230

Upstream Economics

E-062 contractual Framework of exploration-Production 3 May 24 - 26 Rueil €2,310 en eaM / cFeP 64

E-066 economic Framework of exploration-Production 5 april 11 - 15 Rueil €3,530 en eaM / eFeP 65

E-068 negotiation of exploration-Production contracts 5 March 21 - 25 Rueil €3,920 en eaM / ePcn 66

E-070 economics & Risk analysis of upstream Projects 5 october 03 - 07 Rueil €3,640 en eaM / eRa 67

E-074 Practice of exploration-Production contracts economic Modeling 4 in-house course en eaM / PcM 68

E-075 investment Profitability studies in the oil & Gas industry 4 april 26 - 29 Rueil €2,740 en GiP / iPs 69

E-079 upstream contracts audit 5 December 05 - 09 Rueil €3,480 en GiP / uca 70

E-080 Governance of an e&P company 5 november 21 - 25 Rueil €3,480 en GiP / GePc 71

E-060 upstream economics & Management 15 in-house course en eaM / ueM 231

E-064 Production sharing & joint operating agreements 3 in-house course en eaM / Psa 231

E-082 strategic Management in international oil & Gas Business 5 in-house course en ene / sBa 231


21



Geosciences

Geophysics

E-103 Petroleum Geophysics 10 october 10 - 21 Rueil €5,650 en GeP / GPHysics 77

E-131 seismic interpretation Workshop 10 november 21 - December 02 Rueil €6,450 en GeP / sisinteRP 78

E-100 seismic Reflection Fundamentals 5 in-house course en GeP / seisReF 232

E-101 signal Processing 5 in-house course en GeP / siGnaL 232

E-110 Borehole seismic 5 in-house course en GeP / BoReseis 232

Logs

E-160 Well Logging & qualitative Log interpretation 5 May 30 - june 03 Rueil €2,860 en LoG / LoGBasic 79

E-170 quantitative Well Log interpretation 5 june 06 - 10 Rueil €3,070 en LoG / LoGaDv 80

E-190 Well Logging & Basic Log interpretation 32 h over 8 weeks

upon request en LoG / BLWLi 81

E-150 Wellsite Geology (Geological Logging) 5 in-house course en LoG / WsGeoL 233

E-180 cased-Hole & Production Logging 5 in-house course en LoG / LoGPRoD 233

E-181 Production Log interpretation 5 in-house course en LoG / LPeMR 233

Petroleum Basin & Exploration

E-204 exploration concepts & tools 15 september 12 - 30Rueil / 2 field

trips€11,150 en Geo / PeteXMoD1 82

E-205 Basin assessment & Prospect Definition 15 october 03 - 21 Rueil €9,410 en Geo / PeteXMoD2 83

E-212 sedimentology & sequence stratigraphy 5 september 19 - 23 Rueil €3,020 en Geo / stRati 84

E-216 evaluation & Prospect Generation 5 october 17 - 21 Rueil €3,160 en Geo / PLay 85

E-221 Hydrocarbons in unconventional settings (the Geology Perspective) 3 May 30 - june 01 Rueil €2,030 en Bas / unconv 86

E-200 Fundamental Basin exploration Workshop 5 in-house course en Geo / inFo 237

E-201CBasin assessment & Modeling certification

Graduate certificate60 in-house course en Geo / BasMoDceR 235

E-211 structural analysis & associated traps 5 in-house course en Geo / stRuct 237

E-213 Petroleum systems: from source Rock to Reservoir 5 in-house course en Geo / GeocHiM 237

E-217 From Prospect to Development: an integrated approach 10 in-house course en Bas / PRosPect 238

E-218 stratigraphic Modeling: Basin architecture & sediment Distribution 5 in-house course en Bas / Dionisos 238

E-219 Basin Modeling: thermicity, Maturation & Migration 5 in-house course en Bas / teMis 238

E-220 seismic & sequence stratigraphy for oil & Gas exploration 10 in-house course en Bas / stRataDv 239





22



Reservoir Geology

E-250 RcM Reservoir characterization & Modeling 38 september 12 - november 04Rueil /

3 field trips€24,800 en Res / RcM 87

E-252 Reservoir Geology 20 september 12 - october 07 Rueil / field trip €13,300 en Res / ResGeoL 88

E-255 advanced Reservoir Geology 18 october 10 - november 04Rueil /

2 field trips€13,450 en Res / ResGeoLaDv 89


advanced certificate5 May 30 - june 03 Poitiers field trip €4,190 en Res / inteGRation 91

E-261 Geological Modeling Workshop for integrated Reservoir studies 5

March 07 - 11 june 06 - 10

Port-Gentil Rueil

€3,520 €3,220

en en

Res / GeoMoDeL Res / GeoMoDeL 92

E-264 naturally-Fractured Reservoirs 5 june 13 - 17 Rueil €3,220 en Res / natFRac 93

E-266 Petroleum Geostatistics 3 november 14 - 16 Rueil €1,845 en Res / Geostat 94

E-250CReservoir characterization & Modeling certification

Graduate certificate60 in-house course en Res / RcMceR 241

E-263 advanced carbonate Reservoir characterization 5 in-house course en Res / aDvcaRB 242

E-267 Petrophysical Properties: core, Log & test Data integration for Reservoir Modeling 5 in-house course en Res / RocKtyP 242

Reservoir Geophysics

E-330 Lithology & Fluid Detection: tools for seismic Reservoir characterization 5 june 06 - 10 Rueil €3,370 en GeP / avoinv 95

E-340 sRc seismic Reservoir characterization 24 h over6 weeks

upon request en GeP / BLsRc 96

E-301 seismic interpretation & attributes analysis Workshop 10 in-house course en GeP / seisint 243

E-310 seismic characterization 5 in-house course en GeP / WavePoR 243

E-335 Microseismic: new insights on Reservoirs 5 in-house course en GeP / MicRoseis 243


E-350 introduction to Reservoir engineering 5 February 28 - March 03 september 05 - 09

Dubai Rueil

€3,060 €2,860

en en

Gis / ResBas Gis / ResBas 101

E-360 Reservoir engineering 62 september 12 - December 09 Rueil / field trip €34,400 en Gis / ResenGin 102

E-361 Fluid studies - Pvt 5 october 10 - 14 Rueil €2,960 en Gis / Pvt 103

E-365 Well test analysis 10 october 17 - 28 Rueil / field trip €8,460 en Gis / WeLLtest 104

E-368 Drilling & completion for Reservoir studies 5 november 14 - 18 Rueil €2,860 en Gis / ResPuit 105

E-370 Drive Mechanism - enhanced oil Recovery 7 november 02 - 10 Rueil €3,850 en Gis / DRiveoR 106


23



E-373 Field Development Project & uncertainties 5 november 21 - 25 Rueil €3,110 en Gis / DeveLoPRoj 107

E-375 Dynamic Reservoir simulation 10 november 28 - December 09 Rueil €6,270 en Gis / RessiMu 108

E-385 Pvt Modeling 5 november 14 - 18 Rueil €3,160 en Gis / PvtMoD 109

E-386C Fundamentals of eoR certification advanced certificate

5 january 30 - February 03 october 24 - 28

Dubai Rueil

€3,060 €3,060

en en

Gis / eoR Gis / eoR 111

E-393CReserves evaluation - Risks & uncertainties certification

advanced certificate5 june 13 - 17 Rueil €3,250 en Gis / RisKun 113

E-395 unconventional Resources - shale Gas Fundamentals 5 june 20 - 24 Rueil €3,810 en Gis / unconv 114

E-396environmental Management of unconventional Development Projects: shale & tight Gas & oil

3 May 25 - 27 Rueil €2,020 en Gis / envGB 115

E-397 Well test analysis 40 h over 10 weeks upon request en Gis / BLWta 116

E-355 Reservoir Management 5 in-house course en Gis / aRM 246

E-360C Reservoir engineering certification Graduate certificate

65 in-house course en Gis / ResenGceR 245

E-363 core analysis for Reservoir characterization 5 in-house course en Gis / conscaL 247

E-388 advanced Well test analysis 5 in-house course en Gis / aDvWta 247

E-389 Dynamic Reservoir simulation: Best Practices 5 in-house course en Gis / aDvsiMu 247

E-390CReservoir simulation Workshop certification

advanced certificate10 in-house course en Gis / RessiMuceR 249

E-391 Laboratory Determination of Relative Permeabilities 5 in-house course en Gis / cyDaR 251

E-392 experimental training for core analysis 5 in-house course en Gis / caRc 251

E-394 Development of Gas condensate Fields 5 in-house course en Gis / Gas 251


E-258integrated Reservoir on-site Workshop (Poitiers Field Lab) certification

advanced certificate5 May 30 - june 03 Poitiers field trip €4,190 en Res / inteGRation 123

E-900 introduction to Petroleum systems 5 in-house course en Geot / PetBas 253

E-910 static Model construction: Field constraints & integration with subsurface Data 5 in-house course en Geot / caRBFt 253





24




Drilling / Completion

E-410 Drilling Fundamentals 5september 12 - 16 october 09 - 13 november 21 - 25

Pau Dubai Rueil

€3,380 €3,000 €3,380

en en en

FoR / inFoRe FoR / inFoRe FoR / inFoRe

129

E-411 Well completion & servicing 5 november 28 - December 02 Rueil €3,380 en PRo / inPFe 130

E-412CDrilling & completion engineering certification

Graduate certificate95 February 08 - june 17 Pau €39,890 en FoR / FoFPe 133

E-413 Drilling engineering 80February 08 - 26 & Mar 21 - jun 17

Pau €36,530 en FoR / FoFPFe 134

E-414 completion engineering 60February 08 - March 18 & May 09 - jun 17

Pau €27,430 en PRo / FoFPce 135

E-405CWell operations & completion engineering certification

Graduate certificate40 in-house course en FoR / ce 255

Drilling

E-415 Practical aspects of Well Planning & costing 10

june 13 - 24 november 14 - 25

Rueil Rueil

€6,380 €6,380

en en

FoR / PaWPce FoR / PaWPce 136

E-416 Geological Field trip for Drillers 5 February 08 - 12 Pau €3,380 en FoR / FtFPe 137

E-419 Fundamentals of Drilling & completion 5 February 15 - 19 Pau €3,380 en FoR / BacFPe 138

E-420 Well architecture & equipment 5 March 21 - 25 Pau €3,380 en FoR / aRcHie 139

E-421 Bit, Drill string & Fishing While Drilling 5 april 11 - 15 Pau €3,380 en FoR / outGaRne 140

E-422 Rig, BoP’s & Well control equipment 5 april 25 - 29 Pau €3,380 en FoR / BoPe 141

E-423 Data acquisition during Drilling operations 5 May 02 - 06 Pau €3,380 en FoR / LoGFie 142

E-424 Hse: Health - safety - environment 5 May 09 - 13 Pau €3,380 en FoR / Hsee 143

E-425CDirectional & Horizontal Drilling certification

advanced certificate5 april 18 - 22 Pau €3,380 en FoR / FDtDHe 145

E-428CDeepwater Drilling & Development certification

advanced certificate5 May 30 - june 03 Pau €3,380 en FoR / oFDWe 147

E-430 stuck Pipe Prevention 4 october 03 - 07 Pau €3,380 en FoR / stucKPiPe 148

E-426 Geomechanics for Drilling operations 3 in-house course en FoR / GeoMe 256

E-429 Wellhead & Blowout Preventers 3 in-house course en FoR / WHeaDe 256

Fluids

E-441 Drilling Fluids 5 March 29 - april 01 Pau €3,380 en FLu / FLue 149

E-443 cementing Practices 5 april 04 - 08 Pau €3,380 en FLu / ciM1e 150

E-444 advanced cementing Practices 5 in-house course en FLu / ciM2e 256


25



Completion

E-451 Well Productivity & Reservoir - Wellbore interface 5 February 22 - 26 Pau €3,380 en PRo / PPLcte 151

E-452 Well test operation 5 May 17 - 20 Pau €3,380 en PRo / cePe 152

E-453 Well-completion equipment & Procedures for Flowing Wells 5 February 29 - March 04 Pau €3,380 en PRo / eqtPee 152

E-455 Wellbore treatments 5 March 07 - 11 Pau €3,380 en PRo / tRaite 154

E-458 artificial Lift & Well intervention Fundamentals 5 March 14 - 18 Pau €3,380 en PRo / taWoe 155

E-465 Well inflow & outflow Performance 32 h over 8 weeks

upon request en PRo / BLPRosPeR 156

E-454 tubing movement & forces 3 in-house course en PRo / tuBMFe 257

E-456 Matrix acidizing 5 in-house course en PRo / aciDiFe 257

E-457 Basic Hydraulic Fracturing 5 in-house course en PRo / HyDFRace 257

E-459 artificial Lift: Gas Lift 5 in-house course en PRo / GLiFte 258

E-460 artificial Lift: Pumping 5 in-house course en PRo / aPoMPe 258

E-461 nitrogen & coiled tubing operations in completion & Workover 5 in-house course en PRo / ctae 258

E-462 Well servicing & Workover 5 in-house course en PRo / WsWoe 259

E-463 Well Performance 5 in-house course en PRo / WeLLPeRFe 259

E-464 advanced Well Performance 10 in-house course en PRo / WeLLPeRF2e 259

E-465 Well inflow & outflow Performance 32 h over 8 weeks

upon request en PRo / BLPRosPeR 260

E-468 unconventional Reservoirs completion & stimulation 5 in-house course en PRo / uRcs 260

Well Control

E-471 Well control - Level 3 or 4 IWCF Certification 5

March 14 - 18 May 23 - 27 september 05 - 09

Pau Pau Pau

€2,490 €2,490 €2,490

en en en

WeL / FPesMe3-4 WeL / FPesMe3-4 WeL / FPesMe3-4

157

E-473 Well intervention & Pressure control IWCF Certification 5 May 30 - june 03 Pau €3,380 en WeL / WeLine 158

E-470 Well control - Level 2 IWCF Certification 5 in-house course en WeL / FPesMe2 261

E-477 stripping 3 in-house course en WeL / stRiPe 261





26




Operation of Production Facilities

E-500 Fundamentals of Production 2 october 10 - 11 Rueil €1,590 en PRoD / PRoDcHain 163

E-501 oil & Gas Field Processing 5

june 20 - 24 november 28 - December 02 May 30 - june 03 september 19 - 23

Rueil Rueil Pau

Port-Gentil

€3,370 €3,370 €3,370 €3,730

en en FR FR

PRoD / oGFP PRoD / oGFP PRoD / iPs PRoD / iPs

164

E-502 Field Processing & surface Production Facilities 10

june 20 - july 01 november 28 - December 09 May 30 - june 10

Rueil Rueil Pau

€6,380 €6,380 €6,380

en en FR

PRoD / FPsPF PRoD / FPsPF PRoD / PiPs

165

E-503Cadvanced oil & Gas Field Processing certification

advanced certificate15 september 19 - october 07 Rueil €9,450 en PRoD / aDvGB 167

E-504 Module 1: thermodynamics applied to Well effluent Processing 5 september 19 - 23 Rueil €3,310 en PRoD / aDv1GB 168

E-505 Module 2: oil & Water treatment 5 september 26 - 30 Rueil €3,310 en PRoD / aDv2GB 169

E-506 Module 3: Gas Processing & conditioning 5 october 03 - 07 Rueil €3,310 en PRoD / aDv3GB 170

E-510 natural Gas 5october 10 - 14 september 26 - 30

Rueil Rueil

€3,370 €3,370

en FR

PRoD / natGas PRoD / GaZnat 171

E-511 Liquefied natural Gas (LnG) 5june 05 - 09 november 14 - 18 May 16 - 20

Dubai Rueil Rueil

€3,240 €4,420 €4,420

en en FR

PRoD / LnG PRoD / LnG PRoD / GnL

172

E-531C Panel operator certification vocational certificate

35 september 12 - october 28 Rueil €34,070 en PRoD / PaneLoPGB 175

E-533C Production superintendent certification vocational certificate


€39,610 en PRoD / PRoDsi 177

E-534C Production engineer certification Graduate certificate

60 september 05 - november 25Rueil &

Martigues€32,980 en PRoD / PRoDenG 179

E-546 Well equipment & operation for Production engineers 5 september 12 - 16 Rueil €3,210 en PRoD / WeLLGB 180

E-514 Gas sweetening & sulfur Recovery 5 in-house course en PRoD / aciDGB 262

E-515 natural Gas storage 2 in-house course en PRoD / stocKGB 262

E-516 natural Gas transport by Pipeline 2 in-house course en PRoD / tRansGB 262

E-520 Production accounting & Material Balance sheet 3 in-house course en PRoD / BaLsH 263

E-529 Preparatory course to Production Field operator training 25 in-house course en PRoD / Pc 263

E-530C Field operator certification vocational certificate

185 in-house course en PRoD / BoaGB 265

E-532C Production supervisor certification vocational certificate

35 in-house course en PRoD / PRoDsuP 267


27



E-535CGas & LnG Production engineer certification

Graduate certificate60 in-house course en PRoD / GasenG 269



E-540 Production chemicals: use & Handling 5 in-house course en PRoD / cHeMicaL 272

E-541 Well operation & testing 3 in-house course en PRoD / WeLLtest 272

E-542 operation of Gas Lift Wells 3 in-house course en PRoD / GasLiFtGB 272

E-543 Production optimization 5 in-house course en PRoD / PRoDoPtGB 273

E-544 Gas treatment & compression 5 in-house course en PRoD / GascHainGB 274

E-547 Production Facilities control Room operation 10 in-house course en PRoD / aDvccRGB 274

E-548 Laboratory analyzes for oil & Gas Production 5 in-house course en PRoD / LaBoGB 274

E-549 safety in Laboratory 4 in-house course en PRoD / saFeLaBGB 275

HSE - Health, Safety & Environment

E-550 Hse in surface Production operations 5 november 07 - 11 Pau €3,210 en Hse / eXPsaFoP 181

E-560 safety engineering - Module 1 5september 11 - 15 november 14 - 18

Dubai Rueil

€3,150 €3,210

en en

Hse / saFenG1GB Hse / saFenG1GB 182

E-561 safety engineering - Module 2 5 november 21 - 25 Rueil €3,210 en Hse / saFenG2GB 183

E-580 environmental & societal Risk Management 5 november 21 - 25 Rueil €3,210 en Hse / envGB 184

E-590C Hse superintendent certification vocational certificate


€39,610 en Hse / Hsesi 187

E-551 occupational safety 5 in-house course en Hse / occsaFGB 275

E-555 Hse Management 5 in-house course en Hse / HseMGt 276

E-565 safety engineering Workshop 5 in-house course en Hse / seWGB 276

E-570 Hse in construction/ Maintenance Works 4 in-house course en Hse / WoRKGB 276

E-581 oil & Gas Facilities environmental impact Management 5 in-house course en Hse / envMGtGB 277

E-582 social Risk Management 5 in-house course en Hse / sociaLGB 277

E-583 environmental Management of spills & emissions: air, Water, Wastes, soils 5 in-house course en Hse / PoLLutionGB 277

E-591C Hse engineer certification Graduate certificate

80 in-house course en Hse / HseenG 279





28



Equipment, Maintenance, Inspection

E-600 technology of Production Facilities equipment 10 october 10 - 21

Rueil & Martigues

€6,210 en Mat / equiP 188

E-601 Module 1: static equipment 5 october 10 - 14 Rueil €3,280 en Mat / equiP1 189

E-602 Module 2: Rotating Machinery 5 october 17 - 21 Martigues €3,280 en Mat / equiP2 190

E-608 instrumentation, Process control & safety instrumented systems 5 october 24 - 28

May 16 - 20Rueil

Port-Gentil€3,210 €3,620

en FR

i-R / inst1GB i-R / inst1FR 191

E-615 Metering & allocation 5 october 31 - november 04 Rueil €3,210 en i-R / MeteR 192

E-640CMaintenance superintendent certification

vocational certificate58 september 14 - December 07

Pau, Rueil & Martigues

€39,610 en Mai / Mainsi 195

E-645CMaintenance Management certification

advanced certificate5 november 21 - 25 Rueil €3,310 en Mai / MaintMGt 197

E-609Cadvanced instrumentation & instrumented systems certification

advanced certificate5 in-house course en i-R / inst2GB 281

E-610CMultivariable Predictive control certification

advanced certificate4 in-house course en i-R / MvPcGB 282

E-611 instrumentation Maintenance 5 in-house course en i-R / instMaintGB 282

E-618 Production Facilities Power network & electrical equipment 5 in-house course en i-R / eLec1GB 282

E-619 Production Facilities Power network & electrical equipment (advanced) 5 in-house course en i-R / eLec2GB 283

E-620 electrical Maintenance 5 in-house course en i-R / eLecMaintGB 283

E-621 General Mechanical Maintenance 5 in-house course en Mat / GenMaintGB 284

E-622 centrifugal & Positive Displacement Pumps operation 5 in-house course en Mat / PuMPoPGB 284

E-623 centrifugal & Positive Displacement Pumps Maintenance 5 in-house course en Mat / PuMPMaintGB 284

E-626 centrifugal & volumetric compressors operation 5 in-house course en Mat / coMPGB 285

E-627 centrifugal & volumetric compressors Maintenance 5 in-house course en Mat / coMPMaintGB 285

E-630 Gas turbines 5 in-house course en Mat / Gt 285

E-641 operation, Maintenance & inspection of Rotating Machinery 10 in-house course en Mai / RotMaint 287

E-643 Machinery vibration signature analysis 4 in-house course en MtM / PaviB-e 287

Process & Layout Engineering

E-650 offshore Field Development - Pipelines & Flow assurance 5 october 24 - 28 Rueil €3,280 en Dev / oFFsHGB 198

E-680 oil & Gas Process simulation 5 March 28 - april 01 Rueil €3,210 en Dev / siMuLGB 199

E-660 FPso/Fso & oil terminals 5 in-house course en Dev / teRMGB 288

E-670 Pipeline Hydraulics & Multiphase Flow 5 in-house course en Dev / HyDRGB 288

E-675 corrosion Prevention in Production Facilities 5 in-house course en Dev / coRGB 288

E-695 Field Development Project 15 in-house course en Dev / FDevGB 289


29




E-700C Project Management certification advanced certificate

5

april 03 - 07 june 27 - july 01 May 23 - 27 september 12 - 16

Dubai Rueil

Port-Gentil Rueil

€3,240 €3,300 €3,730 €3,300

en en FR FR

PL / PRojGB PL / PRojGB PL / PRojFR PL / PRojFR

205

E-701 PRoMise™ - oil & Gas Project Management interactive simulator for excellence 5

March 21 - 25 May 23 - 27 september 19 - 23 December 12 - 16

abu Dhabi Rueil

abu Dhabi Rueil

€5,050 €3,930 €5,050 €3,930

en en en en

PL / PRoMise PL / PRoMise PL / PRoMise PL / PRoMise

206

E-710 engineering Management 3 May 09 - 11 september 05 - 07

Rueil Rueil

€2,120 €2,120

en en

PL / eM PL / eM 207

E-722 quality & Risk Management in Projects 3 May 02 - 04 Rueil €2,120 en PL / qaqcGB 208

E-738 Precommissioning, commissioning & start-up 5

april 10 - 14 april 25 - 29 May 30 - june 03 october 10 - 14

Dubai Rueil

Port-Gentil Rueil

€3,150 €3,210 €3,620 €3,210

en en FR FR

PL / PRecoMGB PL / PRecoMGB PL / PRecoMFR PL / PRecoMFR

209

E-740C Project control certification advanced certificate

14 april 04 - 21 october 17 - november 03

Rueil Rueil

€9,310 €9,310

en en

PL / PccGB PL / PccGB 211

E-741 Developing Project control techniques 5 april 04 - 08 october 17 - 21

Rueil Rueil

€3,210 €3,210

en en

PL / PcGB PL / PcGB 212

E-742 contracts & Procurement 5 april 11 - 15 october 24 - 28

Rueil Rueil

€3,210 €3,210

en en

PL / cPGB PL / cPGB 213

E-743 negotiation skills 5 april 18 - 21 october 31 - november 03

Rueil Rueil

€3,100 €3,100

en en

PL / neGoGB PL / neGoGB 215

E-745C estimation & cost control certification advanced certificate

5

april 17 - 21 april 18 - 22 october 10 - 14 May 16 - 20

Dubai Rueil Rueil

Port-Gentil

€3,240 €3,300 €3,300 €3,730

en en en FR

PL / costGB PL / costGB PL / costGB PL / costFR

217

E-746 Project Planning & scheduling 5 june 20 - 24 november 21 - 25

Rueil Rueil

€3,210 €3,210

en FR

PL / PsPcGB PL / PsPcFR 218

E-770C Logistic engineer certification Graduate certificate

35 February 01 - March 18 Rueil €22,990 en PL / Let 221

E-780 subsea activities 9 june 06 - 16 Rueil €5,160 en PL / oFFGB 222

E-781 subsea Production systems 5 june 06 - 10 Rueil €3,210 en PL / sPsGB 223

E-782 subsea Pipelines 4 june 13 - 16 Rueil €2,520 en PL / PiPeGB 224

E-702C Project Management Path certification Graduate certificate

65 in-house course en PL / PRoPMGB 291

E-730 construction Management training 20 in-house course en PL / const 292

E-731 construction techniques & site visit 5 in-house course en PL / const1 292

E-732 construction site administration 5 in-house course en PL / const2 292

E-733 construction Hse Management 5 in-house course en PL / const3 293

E-734 construction offshore installation 5 in-house course en PL / const4 293

E-736 construction Works supervision 5 in-house course en PL / constsuPGB 293

E-737 construction superintendent 58 in-house course en PL / suPtvX 294

E-783 subsea integrity Management (i) - inspections, Monitoring & testing 5 in-house course en PL / suBint1 295

E-784 subsea integrity Management (ii) - non conformity management 5 in-house course en PL / suBint2 295

E-785 subsea operations & interventions - Remote operated vehicles (Rov) 5 in-house course en PL / suBRov 295

Course Calendar

30


French sessions

Modular sessions in French

new course

certifying training

sessions in english

Modular sessions in english

Sheet Title of the course Location Duration January February March April May June July August September October November December Page

GENERAL E&P TRAINING Managemente-001 iRM - integrated Reservoir Management certification Rueil / London 45 d 29 28 53

e-004 international oil summit Paris 1 d 21 54

e-006 international Gas & electricity summit Paris 1 d 13 55

e-010 overview of Petroleum economics Rueil 4 d 29 02 56

e-012 overview of natural Gas economics Rueil 4 d 27 30 57

e-014 Liquefied natural Gas economics Rueil 4 d 20 23 58

e-016 natural Gas & electricity trading Rueil 2 d 04 05 59

e-018 oil Markets & trading Rueil 3 d 01 03 60

e-019shipping: General Features, chartering, contracts & operations

Rueil 4 d 19 22 13 16 61


e-031 exploration & Production overviewRueilDubai

5 d20 24

26 30 23 27

28

02

62

e-035 introduction to Petroleum engineering Rueil 5 d 29 04 05 09 63

Upstream Economicse-062 contractual Framework of exploration-Production Rueil 3 d 24 26 64

e-066 economic Framework of exploration-Production Rueil 5 d 11 15 65

e-068 negotiation of exploration-Production contracts Rueil 5 d 21 25 66

e-070 economics & Risk analysis of upstream Projects Rueil 5 d 03 07 67

e-075 investment Profitability studies in the oil & Gas industry Rueil 4 d 26 29 69

e-079 upstream contracts audit Rueil 5 d 05 09 70

e-080 Governance of an e&P company Rueil 5 d 21 25 71

31


French sessions


new course

certifying training

sessions in english



GEOSCIENCES Geophysicse-103 Petroleum Geophysics Rueil 10 d 10 21 77

e-131 seismic interpretation Workshop Rueil 10 d 21 02 78

Logse-160 Well Logging & qualitative Log interpretation Rueil 5 d 30 03 79

e-170 quantitative Well Log interpretation Rueil 5 d 06 10 80

Petroleum Basin & Exploration e-204 exploration concepts & tools Rueil / 2 field trips 15 d 12 30 82

e-205 Basin assessment & Prospect Definition Rueil 15 d 03 21 83

e-212 sedimentology & sequence stratigraphy Rueil 5 d 19 23 84

e-216 evaluation & Prospect Generation Rueil 5 d 17 21 85

e-221Hydrocarbons in unconventional settings (the Geology Perspective)

Rueil 3 d 30 01 86

Reservoir Geologye-250 RcM Reservoir characterization & Modeling Rueil / 3 field trips 38 d 12 04 87

e-252 Reservoir Geology Rueil / field trip 20 d 12 07 88

e-255 advanced Reservoir Geology Rueil / 2 field trips 18 d 10 04 89

e-258cintegrated Reservoir on-site Workshop (Poitiers Field Lab)certification

Poitiers / field trip 5 d 30 03 91

e-261Geological Modeling Workshop for integrated Reservoir studies

Port-GentilRueil

5 d07 11

06 1092

e-264 naturally-Fractured Reservoirs Rueil 5 d 13 17 93

e-266 Petroleum Geostatistics Rueil 3 d 14 16 94

Reservoir Geophysicse-330

Lithology & Fluid Detection: tools for seismic Reservoir characterization

Rueil 5 d 06 10 95

Course Calendar

32


French sessions


new course

certifying training

sessions in english



RESERvOIR ENGINEERING

e-350 introduction to Reservoir engineeringDubai Rueil

5 d 28 03

05 09101

e-360 Reservoir engineering Rueil / field trip 62 d 12 09 102

e-361 Fluid studies - Pvt Rueil 5 d 10 14 103

e-365 Well test analysis Rueil / field trip 10 d 17 28 104

e-368 Drilling & completion for Reservoir studies Rueil 5 d 14 18 105

e-370 Drive Mechanism - enhanced oil Recovery Rueil 7 d 02 10 106

e-373 Field Development Project & uncertainties Rueil 5 d 21 25 107

e-375 Dynamic Reservoir simulation Rueil 10 d 28 09 108

e-385 Pvt Modeling Rueil 5 d 14 18 109

e-386c Fundamentals of eoR certificationDubaiRueil

5 d 30 03

24 28111

e-393c Reserves evaluation - Risks & uncertainties certification Rueil 5 d 13 17 113

e-395 unconventional Resources - shale Gas Fundamentals Rueil 5 d 20 24 114

e-396environmental Management of unconventional Development Projects: shale & tight Gas & oil

Rueil 3 d 25 27 115

GEOSCIENCES FIELD TRIPe-258c

integrated Reservoir on-site Workshop (Poitiers Filed Lab)certification

Poitiers / field trip 5 d 30 03 123

33


French sessions


new course

certifying training

sessions in english



DRILLING & COMPLETION Drilling / Completion

e-410 Drilling Fundamentals Pau

DubaiRueil

5 d12 16

09 13

21 25

129

e-411 Well completion & servicing Rueil 5 d 28 02 130

e-412c Drilling & completion engineering certification Pau 95 d 08 17 133

e-413 Drilling engineering Pau 80 d 08 26 21 17 134

e-414 completion engineering Pau 60 d 08 18 09 17 135

Drilling e-415 Practical aspects of Well Planning & costing Rueil 10 d 13 24 14 25 136

e-416 Geological Field trip for Drillers Pau 5 d 08 12 137

e-419 Fundamentals of Drilling & completion Pau 5 d 15 19 138

e-420 Well architecture & equipment Pau 5 d 21 25 139

e-421 Bit, Drill string & Fishing While Drilling Pau 5 d 11 15 140

e-422 Rig, BoP’s & Well control equipment Pau 5 d 25 29 141

e-423 Data aquisition during Drilling operations Pau 5 d 02 06 142

e-424 Hse: Health - safety - environment Pau 5 d 09 13 143

e-425c Directional & Horizontal Drilling certification Pau 5 d 18 22 145

e-428c Deepwater Drilling & Development certification Pau 5 d 30 03 147

e-430 stuck Pipe Prevention Pau 4 d 03 07 148

Fluidse-441 Drilling Fluids Pau 5 d 29 01 149

e-443 cementing Practices Pau 5 d 04 08 150

Completione-451 Well Productivity & Reservoir - Wellbore interface Pau 5 d 22 26 151

e-452 Well test operation Pau 5 d 17 20 152

e-453Well-completion equipment & Procedures for Flowing Wells

Pau 5 d 29 04 153

e-455 Wellbore treatments Pau 5 d 07 11 154

e-458 artificial Lift & Well intervention Fundamentals Pau 5 d 14 18 155

Well Control e-471 Well control - Level 3 or 4 Pau 5 d 14 18 23 27 05 09 157

e-473 Well intervention & Pressure control Pau 5 d 30 03 158

Course Calendar

34


French sessions


new course

certifying training

sessions in english



FIELD OPERATIONS & HSE Operation of Production Facilitiese-500 Fundamentals of Production Rueil 2 d 10 11 163

e-501 oil & Gas Field ProcessingRueilPau

Port-Gentil5 d 30

20 24

03 19 23

28 02

164

e-502 Field Processing & surface Production FacilitiesRueilPau

10 d

30

20

10

01 28 09

165

e-503c advanced oil & Gas Field Processing certification Rueil 15 d 19 07 167

e-504 Module 1: thermodynamics applied to Well effluent Processing Rueil 5 d 19 23 168

e-505 Module 2: oil & Water treatment Rueil 5 d 26 30 169

e-506 Module 3: Gas Processing & conditioning Rueil 5 d 03 07 170

e-510 natural Gas Rueil 5 d 26 30 10 14 171

e-511 Liquefied natural Gas (LnG)DubaiRueil

5 d16 20

05 09

14 18172

e-531c Panel operator certification Rueil 35 d 12 28 175

e-533c Production superintendent certificationPau, Martigues

& Rueil58 d 14 07 177

e-534c Production engineer certificationRueil

& Martigues60 d 05 25 179

e-546 Well equipment & operation for Production engineers Rueil 5 d 12 16 180

HSE - Health, Safety & Environmente-550 Hse in surface Processing operations Pau 5 d 07 11 181

e-560 safety engineering - Module 1DubaiRueil

5 d11 15

14 18182

e-561 safety engineering - Module 2 Rueil 5 d 21 25 183

e-580 environmental & societal Risk Management Rueil 5 d 21 25 184

e-590c Hse superintendent certification Pau, Martigues & Rueil 58 d 14 07 187

35


French sessions


new course

certifying training

sessions in english



Equipment, Maintenance, Inspectione-600 technology of Production Facilities equipment Rueil & Martigues 10 d 10 21 188

e-601 Module 1: static equipment Rueil 5 d 10 14 189

e-602 Module 2: Rotating Machinery Martigues 5 d 17 21 190

e-608 instrumentation, Process control & safety instrumented systems

RueilPort-Gentil

5 d16 20

24 28191

e-615 Metering & allocation Rueil 5 d 31 04 192

e-640c Maintenance superintendent certificationPau, Martigues

& Rueil58 d 14 07 195

e-645c Maintenance Management certification Rueil 5 d 21 25 197

Process & Layout Engineering e-650

offshore Field Development - Pipelines & Flow assurance

Rueil 5 d 24 28 198

e-680 oil & Gas Process simulation Rueil 5 d 28 01 199

Course Calendar

36


French sessions


new course

certifying training

sessions in english



PROjECTS & LOGISTICS

e-700c Project Management certificationDubaiRueil

Port- Gentil5 d

03 07

23 27

27

01

12 16 205

e-701PRoMise™ oil & Gas Project Management interactivesimulator for excellence

Abu DhabiRueil

5 d21 25

23 27

19 23

12 16206

e-710 engineering Management Rueil 3 d 09 11 05 07 207

e-722 quality & Risk Management in Projects Rueil 3 d 02 04 208

e-738 Precommissioning, commissioning & start-upDubaiRueil

Port-Gentil5 d

10 14

25 29

30 03

10 14 209

e-740c Project control certification Rueil 14 d 04 21 17 03 211

e-741 Developing Project control techniques Rueil 5 d 04 08 17 21 212

e-742 contracts & Procurement Rueil 5 d 11 15 24 28 213

e-743c negotiation skills Rueil 5 d 18 21 31 03 214

e-745c estimation & cost control certificationDubaiRueil

Port-Gentil5 d

17 21

18 22

16 20

10 14 217

e-746 Project Planning & scheduling Rueil 5 d 20 24 21 25 218

e-770c Logistic engineer certification Rueil 35 d 01 18 221

e-780 subsea activities Rueil 9 d 06 16 222

e-781 subsea Production systems Rueil 5 d 06 10 223

e-782 subsea Pipelines Rueil 4 d 13 16 224

38

Basi

n ex

plor

atio

n

• 3D

sei

smic

inte

rpre

tatio

n•

stru

ctur

al m

odel

ing

• se

quen

ce s

tratig

raph

y•

Wel

l log

ana

lysi

s•

Wel

l geo

phys

ics

/ Bo

reho

le s

eism

ic•

Geoc

hem

istr

y•

Petro

leum

sys

tem

s

• co

re d

escr

iptio

n•

Wel

l log

s, e

lect

ro-f

acie

s•

core

ana

lysi

s, p

etro

phys

ics

• Ro

ck ty

ping

, roc

k pr

oper

ties

• se

ism

ic fa

cies

• Ge

osta

tistic

s•

Hete

roge

neiti

es•

Frac

ture

d re

serv

oirs

• Pv

t, fl

uid

stud

ies

• sc

aL, p

etro

phys

ics

• W

ell t

est a

naly

sis

• Dy

nam

ic re

serv

oir s

imul

atio

n•

optim

ized

reco

very

eoR

/ioR

• De

velo

pmen

t pro

ject

an

d un

certa

intie

s

Rese

rvoi

r Geo

logy

Rese

rvoi

r eng

inee

ring

E&P

GEOS

CiEn

CES

inTE

GRaT

ED w

ORkF

LOw

SE&

P GE

OSCi

EnCE

S in

TEGR

aTED

wOR

kFLO

wS

39

Basin Exploration SyllabusBasin Exploration SyllabusProspect Definition

eXPLoRationProspect evaluation

sessions during this period Duration Reference course number

F Fundamental Basin exploration Workshop 5 days Geo / inFo e-200

F Field trip: introduction to Petroleum systems 5 days Geot / PetBas e-900

P seismic interpretation Workshop 10 days GeP / sisinteRP e-131

F Well Logging & qualitative Log interpretation 5 days LoG / LoGBasic e-160

P sedimentology & sequence stratigraphy 5 days Geo / stRati e-212

P Basin Modeling 5 days Bas / teMis e-219

P evaluation & Prospect Generation 5 days Geo / PLay e-216

F Hydrocarbons in unconventional settings 3 days Bas / unconv e-221

INTEGRATED PROGRAM: PetEx

Module 1: Exploration Concepts & Tools 15 days Geo / PeteXMoD1 e-204

Module 2: Basin Assessment & Prospect Definition 15 days Geo / PeteXMoD2 e-205

Foundation

Proficiency

advanced

F

P

A

40

Reservoir Geology SyllabusReservoir Geology SyllabusStatic Modeling

ReseRvoiRCharacterization & Modeling


F Reservoir Geology (RcM - Module 1) 20 days Res / ResGeoL e-252

F Geological Modeling Workshop for integrated Reservoir studies 5 days Res / GeoMoDeL e-261

P naturally-Fractured Reservoirs 5 days Res / natFRac e-264

F Petroleum Geostatistics 3 days Res / Geostat e-266

P integrated Reservoir on-site Workshop (Poitiers Field Lab) certification Advanced Certificate 5 days Res / inteGRation e-258c

INTEGRATED PROGRAM: RCM

Reservoir Characterization & Modeling 38 days Res / RcM e-250

Foundation

Proficiency

advanced

F

P

A

41

Reservoir Engineering SyllabusReservoir Engineering SyllabusField Development

ReseRvoiR enGineeRinGReservoir Development


F introduction to Reservoir engineering 5 days Gis / ResBas e-350

P Reservoir Management 5 days Gis / aRM e-355

P improved/enhanced oil Recovery Advanced Certificate 5 days Gis / eoR e-386c

A Dynamic Reservoir simulation: Best Practices 5 days Gis / aDvsiMu e-389

P Field Development Project & uncertainties 5 days Gis / DeveLoPRoj e-373

P Development of Gas condensate Fields 5 days Gis / Gas e-394

P unconventional Resources - shale Gas Fundamentals 5 days Gis / unconv e-395

P Reserves evaluation - Risks & uncertainties certification Advanced Certificate 5 days Gis / RisKun e-393c

A Pvt Modeling 5 days Gis / PvtMoD e-385

INTEGRATED PROGRAM: ResEng

Reservoir Engineering 62 days Gis / ResenGin e-360

Foundation

Proficiency

advanced

F

P

A

42

INITIAL TRAINING

JuN

IOR


Drilling Fundamentals 5 days FoR / inFoRe e-410

AssistAnt Driller estimated duration: 6 months

Well completion & servicing 5 days PRo / inPFe e-411

introduction to Rig Hse 5 days upon request

ON AN ONSHORE RIG, AS A MEMBER OF A DRILLING CONTRACTOR TEAM

JuN

IOR

sessions during this period Duration

roughneck FloormAn estimated duration: 4 months

Derrickman course 10 days on request

DerrickmAn estimated duration: 4 months

assistant Driller course 10 days on request

AssistAnt Driller estimated duration: 6 months

TECHNICAL TRAINING DRILLING COMPLETION

JuN

IOR sessions during this period Duration Reference course number

Drilling & Completion Engineering Certification (including Hse module and iWcF certification)

95 days FoR / FoFPe e-412c

ASSIGNMENT: jUNIOR SUPERvISOR

JuN

IOR


sAFety

as needed variable

ADvAnceD techniques (according to availability and needs)

advanced cementing Practices 5 days FLu / ciM2e e-444

Well test operation 5 days PRo / cePe e-452

Matrix acidizing 5 days PRo / aciDiFe e-456

nitrogen & coiled tubing operations in completion & Workover 5 days PRo / ctae e-461

Well intervention & Pressure control (iWcF certification) 5 days WeL / WeLine e-473

introduction to Reservoir engineering 5 days Gis / ResBas e-350

advanced Well Performance 10 days PRo / WeLLPeRF2e e-464

artificial Lift: Gas Lift 5 days PRo / GLiFte e-459

artificial Lift: Pumping 5 days PRo / aPoMPe e-460

ASSIGNMENT: SENIOR SUPERvISOR

SE

NIO

R


sAFety

Hse Management variable




Well intervention and Pressure control (iWcF certification) 5 days WeL / WeLine e-473



Practical aspects of Well Planning & costing 10 days FoR / PaWPce e-415

mAnAgement

Rig control 5 days on request

Project Management 5 days PL / PRojGB e-712

Integrated Reservoir Management Certification (IRM) 45 days Gen / iRM e-001

Drilling Supervisor Career PathCareer Path

43

INITIAL TRAININGJu

NIO

R sessions during this period Duration Reference course number

Drilling Fundamentals 5 days FoR / inFoRe e-410

Well completion & servicing 5 days PRo / inPFe e-411

introduction to Rig Hse 5 days on request

ON AN ONSHORE RIG, AS A MEMBER OF A DRILLING CONTRACTOR TEAM

JuN

IOR sessions during this period Duration

Mandatory courses as requested

sea survival, Fire Fighting... variable

TECHNICAL TRAINING DRILLING COMPLETION

JuN

IOR sessions during this period Duration Reference course number

Geological Field trip for Drillers 5 days FoR / FtFPe e-416

Drilling & Completion Engineering Certification (including Hse module and iWcF certification)

95 days FoR / FoFPe e-412c

ASSIGNMENT: jUNIOR SUPERvISOR

JuN

IOR


sAFety

as needed variable




Matrix acidizing 5 days PRo / aciDiFe e-456

nitrogen & coiled tubing operations in completion & Workover 5 days PRo / ctae e-461




artificial Lift: Gas Lift 5 days PRo / GLiFte e-459

artificial Lift: Pumping 5 days PRo / aPoMPe e-460

ASSIGNMENT: SENIOR SUPERvISOR

SE

NIO

R


sAFety

Hse Management variable







Practical aspects of Well Planning & costing 10 days FoR / PaWPce e-415

mAnAgement

Project Management 5 days PL / PRojGB e-712

Integrated Reservoir Management Certification (IRM) 45 days Gen / iRM e-001

Drilling Engineer Career PathCareer Path

44

Production/Operations TechnicianCareer PathCareer Path

OPERATOR

OPERATOR/TECHNICIAN CERTIFICATION 3 37 weeks PROD / BOAGB E-530C

Production

Mechanical Maintenance

electrical Maintenance

instrumentation

PANEL OPERATOR PANEL OPERATOR CERTIFICATION 7 weeks PROD / PANELOPGB E-531C

SuPERVISOR

PRODUCTION SUPERvISOR CERTIFICATION 7 weeks PROD / PRODSUP E-532C

Production

Maintenance

inspection

SuPERINTENDENT

SUPERINTENDENT CERTIFICATIONS:

Production superintendent certification 12 weeks PRoD / PRoDsi e-533c

Hse superintendent certification 12 weeks Hse / Hsesi e-590c

Maintenance superintendent certification 12 weeks Mai / Mainsi e-640c

throughout the career path, iFP training can implement specific short courses on the following topics:

Production and treatments

Health, safety and environment

equipment and Maintenance

SUPERINTENDENT

SUPERVISOR

PANEL OPERATOR

OPERATOR

Operator career Panel Operator career Supervisor career

45

Field Operations Engineer Career PathCareer Path

NEW GRADuATES(B.Sc, M.Sc or equivalent)

PETROLEUM ENGINEERING CERTIFICATION 320 weeks PROD / PETROLENG E-537C

JuNIOR ENGINEER / EXPERIENCED

uPERINTENDENT

PRODUCTION ENGINEER CERTIFICATION 12 weeks PROD / PRODENG E-534C

NATURAL GAS & LNG PRODUCTION ENGINEER CERTIFICATION 12 weeks PROD / GASENG E-535C

HSE ENGINEER CERTIFICATION 16 weeks HSE / HSEENG E-591C

SPECIALIZED ENGINEER

SPECIALIzED SHORT COURSES FOR EGINEERS:

Production and processing

Hse & safety engineering

equipment and Maintenance

HIGH POTENTIALS,fuTuRE MANAGERS

ECONOMICS, FINANCE AND MANAGEMENT COURSES

(cf. iFP training catalogue - economics and Management)

(B.Sc., M.Sc, or equivalent)NEW GRADUATES

JUNIOR ENGINEER/ EXPERIENCED

SUPERINTENDENT

SPECIALIZEDENGINEER

HIGH POTENTIALS,FUTURE MANAGERS

- Production- Design- Project

- HSE- […]

WORK EXPERIENCE

46

Project Engineer Career PathCareer Path

ACQUIRING KNOWLEDGE FROM 0 TO 10 yEARS OF EXPERIENCE

TECHNICS & INTERMEDIATE MANAGEMENT CONSTRUCTION OR CONTROL

EN

GIN

EE

RIN

G &

PA

Ck

AG

E M

AN

AG

EM

EN

T P

AT

H

intRoDuctionto oiL & Gas

introduction to Reservoir enginnering

e-350

Drilling Fundamentals

e-410

oil & Water treatment

e-505

Gas Processing & conditioning

e-506

Rotating Machinery

e-602

Hse in surface Processing operations

e-550

Liquified natural Gas

e-511

suBsea

Production engineeringcertification

e-534c

quality & Risk Management

in Projectse-722

subseaPipelines

e-782

subsea Production

systemse-781

enGineeRinG

technology of Production

Facilities equipment

e-600

engineering Management

e-710

PR

OJE

CT

CO

NT

RO

L P

AT

H

contRacts

technology of Production Facilities

equipmente-600

introduction to Petroleum

systeme-900

Drilling Fundamentals

e-410

quality & Risk Management

in Projectse-722

Developing Project control

techniquese-741

contracts & Procurement

e-742

negotiation skillse-743

PLanninG& cost

Project Planning & scheduling

e-746

estimation & cost control certification

e-745c

Practical aspects

of Well Planning & costing

e-415

PRojectcontRoL


techniquese-741


e-742


CO

NS

TR

uC

TIO

N P

AT

H

suPeRvision

corrosion Prevention in Production Facilities

e-675

construction Works

supervisione-736

Precommissioning, commissioning

& start-upe-738

PRojetconstRuction

Project Management certification (65 days) e-702c

RevaMPinG

Hse superintendent

certification e-590c

Precommissioning, commissioning

& start-upe-738

47

DEvELOPPING KNOWLEDGE AND SKILLS MORE THAN 8 yEARS OF EXPERIENCE

PROjECT MANAGEMENT


techniquese-741


e-742

exploration & Production

overviewe-031

upstream economics & Management

e-060

construction offshore

installatione-734


e-742


Project Managementcertification

(5 days)e-700c

PRoMise™ oil & Gas Project

Management interactive

simulator for excellence

e-701

subseaPipelines

e-782

subseaProduction systemse-781

49

Public Courses

In-House Training

General E&P Training 53-71 229-231

Geosciences 77-96 232-243

Reservoir Engineering 101-116 245-251

Geosciences Field Trip 123 253

Drilling & Completion 129-158 255-261

Field Operations & HSE 163-199 262-289

Projects & Logistics 205-224 291-295

Overview of Technical Fields


f Management ........................................... p. 53 to 61

f General Information & Multidisciplinary Courses ..................... p. 62 to 63

f Upstream Economics .............................. p. 64 to 71

f In-House Training .................................... p. 73


For more information visit www.ifptraining.com/certifications or call +33 1 41 39 12 12

Build your skills in:

Key benefits:

An international recognition of your competencies An Executive Certificate is obtained An expertise guaranteed in Integrated Reservoir Management Ready-to-use skills

Assessing the Reservoir Uncertainties management impact on Project Economics

Leading multidisciplinary teams during development integrated studies

Promoting best practices to optimize Company’s resources development in maximizing the additional VALUE

Understanding the Reservoir Engineering evaluations from Prospect to Project Final Investment Decision

With the EXECUTIVE CERTIFICATEin Integrated Reservoir Management

53

Gene

ral E

&P T

rain

ing


Rueil / London Aug 29 - Oct 28 €39,960 GEN / IRM [email protected]

ReseRvoiR engineeRing and field development fundamentals (ifp training)

23 d

Production geology, geophysicsWell logging, interpretation - Production loggingPetrophysics: rock properties (porosity, saturation, permeability) and their interactions with fluidsFluid properties: PVT oil gas and waterWell testing: principles and interpretationProduction mechanisms: natural drive (primary recovery), immiscible fluid injection gas or water (secondary recovery), tertiary recovery (EOR: miscible, chemical or thermal process)Field development methodology, data acquisition, reserves estimationDrilling and completionProject economics & contractsWell performance optimization: inflow, outflow, formation damage remedial (acid stimulation, fracturing, sand control)Assessment of reservoir risks and uncertaintiesUnconventional hydrocarbonsFuture E&P development challenges in a global Energy sceneField trip to Poitiers area (2.5 days): well testing in an aquifer, interpretation and analysis of the results (production, draw-down, build-up), cores and logs observation of a reservoir analogue to the one on which the test was performed, geological and dynamic modeling

Case studies (imperial College london) 12 dDevelopment and application of a reservoir simulation model for reservoir management, including up scaling, history matching, and reservoir performance prediction, field development planning and simple economic analysisUK field Development ProjectField trip to the Wessex basinGroup-based computer-aided exercise covering the development and monitoring of a large oil fieldData analysis, development of a reservoir simulation model, including upscaling and history matchingApplication of model to identify an optimum field development plan with simple economic evaluation

Case studies (ifp training) 10 dTertiary recovery in a mature oil field with lean gas injectionReservoir management specificities for carbonate fractured reservoirsGas: gas properties and field case: development and monitoring of a gas fieldAlwyn area: complex gas, condensate and oil field evaluation development and monitoring in the North Sea environmentSpecial case histories: deep water offshore, deep reservoir, heavy oils

puRposeTo provide, through a multidisciplinary approach of paramount importance for the optimization of field development and operations, an in-depth understanding of key concepts and mechanisms of reservoir managementTo find, through a unique training experience, what could be keys for success when one applies high-standard guiding principles in asset management, from exploration and field development to field operations and enhanced oil recovery

audienCeHigh-potential E&P professionals, future managers of E&P assets and activities, providers of integrated E&P servicesPetroleum engineers, geoscientists, well engineers, project managers, business unit leaders

leaRning objeCtives - To understand reservoir management best practices for oil & gas fields development

- To maximize value creation of oil & gas assets through the technical and economic resources optimization

- To comprehend various disciplines that take part in reservoir management

- To learn about various reservoirs and field development conditions through hands-on and case studies

- To team leaders the relevant knowledge for Reservoir Management in E&P Projects

pReRequisiteA degree in engineering or geosciences, with preferably a 5-year professional experience

Ways & meansHighly interactive course with serious game and actual case studiesanimation by e&p senior experienced lecturerstwo field trips for hands-on sessions illustrating reservoirs outcrops and reservoir behaviortwo weeks of course in imperial College (london) focused on field development optimization

noteAccommodation and transportation costs are not included in the fee. Logistics can be organized by IFP training A specific brochure for this program is available on request

IRM - Integrated Reservoir Management Certification e-

001C

Coordinator: Jean-Pascal Dejean

45 days

Reference GEN / IRM

general e&p training Management

executive Certificate

54


Paris Apr 21 €990 PEH / IOS [email protected]

futuRe of tHe oil industRyThe oil market. Competition between oil and other energy sourcesThe impact of technological advances on production and processing costsDemand in the 21st century and the share of oil in the global energy market in the face of competition and environmental constraints

pRoduCing CountRies: meeting tHe neW CHallenges of tHe oil seCtoRWith the participation of ministers from the main oil producing countries

noC - ioC: Competition oR CoopeRation?Oil industry developments (mergers and acquisitions) and their impact on costsPossible cooperation strategies between producing countries and international companiesOPEC/non-OPEC relations and producer-consumer dialogue

debate: betWeen ioC, noC and seRviCe Companies in tHe Context of loW pRiCe of tHe baRil

How to improve profitability?Increasing the profitability of new projects and maintaining their start-upIncreasing the profitability of ongoing production (technical aspects, organization aspects)

puRposeThe international oil summit, held in Paris since 1999, have been recognized as large successesEach conference brings together more than 200 participants, including ministers, prominent corporate leaders and journalistsThe presentations of distinguished speakers open constructive discussions concerning a wide range of issues confronting the oil industryIn 2015, as in the previous summits, oil ministers and CEOs of leading national and international oil companies are invited to take part

audienCeProfessionals in the oil business, consumers, government advisers, policy makers, academics, bankers, economists, lobbyists and consultants

International Oil Summitjointly organized with IFP Énergies nouvelles and Petrostrategiese-

004

Coordinator: Sylvie Saulnier


1 day

Reference PEH / IOS

For additional courses, please see the In-House Training section on page 226

55

Gene

ral E

&P T

rain

ing


Paris Oct 13 €990 PEH / IGS [email protected]

WHiCH Role of natuRal gas & lng in tHe eneRgy tRansition?The impact of LNG on the energy marketsRole of US LNG in the global marketLNG exports to Europe & JapanEvolution of Shale gas in the global supplyDevelopment of Electricity; role of renewables

puRposeThe international gas summits, held in Paris since 1996, have recorded large successesEach conference brings together more than 200 participants, including ministers, prominent corporate leaders and journalistsWide issues facing the natural gas industry around the world are open for debate following presentations from distinguished speakersIn 2015, as in the previous summits, CEOs of leading gas companies such as GDF Suez, Gazprom, Shell, Sonatrach, Statoil, Total ... are invited to take part

audienCeProfessionals in the Gas Business, Consumers, Buyers, Power Generators, Regulators and Government Advisers/Policy Makers, Academics, Bankers, Economists, Lobbyists and Consultants

International Gas & Electricity Summitjointly organized with IFP Énergies nouvelles and Petrostrategiese-

006

Coordinator: Sylvie Saulnier

1 day

Reference PEH / IGS



56


Rueil Nov 29 - Dec 02 €2,450 ENE / OPE [email protected]

inteRnational eneRgy sCene 1 dEnergy resources: definition, characteristics, conversion factorEnergy demand and supply: evolution factors (reserves, technology, etc.) and scenariosHistory of the oil industryDeterminants impacting crude oil prices today Strategies of actors: producer and consumer countries, national, independent and international oil companies, international organizations (OPEC, IEA, etc.)Financial and political stakes, geographical and environment constraints

upstReam 1 dStages and technico-economic aspects of the Exploration-ProductionReserve evaluationEconomic criteria and evaluation method of an oil projectOil contracts and principle of the oil rent sharing

midstReam 1 dBusiness practices and pricingPhysical markets (spot, forward): operation, reporting agenciesIntroduction to incotermsPricing a cargo, freight ratesFinancial markets (futures): operation, hedging

doWnstReam 1 dRefining processes and unitsRefining capacities, projects, strategies of actorsEconomic aspects of the refining sector: investments, costs and marginsEnvironmental constraints, alternative fuelsPetroleum product markets and marketing

puRposeTo have an overview of the petroleum sector, understand the oil operations and business from upstream to downstream and identify the economic challenges

audienCePeople from energy and petroleum sectors, industrial partners, business men and financiers, as well as staff of the public administration

leaRning objeCtivesUpon completion of the course, participants will be able: - to describe the different types of energy resources (conventional, unconventional, renewable, fossil)

- to interpret the evolution of the factors affecting the energy supply and demand (crude price, technology, reserves, geopolitics, geography, environment, etc.)

- to identify the actors of the energy scene and their strategic guidelines

- to describe the main steps of the upstream sector

- to distinguish the different types of oil contracts and to explain the main economic criteria to evaluate a project

- to summarize the operation of the physical and financial oil markets

- to explain the evolution of the refining sector and of the petroleum product markets

Ways & meansquiz and game on the fundamentals of the energy sectorCase study on the economic evaluation of an e&p projectexercises on the transportation costs of a cargo, on hedging and on refining marginsteam games on factors affecting the crude price, on the upstream sector and on the oil trading

Overview of Petroleum Economics e-

010

Coordinator: Guillaume Charon


Can be organized for a single companyfoundation

4 days

ReferenceENE / OPEENE / EPE


57

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Rueil Jun 27 - 30 €2,610 ENE / ONE [email protected]

global gas sCene 0.75 dImportance of natural gas in the world energy balanceReserves, production, consumption and trading around the worldFrom the reservoir to production: exploration, development and productionInternational gas marketsImpact of unconventional gas on the world demand / supply and on gas prices

stRuCtuRe and Costs of tHe natuRal gas CHain 0.75 dDescription of the gas chain: from production to distributionGas treatment and transportationStorage costs and distribution costsLiquefied Natural Gas (LNG), FLNG, FSRUGas-To-Liquids

long-teRm natuRal gas and lng ContRaCts 0.5 dContractual framework of Exploration-ProductionStructure and principles of a long-term contractPrinciples of take-or-pay, netback, indexation and gas price formulasMain articles of long-term contracts

diffeRent gas maRkets & CoRpoRate stRategies 0.5 dMain gas markets structuresThe European Union and the liberalization process: stakes and opportunitiesRole of oil and gas companiesGas and power integrationThe US market

gas maRketing in a libeRalized maRket 1 dDrivers and concepts of liberalizationPrinciples of the EU gas directive, progress in various countries, take-or-pay issuesRole of the regulator, network development, transport, tariffs, etc.Contractual aspects between suppliers, transporters and distributors

spot, foRWaRd and finanCial maRkets 0.5 dSpot and forward natural gas marketsWhy and how to access those markets?Prices in the different marketsFinancial contracts, hedging strategies and examples

puRposeTo provide participants with an overview of the economic and contractual aspects of the natural gas chain, all the way from production and transport to marketing

audienCeProfessionals with experience in the oil industry who now need to widen their understanding and knowledge of the natural gas businessThose who are concerned about natural gas and work in other sectors such as banking or government where they need an understanding of the industry

leaRning objeCtivesUpon completion of the course, participants will be able: - to evaluate the importance of natural gas in the world energy balance, and the strategies of the main actors of the industry

- to identify the main technical, economic and contractual features of the natural gas chain, from the production well to the final consumer

- to explain the framework of liberalization of natural gas markets and its impact on gas contracts and prices

Ways & meansquizexercises on the costs of gas infrastructuresexamples of contracts - calculations on quantitiesstatistical data

Overview of Natural Gas Economics e-

012

Coordinator: Sylvie Chemineau


4 days

ReferenceENE / ONEENE / EGN


For additional courses, please see the In-House Training section on page 226For additional courses, please see the In-House Training section on page 226

58


Rueil Sep 20 - 23 €3,110 ENE / LGE [email protected]

global gas sCene and lng maRkets 1 dNatural Gas uses, reserves, supply and demandNew outlets for LNGInternational gas trades and importance of the LNGUnconventional gas and its impact on LNG marketsEvolution of the LNG trading and pricingMain LNG markets: Japan, South Korea, Atlantic Basin, India and China

teCHniCal aspeCts of tHe lng CHain 1.5 dLNG: properties and specificationsDesign of the different parts of the LNG chainPrinciples, standards, usual practice and sizeLiquefaction plants, LNG tankers, regasification terminalsRisks, danger, impact on designMain projects of LNG terminals in the world and their exploitationCapital expenditures and operating costsFeedback of some international projects

lng ContRaCts 1.5 dMain features of LNG contractsImportant articles in long-term LNG sales agreementsLNG pricing: price formulae, indexation and net-back valueImpact of gas markets liberalizationThird-party access to regasification terminalsExample of terminals in FranceCoexistence between long-term contracts and short-term contracts

puRposeTo provide participants with an overview of the economic and contractual aspects of the LNG (Liquefied Natural Gas) chain

audienCeProfessionals from the oil, gas or power industries or from the bank/insurance/ consulting sectors who need to understand LNG activities and their economic stakes

leaRning objeCtivesUpon completion of the course, participants will be able: - to evaluate the economics of each part of the LNG chain

- to analyze the basic structure of LNG contracts

- to identify the main LNG markets and their evolution

Ways & meansquizexamples of contractsstatistical data

Liquefied Natural Gas Economics e-

014




4 days

ReferenceENE / LGEENE / EGL


59

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Rueil Oct 04 - 05 €1,740 TRT / GET [email protected]

maRkets 0.5 dMain features of gas and electricity markets

Risk management 0.5 dBasic statisticsRisk Typologies

- Credit Risk - Market Risk - Operational Risk

Value at Risk

Hedging and modeling 0.5 dNatureProducts

- Futures, forwards, swaps, options

Case studies 0.5 dCompute sensitivities on a gas procurement contractCompute the V@R of the contract using Monte Carlo and parametric methods

puRposeTo enable participants to gain a global and synthetic view on the risk management of the various trading activities of gas and electricity

audienCeAll managers who need to learn the ways of managing risk in the market of natural gas and electricity

leaRning objeCtivesUpon completion of the course, participants will be able: - to assess the risks associated with each phase of the gas trading and electricity

- to understand the different hedging tools of the financial markets and assess their efficiency and limits

- to put in place means of detecting, measuring and controlling the risks through a proper trading organization (procedures, segregation of duties)

- to implement control measures, including market risk and credit risk

Ways & meansCase studies and examples

Natural Gas & Electricity Trading:market risks and their operational managemente-

016


Can be organized for a single companyproficiency

2 days

Reference TRT / GET



60


Rueil Jun 01 - 03 €2,225 TRT / OMT [email protected]

oil supply and demand fundamentals 0.25 dOil vs. other energy sourcesDemand fundamentalsOil producing countries, OPEC, consuming countries, international oil companies: constraints and strategies

CRude and petRoleum pRoduCts pHysiCal tRading 1 d“What is the value of a crude oil?”: the refiner’s point of viewDifferent types of contracts: Long term, spot and forwardMain oil markets and their featuresBenchmark crudes. The role of reporting agenciesLinks between trading and shippingProducts tradingMain provisions of a sale/purchase contract

exCHanges and futuRes tRading 1 dThe concept of volatilityDefinition of a contract: the cases of WTI and BrentExchanges and their organization: the cases of NYMEX and ICEMain futures marketsHedging principlesHedging imperfections. Basis riskMarket structure (contango, backwardation)Case study

deRivatives 0.25 dOptions: principles, basics and characteristicsInterests and limits of optionsSwaps: principles, basics and characteristicsInterests and limits of swaps

Hedging stRategies - vaRious Case studies on Hedging 0.5 dFor a refinerFor a producerFor a marketerFor an industrial consumer

puRposeTo provide a better understanding of the structure of the markets, the uses and the impacts of physical and financial markets for crude oil and petroleum products

audienCeAll personnel in the petroleum or associated industries needing to improve their knowledge and understanding of crude oil and petroleum products trading and pricing mechanisms

leaRning objeCtivesUpon completion of the course, participants will be able: - to analyze the parameters which influence prices of crude oil and petroleum products

- to review the different oil trading markets by type of transaction

- to understand the importance of maritime transport costs in oil supply economics

- to comprehend the hedging techniques available for protection against fluctuations in prices

Ways & meanssyndicate works on case studiesCase studies

Oil Markets and Trading e-

018

Coordinator: Lucien Guez



3 days

ReferenceTRT / OMTTRT / MTP


61

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Rueil Apr 19 - 22 €2,900 TRT / CFS [email protected]

Rueil Dec 13 - 16 €2,900 TRT / CFS [email protected]

vessel speCifiCations 0.5 dMaritime vocabulary: position, distance, speed,…Ship measurements: tonnage, displacement, dimensions,…Anatomy of a ship: main featuresNature of cargoes: dry, wet, specialtiesShips offering: various types, age profile, specific focus on oil tankers and gas carriers

sHipping finanCial and legal aspeCts - basiCs of inteRnational maRitime laWs

0.25 d

Elements of financing and profitability: type of fund raise, appreciation on current financial situationCurrent state of the shipbuilding industryThe link between states and shipowners: notions on the registration of ships, the world fleet by flag, by investing countriesGeneral notions of maritime legislation: territorial waters, EEZ, traffic separation, arctic waters,…Seaways: main maritime routes, Panama and Suez canal, port networkPiracy: legal, operational and financial consequences

Risks ContRol and enviRonmental pRoteCtion 0.75 dInternational regulations: IMO conventions, MARPOL, SOLAS, STCW, ILO,…Impact on the environment: ITOPF statistics, ECA, GHG emissions,…Consequences on shipping: EEDI, SEEMP, routing, bunkering alternatives, BWMProcedures for the transport of oil products: SIRE, TMSA, Vetting process

tHe sHipping CHain and tHe poRt Community 0.25 dThe Seaport: main featuresThe handling of the ship in the port: port authority, pilot and tugs,…The commercial partners of the ship in the port: role of agent, disbursement account, stevedore’s, forwarders,…The safety of the ship in the port: protection of the peers, departure time, pollution preventionOperating expenses of ships: fixed and variable costs

sHipping exploitation and opeRations 0.75 dThe bunkering market: products, players, contracts, market organization, PLATTS, BUNKERWIRERisk management: basis of Hedging, Futures, Swap, OptionThe marine lubricants market: product, players, contractual aspectQuantity measurements: industry commonly agreed procedures ROB, OBQ, VEF, VAR, ISGOTTQuantity measurements: specific focus on Gas, IGC codeCargo loading procedure: interface ship/shore, planning, pumping rates, topping offClaim handling: quantity, quality

tHe fReigHt maRket - pRiCing meCHanisms 0.5 dOrganization and operating evolutions in ship managementFreight market organization: players and segmentationFreight rates structure: WORLDSCALE, BALTICRisk management: FFAMarket insights: appreciation of the market situation for various classes of oil tankers and gas carriers

tHe lng industRy 0.25 dLNG tradeLiquefaction Regasification plantsThe fundamentals of LNG market

CHaRteRing agReement and CHaRteR paRty 0.75 dChartering agreement principles: different types, main terms, standard clauses, riding clausesChartering agreement main definitions: Laycan, NOR, Laytime, example of calculation, Demurrage, Detention, Retention,…Role and responsibilities: split between charterer and ship owner depending on charter typeComing to a chartering agreement: various steps and procedures, role of the brokerCharter party specific clauses: force majeure, war risk, slow steaming, virtual arrival,…Some litigation cases: practical examples

puRposeTo enable participants to acquire a thorough knowledge of the technical, operational and commercial conditions concerning the transport of hydrocarbons by sea as well as an introduction to the legal and financial aspects of the shipping

audienCeProfessionals in the oil industry, involved in the supply, shipping, distribution activities and who need to improve their knowledge in operational and contractual aspects of shipping

leaRning objeCtivesUpon completion of the course, participants will be able: - to assess nautical capacity and technical criteria of a ship in particular for the transport of hydrocarbons

- to understand the risks associated with maritime activities (boating, environmental, policy,...), as well as the regulations and related procedures

- to integrate into their reflection operational and strategic constraints that apply to the shipowner or the carrier

- to negotiate in the best possible conditions contract litigations deriving from oil products marine operations

- to better understand the tanker chartering market

Ways & meansillustration of actual cases

Shipping: General Features, Chartering Contracts & Operationse-

019

Coordinator: Lucien Guez


4 days

ReferenceTRT / CFSTRT / CES



62


Rueil Jun 20 - 24 €3,360 GEN / DECOUVEP [email protected]

Rueil Sep 26 - 30 €3,360 GEN / DECOUVEP [email protected]

Dubai Oct 23 - 27 €3,240 GEN / DECOUVEP [email protected]

Rueil Nov 28 - Dec 02 €3,360 GEN / DECOUVEP [email protected]

intRoduCtionWelcome, introduction to Exploration & Production

geosCienCes 1 dExploration Tools: Geology

Structural geology - Rocks and sedimentary basinsFrom hydrocarbons to reservoir, well logging

Exploration Tools: GeophysicsPrinciples, Acquisition, Interpretation

Reservoir EngineeringFrom physical interpretation to reservoir modelingEvaluation of the reserves, well test, drainage mechanismsDifferent types of effluent and their behavior

dRilling and Well Completion 1 dDrilling

Well architecture, Drilling Rig functions, Drilling techniques and operationOffshore drilling rigs

Well CompletionReservoir / Wellbore interface, Artificial Lift techniquesWell equipment and Well intervention

field pRoCessing - suRfaCe faCilities 1 dField processing of well effluent

Gathering network, effluent processing, metering and exportOffshore installations

Fixed and floating production structuresDeep offshore technology

field development and deCision making pRoCess 1 dField development process - Oil & Gas project phasesProject profitability evaluation and contractsFundamentals of Oil & Gas Project Management

tHe futuRe 1 dThe new challenges for the Oil & Gas industryNew energiesEnvironmental aspects

puRposeTo provide a complete overview of the techniques, achievements and challenges of the Exploration-Production industry: Geosciences, Reservoir Engineering, Drilling and Well Completion, Surface Facilities, Onshore and Offshore Production

audienCeAll Professionals within the petroleum industry (commercial, legal, financial, human resources and support entities), or related sectors including Ministry of Energy professionals, who need of a general knowledge about the oil and gas upstream sector

leaRning objeCtives - To understand the various phases of oil and gas exploration and production

- To understand the contribution of all experts and technologies involved in this sector

- To understand the E&P value chain from prospect to market

- To learn the vocabulary needed to attend E&P project technical meetings

Ways & meansinteractive animation by e&p senior experienced lecturersuse of several illustrations: videos, rock samples, tools, effluents…various examples

Exploration & Production Overview e-

031

Coordinator: Benoît Rabaud

general e&p training General Information & Multidisciplinary Courses

Can be organized for a single companydiscovery

5 days

ReferenceGEN / DECOUVEPGEN / DECOUVERTE


63

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Rueil Feb 29 - Mar 04 €3,380 GEN / INFPGE [email protected]

Rueil Dec 05 - 09 €3,380 GEN / INFPGE [email protected]

ReseRvoiR engineeRing 1 dGeologic trapsRock and fluids propertiesLogging and well-test evaluationDrainage mechanismsImproved oil recovery

Well 2.25 dDrilling

Oil and gas exploration organizationWell designDrilling rig: functions hoisting, rotations, pumping, safety...Drilling operations: casing, cement job, fishing, D.S.T.

Downhole production / CompletionCompletion designGlobal approach of flow capacityReservoir-wellbore interfaceWell stimulationWell equipment and maintenanceChronology of a completion operation

Offshore wellsSelection of the rig type: jack-up, semi...Design and specific equipment

oil and gas pRoCessing faCilities 1.75 dDifferent objectives of processing field plantsGathering system, hydrate inhibitionCrude oil treatment: oil and gas separation, crude oil dehydration and desalting processesGas processing: dehydration, sweetening, NGL recovery processesOffshore production: metering and shipmentVisit of a production site (if available)

puRposeTo provide a complete overview of petroleum engineering covering primary issues of reservoir, drilling, completion, and surface production

audienCeProfessionals in technical, commercial, legal, financial or human resources departments, within the petroleum industry or related sectors, who need of a general knowledge in petroleum engineering

leaRning objeCtives - To learn about major issues in petroleum engineering

- To understand the various operations carried out during field development, from drilling to surface treatment

- To learn the vocabulary needed to communicate with E&P professionals

Ways & meansinteractive animation by e&p senior experienced lecturersall efforts are made to organize, during this course, visits to a drilling site and to a production siteshould a scheduled site visit have to be cancelled, for reasons beyond ifp training’s control, and no alternative can be found in time, an illustration will be discussed in class using videos

noteKindly refer to the following complementary courses which might be of interest: “Introduction to Reservoir Engineering” (E-350); “Drilling Fundamentals” (E-410); “Well Completion and Servicing” (E-411); “Oil & Gas Field Processing” (E-501)

Introduction to Petroleum Engineering e-

035

Coordinator: Frank Beijer


5 days

ReferenceGEN / INFPGEGEN / INFPGF

general e&p training General Information & Multidisciplinary Courses


64


Rueil May 24 - 26 €2,310 EAM / CFEP [email protected]

legal fRameWoRk 0.5 dObjectives of actors, role of national oil companies, stakes in E&PPrinciples of rent sharing, property of hydrocarbons and State sovereigntyProcedure for contracts awarding, different regimes and petroleum laws in the worldLegal approach of petroleum lawCase study: analyzing modern petroleum laws

ContRaCtual & fisCal fRameWoRk 1.5 dConcessions contracts: principles, State’s revenues, examples of tax regimes and case studiesProduction-sharing contracts: principles, examples, of tax regimes and case studiesRisk-service contracts, and technical assistance contractsPseudo-tax and non-fiscal constraintsSensitive economics clauses, flexible oil policy: why and how to design it?Objectives of a flexible and progressive tax systemFlexible taxation terms and windfall tax approachesEconomic model of an oil project

main aRtiCles of e&p ContRaCts 0.5 dGeneral structure of patrimonial contractsExploration phase: duration, commitments, surrender, data and information, etc.Appraisal phase: work program, gas provisions, commerciality, etc.Development phase: financing, State participation, budgets and development plans, unitization, etc.Production phase: work conduct and supervision, audit and accounting, financing, taxation, transportation and marketing of production, hydrocarbon price determination, etc.General terms & conditions: title transfer, force majeure, governing law and dispute resolutionComparison of fundamental features of Exploration-Production contractsMajor economic, financial and legal aspects for oil companiesEvolution and trends in oil taxation and patrimonial contracts

joint opeRating agReements 0.5 dMain legal provisions in a Joint Operating Agreements (JOA)Other agreements: JSBA (Joint Study & Bidding Agreement), unitization, farm-in / farm-out

puRposeTo provide participants with an in-depth understanding of the shape and dynamics of oil and gas Exploration-Production contracts

audienCeProfessionals from the E&P sector and lawyers who need a practical understanding of all the concepts, principles and rules of oil and gas patrimonial contracts between host countries and international oil companies

leaRning objeCtivesUpon completion of the course, participants will be able: - to discuss different tax systems and contractual frameworks

- to identify the key issues and constraints in the relationships between host countries, NOCs and IOCs

- to evaluate the management of partnerships in the upstream sector to find and produce hydrocarbons

Ways & meansCase studiesexercises on rent sharingexamples of petroleum laws & fiscal regimes around the world (north West europe, north africa, West africa, middle east, asia-pacific, etc.)

Contractual Framework of Exploration-Production e-

062

Coordinator: Mohamed Lyes Djenaoui

general e&p training Upstream Economics


3 days

ReferenceEAM / CFEPEAM / CCEP


65

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Rueil Apr 11 - 15 €3,530 EAM / EFEP [email protected]

upstReam eConomiC enviRonment 0.5 dEconomic development of the upstream sectorVarious actors in Exploration-Production and their strategies. Oil markets and pricesCurrent exploration and production activitiesLevels of investmentExamples of finding, development and production costs

ContRaCtual and fisCal enviRonment 0.5 dGeneral principles of oil tax systemsLegal framework: concessions agreements, production sharing contracts, service contractsImpact of various contractual and technical parametersSharing of the economic rent between the State and Oil Companies. Economic flexibilityLegal aspects of joint venturesMain legal provisions in a Joint Operating Agreement (JOA)

eConomiC evaluation of e&p pRojeCts 2 dCost of capital and discount rate, value creationEconomic criteria for project evaluation: net present value (NPV), internal rate of return (IRR), payback period, etc.Global profitability analysis, the impact of taxation and inflation on economic indicatorsSpecific method to Exploration and Production: shadow interestCase studies: development of an oil field (under concession and production sharing agreements)Introduction to risk analysis and risk discount rate: sensitivity analysis, Spider and Tornado diagramsProbability of success, economic risk analysis in oil explorationEconomic study of an exploration project using Min, Mode and Max scenariosCase studies: valuation of a decision to acquire information (seismic or drilling) and pricing of an exploration bloc

upstReam aCCounting and finanCe 2 dFinancing of oil and gas projects. Basic aspects of accounting and financial analysisSpecial mandatory reporting for oil companiesAccounting of exploration expenditures, full cost, successful effortsAmortization and depreciation methods, special provisions (depletion allowance...), residual costsFunds from operations, cash flows, financial equilibrium, working capitalFinancial statement, return on capital employed, return on equity, financial leverageCost analysis and budgetingExploration costs, finding costs, development costs, replacement costs, production costsCapital budgeting, authorizations for expenditure, planning and scheduling, budgeting exploration activitiesPrinciples and methodology of cost controlBudget content and breakdown, selection of a cost control methodStandard costs, fixed and flexible budgets, analysis of variationsBudgets, principles of joint venture accounting, accounting procedures, cash calls, joint venture audit

puRposeTo provide a complete overview of the mechanisms of upstream projects and improve the understanding of the economics of Exploration and Production

audienCeEngineers and commercial staff who need to extend their understanding of the economic and business aspects of the upstream sector

leaRning objeCtivesUpon completion of the course, participants will be able: - to explain the economic, technical and fiscal aspects of E&P activities

- to evaluate the economic profitability of an E&P project

- to analyze the main corporate financial statements (Profit/Loss and Balance Sheet) issued by oil companies

Ways & meansCase studies simulated on computers:development of an oil field (under concession and production sharing agreements)acceleration of production project with or without eoR (enhanced oil Recovery)valuation of a decision to acquire information (seismic or drilling) pricing of an exploration blocanalysis and construction of balance sheets, income statements and key financial statements of an oil & gas companyexamples of petroleum laws & fiscal regimes around the world (north West europe, north africa, West africa, middle east, asia-pacific, etc.)

Economic Framework of Exploration-Production e-

066



5 days

ReferenceEAM / EFEPEAM / CEEP



66


Rueil Mar 21 - 25 €3,920 EAM / EPCN [email protected]

RemindeR of ContRaCtual and fisCal fRameWoRk of exploRation-pRoduCtion

1 d

Concession, Production Sharing Agreement, Service Contracts Analysis of the contract contents’ analysisDistribution of the different items into homogeneous “bundles”: clauses related to the exploration stage, clauses conducting operations, clauses related to economic and tax calculations, to pure legal issues, to financial terms, etc.Important clauses of a contract to prepare a negotiation

otHeR e&p ContRaCts 0.5 dAssociation contracts (Joint Operating Agreement - JOA): operator, operating committee, budget, default, Sole risk, accounting procedures, etc.Joint studies and submission procedures (Joint Study and Bidding Agreement - JSBA): consortium, right to be a partner, best deals, restrictions to participate in another consortium, default, etc.Unitization agreementFarm-in and Farm-out: assignment, obligation of profit, default, arbitration, etc.

RemindeR of eConomiC evaluation of e&p pRojeCts 0.5 dCost of capital and discount rate, value creationEconomic criteria for project evaluation: net present value (NPV), internal rate of return (IRR), payback period, etc.Global profitability analysis, the impact of taxation and inflation on economic indicators

negotiation 0.5 dNegotiation principles: methodology and techniquesPreparation for negotiating: principles, economic reminders, technical reminders (reserves, etc.)

Role play 2.5 dCase study preparation per team (Joint Venture: JV, State)Preparation for the first round of negotiation (contact and consultation)First simulation and debriefing, updating the negotiation planPreparation for the second round of negotiation (confrontation and early conciliation)Second simulation and debriefing, updating the negotiation planPreparation for the third round of negotiation (construction of the agreement and conclusion)Third simulation and debriefingPreparation of the report to the management

puRposeTo have an overview of the EP patrimonial contract negotiation and to develop or deepen a skill in negotiating, using rigorous and innovative approach and proven techniques

audienCePeople who could participate in one or more stages of an EP contract negotiation: negotiators, project managers, explorers, engineers, lawyers, economists, advisors, financiers, managers from the public sector related to the energy sector and representatives of national companies

leaRning objeCtivesUpon completion of the course, participants will be able: - to distinguish the characteristics of the patrimonial contracts (Concession, Production Sharing Agreement) and the contracts between oil companies (farm-in / farm-out, joint-bidding agreement, JOA)

- to describe the different ways to access acreage

- to use a rigorous and innovative approach, and proven techniques, for negotiating contracts

- to make an objective and comprehensive report to its hierarchy and to anticipate objections

Ways & meanssimulation of a negotiation (role play where each stakeholder is played by a different team)

Negotiation of Exploration-Production Contracts e-

068




5 days

ReferenceEAM / EPCNEAM / CNEP


67

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Rueil Oct 03 - 07 €3,640 EAM / ERA [email protected]

eConomiC and ContRaCtual fRameWoRk of e&p 0.5 dVarious phases of Exploration-ProductionTechnical cost, evolution of the economic environmentPetroleum Exploration and Production contractsConcessions, production sharing contracts, service contractsSharing of the economic rent, economic flexibility in petroleum contractsEconomic clauses

investment pRofitability studies 2 dCost of capital and discount rate, value creationEconomic criteria for project evaluation: net present value (NPV), internal rate of return (IRR), payback period, etc.Global profitability analysis, the impact of taxation and inflation on economic indicatorsSpecific method to Exploration and Production: shadow interestCase studies: development of an oil field (under concession and production sharing agreements)Introduction to risk analysis and risk discount rate: sensitivity analysis, Spider and Tornado diagramsImpact of “ringfencing” and the state participation in the decision-making process

Risk analysis of e&p pRojeCts 1.5 dProbability of success, analysis of economic risk in oil explorationEvaluation of exploration projects and decision treesFarm in/Farm outRisked and unrisked economicsCase study: economic study of an oil project including Min, Mode and Max scenariosEvaluation of development projectsEconomic risk associated with a marginal developmentDecision trees and subjective probabilities, decision theory

poRtfolio management 1 dComponents and determinants of asset valuation at various stages of maturity: exploration and appraisal, development, productionReview of methodologies and processes, probabilistic analysisAsset aggregation and portfolio optimization, tools of choice for comparing expected results and budget efficienciesConclusions, what works and what doesn’tContribution of risk analysis and management to successful exploration

puRposeTo provide participants with an in-depth understanding of the tools used in economic analysis and decision making tools within the upstream industry

audienCeEngineers, economists and project managers who need to extend their understanding of the specific methods used to evaluate Exploration-Production projects

leaRning objeCtivesUpon completion of the course, participants will be able: - to carry out investment profitability studies including all aspects of complex fiscal terms, inflation, and financing

- to analyze the economic results and carry out sensitivity analysis

- to incorporate the geological risk and uncertainty in the economic evaluation of Exploration-production projects

- to develop advanced computer models for the study of oil and gas development projects

Ways & meansCase studies simulated on computers:development of an oil field (under concession and production sharing agreements)acceleration of production project with or without eoR (enhanced oil Recovery)impact of “ringfencing” and the state participation in the decision-making processvaluation of a decision to acquire information (seismic or drilling)pricing of an exploration bloc

Economics and Risk Analysis of Upstream Projects e-

070



5 days

ReferenceEAM / ERAEAM / EAR



68

In-house course. Contact: [email protected]

ContRaCtual and fisCal fRameWoRk of exploRation-pRoduCtion 0.5 dOverview of E&P activities, exploration, development and production costsGeneral principles of oil taxationConcession contracts, production sharing contracts and service contractsPrinciples of rent sharing between States and oil companiesCase studies: examples of contracts

oil ContRaCt modeling 2.5 dCost of capital and discount rate, value creationEconomic criteria for project evaluation: net present value (NPV), internal rate of return (IRR), payback period, etc.Global profitability analysis, the impact of taxation and inflation on economic indicatorsSpecific method to Exploration and Production: shadow interestCase studies: development of an oil field (under concession and production sharing agreements)Equity profitability analysisCase studies: LNG project and gas pipeline project with specific financing

Risk analysis of exploRation-pRoduCtion pRojeCts 1 dIntroduction to risk analysis and risk discount rate: sensitivity analysis, Spider and Tornado diagramsProbability of success, methodology of decision tree analysisAnalysis of economic risk in explorationTypical problems with uncertainties:

- Impact of ringfencing and State participation on the exploration decision process - Farm in/Farm out, cost and value of information - Portfolio management for E&P projects

Case studiesDevelopment of an oil field (under concession and production sharing agreements)Acceleration of production project with or without EOR (Enhanced Oil Recovery)LNG plant project with specific financingImpact of “ringfencing” and the state participation in the decision-making processValuation of a decision to acquire information (seismic or drilling)Pricing of an exploration bloc

puRposeTo provide a practical understanding of the economic modeling of oil and gas field development project as well as exploration projectsA number of computer case studies will be treated all along the course to apply the principles that are presented succinctly, which makes this course a very practical one

audienCeManagers and executives involved in Exploration-Production activities who need to acquire a deep understanding of fiscal modeling for project evaluation

leaRning objeCtivesUpon completion of the course, participants will be able: - to explain the critical aspects of taxation and upstream contracts

- to build advanced economic models for the economic evaluation of Exploration-Production projects


- to incorporate the geological risk and uncertainty in the economic evaluation of E&P projects

pReRequisiteParticipants need to be comfortable with the use of Microsoft excel

Ways & meansCase studies simulated on computers

Practice of Exploration-Production Contracts Economic Modelinge-

074



proficiency

4 days

ReferenceEAM / PCMEAM / PMC


69

Gene

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Rueil Apr 26 - 29 €2,740 GIP / IPS [email protected]

finanCial enviRonment 0.5 dValue creation and managementBasic principles of corporate finance and accountingProjects and sources of financingRisks and cost of financing

eConomiC evaluation CRiteRia 0.5 dCorporate finance, capital costs and discount rate of the companyConstruction of project cash flows scheduleEconomic criteria for project evaluation: net present value (NPV), internal rate of return (IRR), payback period, etc.Case studies: development of an oil field under concession

global pRofitability analysis 1 dMethodology for assessing the global profitability of capital investedImpact of taxation and inflation in profitability investment studiesChoosing an investment program with a limited budget, Scarcity cost of capitalCase studies: accelerating production project (EOR) project of upgrading a refinery (Hydrocracking unit)

eConomiC Cost analysis 0.5 dAccounting cost vs economic cost, after-tax cash outflowsTotal discounted cost, annual economic costEconomic depreciation, Unit economic cost, optimal economic lifetimeCases studies: Issues related to purchasing of equipment and definition of an optimal economic lifetime.

equity pRofitability analysis 0.5 dFinancing oil and gas projects, project finance and B.O.T. structuresVarious financing plans and debt repaymentAnalysis of equity cash flows, return on equity capital, financial leverageCase studies: construction of LNG plant and gas pipeline projects with specific financing

Risk analysis 1 dIntroduction to risk analysis and risk discount rate: sensitivity analysis, Spider and Tornado diagramsProbability of success, economic risk analysis in oil explorationEconomic study of an exploration project using Min, Mode and Max scenariosCase studies: Valuation of a decision to acquire information (seismic or drilling) and pricing of an exploration bloc

Case studiesOil field development projectAcceleration of production project with or without EOR (Enhanced Oil Recovery)Isomerization vs alkylation projectFCC project (Fluid Catalytic Cracking)Project of upgrading a refineryHydrocracking unit projectPolypropylene Plant ProjectLNG plant project with specific financingGas pipeline project with specific financingService station modernization projectGas-fired power plant projectValuation of a decision to acquire information (seismic or drilling)Pricing of an exploration bloc

puRposeTo provide a better understanding of the concepts behind the theory of capital budgeting and thus improve the analysis in investment profitability studiesA number of computer case studies will be treated all along the course to apply the principles that are presented succinctly, which makes this course a very practical one

audienCeManagers and staff concerned with decisions affecting medium and long term cash flows, such as investment, disinvestment, acquisitions or leasing, who need to improve their understanding of the theory and practice of investment analysis

leaRning objeCtivesUpon completion of the course, participants will be able: - to develop advanced computer models for the economic evaluation of oil and gas projects

- to incorporate specific financing plan through equity profitability analysis


- to incorporate the risk and uncertainty in the economic evaluation of oil & gas projects

pReRequisiteParticipants need to be comfortable with the use of Microsoft Excel

Ways & meansCase studies simulated on computers

Investment Profitability Studies in the Oil & Gas Industry e-

075



4 days

ReferenceGIP / IPSGIP / ERP



70


Rueil Dec 05 - 09 €3,480 GIP / UCA [email protected]

ContRaCtual aCCounting 1 dJoint Operating Agreements and accounting annexUpstream tax issuesProduction Sharing Contracts (PSC) and accounting proceduresCommon costs and recoverable costsAt cost principle and implementationBases of operator’s cost accounting

speCifiCities of joint ventuRe audit 1.5 dAudit rightsOrganization of the audit: partners, operatorAuditing respect of at cost principleExercises

speCifiCities of state audit 1.5 dAudit rightsOrganization of the State audit, auditors qualificationArticulation between joint-venture audit and State auditKey elements of contract and accounting procedureCase study

ConduCting a ContRaCt audit 1 dAudit preparationDuring the auditConclusion of the auditAudit supervisor roleAudit report and follow-up

puRposeTo provide participants with a detailed understanding of the principles and methods of upstream contracts audit

audienCeFor upstream personnel who will conduct joint-venture audits, or will be audited by partners in a joint-venture, for State auditors in charge of auditing oil & gas contracts, for executives who look for a comprehensive understanding of issues linked to contractual audit

leaRning objeCtivesUpon completion of the course, participants will be able: - to prepare and lead a contractual audit - to identify the risks related to accounting in oil and gas industry

- to put in place an audit structure

Ways & meansCase studies and exercises based on recent industrial cases

Upstream Contracts Audit e-

079




5 days

ReferenceGIP / UCAGIP / ACEP


71

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Rueil Nov 21 - 25 €3,480 GIP / GEPC [email protected]

goveRnanCe of Companies 1.5 dInternal control: where and whenPrinciples of financial securityDefinition of audit, norms and standardsInternal control: definition, modalitiesInternal audit, external auditAudit committee, Certified Public Accountants (CPAs) and external auditors

metHodology of finanCial audit 0.5 dAudit techniquesSystem of proofsAudit processDocumentation

auditoRs qualifiCations 0.5 dAudit standardsAuditors initial and continuing educationBehavior rules

ConduCt of an audit 1 dPreparation of the auditDuring the auditConclusion of the auditSupervisor’s roleAudit report and follow-up

oil & gas speCifiC issues 0.5 dFCPA complianceNew reporting requirements for listed companiesReserves, payments to States, emission certificates

ConClusions: best pRaCtiCes 1 dErrors, creative accounting and aggressive accounting: assessment of the risksInstitutional answers in the USA and in the European UnionCompany’s organizationDeveloping an internal culture of financial safety

puRposeTo present the most recent elements and reflections on companies governance and some issues specific to the oil & gas upstream companies, except contracts audit which are treated in a separate course (upstream contracts audit)

audienCeProfessionals in charge of implementing internal control and procedures, to managers and independent board members wanting to know the best practices, to technical staff called to move to the internal audit of their company

leaRning objeCtivesUpon completion of the course, participants will be able: - to obtain a global understanding of the problems attached to company’s governance

- to know the most recent solutions developed and implemented in internal control of companies

- to analyze the human and financial resources needed to ensure the financial safety of the company

- to lead or supervise the creation of an internal audit

Ways & meansdiscussions on key issues

Governance of an E&P Company e-

080



5 days

ReferenceGIP / GEPCGIP / GCEP



73

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Nos formations en intra-entrepriseOur In-House Training



E-537C Petroleum Engineering Certification Graduate Certificate ...................................................................................... p. 229

E-033 Hunting for Oil: Exploration & Upstream Overview .............................................. p. 230

Upstream Economics

E-060 Upstream Economics & Management ................................................................ p. 231

E-064 Production Sharing & Joint Operating Agreements ............................................. p. 231

E-082 Strategic Management in International Oil & Gas Business ................................. p. 231

Geosciences

f Geophysics ............................................. p. 77 to 78

f Logs......................................................... p. 79 to 81

f Petroleum Basin & Exploration ................ p. 82 to 86

f Reservoir Geology ................................... p. 87 to 94

f Reservoir Geophysics ............................. p. 95 to 96


Geosciences

77

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Rueil Oct 10 - 21 €5,650 GEP / GPHYSICS [email protected]

Welcome - IntroductIon to petroleum geophysIcs 0.25 d

seIsmIc Waves propagatIon and sIgnal processIng 0.75 dSeismic waves, rock velocities and densities, Snell-Descartes lawsReflection coefficients, acoustic impedanceSeismic Reflexion principle - Seismic shot gathersSeismic signal vs Seismic noises – Time domain vs Frequency domainTime and space sampling

seIsmIc acquIsItIon 2.5 dGeodesy – Projections – Topographic surveying2D and 3D seismics, land, marine, sea bottom seismicsSeismic sources (explosive, vibroseis, airguns…)Seismic receivers (geophones, MEMS, Hydrophones…)Streamer, OBC, nodes, shallow water, transition zone…

seIsmIc processIng and ImagIng 2.5 dSeismic processing workflows, post-stack versus pre-stackEnhance signal versus noiseCMP/Bin, static corrections, dynamic corrections, velocity analysisStack, post-stack migrations, pre-stack migrations (PSTM – PSDM)Workshop: 2D Seismic Processing

Borehole seIsmIc 0.75 dTheory and principles, synthetic seismogram and well tieVertical Seismic Profile (VSP), Offset Seismic Profile (OSP), walkawaySeismic While Drilling (SWD)Examples and applications

seIsmIc InterpretatIon: theory and practIce 2 dPrinciples and methodology, seismic interpretation pitfalls2D seismic interpretation practice (on paper)Workshop: 3D Seismic Interpretation

seIsmIc for reservoIr analysIs 1 dSeismic amplitudes analysis, Direct Hydrocarbon Indicators (DHI), seismic attributes analysisHR – HQ – HD – Broadband seismic, 4D SeismicMulti-component seismic, P waves versus S wavesAVO-AVA processing and analysis, seismic inversion

gravImetry, magnetIsm and electro-magnetIc 0.25 dGravimetry theory and principlesMagnetism theory and principlesElectro-Magnetism theory and principles

conclusIon and synthesIs

purposeTo provide a comprehensive and practical understanding of techniques used in petroleum geophysicsTo focus on seismic techniques to investigate structures and petrophysical characteristics of reservoirs

audIenceE&P professionals with no or weak experience in petroleum geophysics

learnIng oBjectIves - To select the appropriate geophysical method to use in various phases of petroleum Exploration-Production

- To gain an insight into the seismic reflection and methodology: acquisition, processing and interpretation

- To gain an insight into borehole seismic, and reservoir geophysics

Ways & meansInteractive presentations, exercises, document analysis and videos2 workshops on pc, using seismic processing and seismic Interpretation softwares

Petroleum Geophysics e-

103

coordinator: Eric Fagot


10 days

ReferenceGEP / GPHYSICSGEP / GEOPHY

geosciences Geophysics


78


Rueil Nov 21 - Dec 02 €6,450 GEP / SISINTERP [email protected]

IntroductIonTeam work on extensional 3D case study

structural InterpretatIon of prospects geometrySurveys presentation of the extensional North Sea 3D seismic Block and workshop objectives

Geology and petroleum system overview - Geophysical contextProspect objectives

Data preparation and QCSeismic data preparation and analysis

- Seismic display and overview choosing parameters for displays, vertical sections or time slices, intersections, random sections, display combinations

- Seismic data analysis --> how to evidence and identify noise and multiples, emphasize areas of frequency or energy modification, areas of good S/N ratio

- Seismic data preparation --> remove noise and acquisition foot prints (filtering)Well-to-seismic tying and horizons identification

- Well logs display (maps and plates) and QC - Well data editing and calibration: Well velocity calculation and layer velocity contrasts identification - Main reservoir layers identification

- Synthetic seismogram calculation (impedance, Reflectivity, wavelet extraction and SS calculation)

Defining trapsWell to seismic tying and seismic key horizons identificationKey horizons Time structural interpretation (interfaces between velocity contrast layers + top and base of reservoir) --> fault and horizon picking, correlation and mappingQC of picking and uncertainties assessment Velocity model building (layer stripping approach) and Time-to-depth conversion

- Selection of layers for depth model building (velocity contrasts) - Seismic Interval velocity VI calculation for selected layers --> VI editing and smoothing, Seismic VI to well VI correction

- Layer stripping velocity model building: Depth migration of seismic data with flooded velocity of layer 1 - Picking of base of layer 1 and velocity model update - Iterative update for next layers --> Final velocity model

- Time to depth final conversion --> depth seismic blocStructural prospect analysis

- Entrapment, reservoir extension - Comparison between time and depth structures - Uncertainties assessment - Recommendations

synthesIs and conclusIonsWrap-up session

purposeTo provide a practical understanding of 3D-seismic structural interpretation and modeling

audIenceE&P professionals with previous experience in seismic interpretation

learnIng oBjectIves - To grasp the workflow of a 3D seismic structural interpretation

- To perform a seismic structural interpretation: seismic data QC, well tying, horizons and faults picking, building structural model and traps identification

- To build a velocity field suitable for time to depth conversion

prerequIsIteIt is highly recommended to have fundamental knowledges in seismic wave propagation, acquisition and processing, as well as in structural geology

Ways & meansInteractive presentations, exercises and document analysis90% of the training duration is devoted to workshop on pc, using seismic Interpretation software

Seismic Interpretation Workshopstructural model and traps analysise-

131


geosciences Geophysics


10 days

ReferenceGEP / SISINTERPGEP / INTERPSIS


79

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Rueil May 30 - Jun 03 €2,860 LOG / LOGBASIC [email protected]

BasIc InterpretatIon concepts 1 dDefinition of main reservoir petrophysical and fluid properties (lithology, porosity, resistivity, saturation)Environment of measurement (borehole, invasion profile)Fundamental equations (Archie formula) for log interpretation in clean formations

revIeW of log measurements and applIcatIons 1.25 dMud logging and coring techniques - Mud logs and use in log interpretationWireline logging operations and wireline logsLogging While Drilling techniques and LWD logsThe log: header, calibrations, parameters, repeat section, main logWireline logging tools: principle and applications, limitation, calibration, log correction and quality controlCaliper, Gamma Ray and GR spectrometry, Spontaneous PotentialResistivity (induction, laterolog) and Micro-resistivity measurements Porosity & lithology measurements: nuclear (Litho-Density, Neutron) and acoustic logging (Sonic, Dipole sonic) Case studies n°1 & 2

“quIcklook” log InterpretatIon 2 dQualitative log interpretation

Log responses in most common geological formationsIdentification of reservoirs and fluid contacts (overlay technique: water and oil based mud cases)Hydrocarbon effect on density & neutron logsDetermination of water resistivity Rw (SP, Ratio, Rwa) and formation resistivity (Rt, Rxo)Determination of lithology, porosity, water and hydrocarbon saturationsShale effects on logs: introduction to shaly and complex lithology formations

Cross-plot techniques with density, neutron, sonic and other logs (Pe, K, Th, etc.)Case studies n°1, 2 & 3 (water & oil based muds, clastics & carbonates)

pressure measurements and fluId samplIng 0.5 dPressure measurements and fluid sampling: operation and applicationsDetermination of fluid contacts, fluid gradients and fluid densities

nmr, dIpmeter and Borehole ImagIng technIques 0.25 dNuclear Magnetic Resonance: principle and applicationsDipmeter and Borehole imaging tools: principle and applications

purposeTo provide an overview of main logging tools, and an insight into fundamentals of well log interpretation for reservoir identification and characterization

audIenceGeoscientists and other E&P professionals interested in log acquisition and interpretation

learnIng oBjectIves - To acquire the concepts of log interpretation (Archie formula, invasion)

- To review mud logging, coring and wireline logging techniques

- To perform a quick-look interpretation to characterize reservoirs: fluid contacts, lithology, porosity, saturation

Ways & meansInteractive presentations and exercises to build a lithology and fluid column

Well Logging & Qualitative Log Interpretation e-

160

coordinator: Jacques Delalex


5 days

ReferenceLOG / LOGBASICLOG / DDBASES

geosciences Logs


80


Rueil Jun 06 - 10 €3,070 LOG / LOGADV [email protected]

preparatIon for quantItatIve log InterpretatIon 1 dPetrophysical concepts and relationshipsQuality control of the dataDetermination of geological formations and reservoirs - ZonationsEnvironmental corrections of logs - Determination of Rt, Rxo, DiCase studies n°1 & 2 (water and oil based muds)

InterpretatIon of clean formatIons 1 dDetermination of fluid contacts (WOC, GOC)Determination of matrix and fluid parameters, Rw (SP, Ratio, Rwa)Determination of lithology, porosity, fluid type, water and hydrocarbon saturationsCross plots techniques: N-D-S, Pe-RHOB, K-Th, etc.Case studies n°1 & 2

quantItatIve log InterpretatIon of shaly formatIons (deterministic approach)

2.5 d

Influence of shale on logging tool response - Introduction to complex lithology - D-N crossplotDetermination of shale parameters, shale content Vsh and effective porosityHydrocarbon effects on logs and hydrocarbon correctionDetermination of water and hydrocarbon saturations (various equations)Comparison of porosity and permeability results to core data (PHI-K relationship and SCAL)Determination of net sand, net reservoir and net pay thicknesses and associated characteristics (Vsh, H, Phie, So)Case studies n°1 & 2: integration & interpretation of pressure tests and NMR data, if availableCross-section between wells and comparison of interpretation results

other InterpretatIon methods 0.5 dIntroduction to the multi-mineral model and general optimization methodCase study n°3

purposeGeoscientists and technicians with some experience in qualitative log interpretation

audIenceGeoscientists and technicians having an experience in qualitative log interpretation and willing to perform quantitative reservoir evaluation. Participants should know the principles and applications of common wireline logging tools and must be used to perform a quicklook (lithology, porosity, Rw, Sw)

learnIng oBjectIves - To perform sound quality-control and environmental correction of logs, determine Rt, Rxo, Di

- To evaluate shale content of reservoirs, apply shale and hydrocarbon corrections

- To perform quantitative log interpretation in case of water and oil based mud, determine porosity, permeability, net sand, net reservoir and net pay characteristics

prerequIsIteCourse requires a good grasp of principles and applications of common wireline logging tools

Ways & meanshand computations completed by sessions with a petrophysical software

Quantitative Well Log Interpretation e-

170

coordinator: Jacques Delalex

geosciences Logs


5 days

ReferenceLOG / LOGADVLOG / DDQUANT


81

Geos

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32 hours over 8 Weeks

Upon request. Contact: [email protected]

Well log acquisition and basic interpretation of clean formations

BasIc InterpretatIon concepts 8 hSeals and reservoirsDefinition of main reservoir petrophysical and fluid properties (lithology, porosity, resistivity, saturation)Fundamental equations for log interpretation in clean formationsEnvironment of measurement (drilling, borehole, invasion process)

measurements and applIcatIons 12 hMud logging and coring operationsWireline logging operationsThe log: header, calibrations, parameters, repeat section, main logLogging tool principle, limitation, application, quality controlCaliper, gamma ray and GR spectrometry, spontaneous potentialResistivity (induction, laterolog) and microresistivity measurementsPorosity and lithology measurements: nuclear (litho-density, neutron) and acoustic logging

BasIc log InterpretatIon 12 hWireline log interpretation in clean formations:

Identification of shales, common geological formations and reservoirsCross-plot technique with density and neutronIdentification of fluid contactsHydrocarbon effects on logsDetermination of lithology and porosityDetermination of Rw (SP, Ratio, Rwa)Determination of water and hydrocarbon saturationsCase of oil based mudEstimation of h.Phi.So

purposeTo provide a practical understanding of basic concepts and methodology of well log acquisition and interpretation for subsurface or reservoir studies

audIenceGeologists, geophysicists, reservoir engineers interested in well log interpretation

learnIng oBjectIves - To understand wireline and mud log acquisition techniques

- To grasp fundamental physics of log measurements and perform log quality control

- To perform basic log interpretation to identify and characterize reservoirs

Ways & meansBefore training starts, 2 hours are dedicated to introduce the training agenda, methods and toolsthe exact needs and expectations of each participant are also assessed and discussed (mcq and phone interview with the tutor)

noteTotal duration of the training is 32 hours, spread over an 8-week period

Well Logging & Basic Log Interpretatione-learning with remote personal coachinge-

190

coordinator: Jacques Delalex Catherine Ulrich (Blended Learning)


Reference LOG / BLWLI

geosciences Logs


82


Rueil / 2 field trips Sep 12 - 30 €11,150 GEO / PETEXMOD1 [email protected]

IntroductIon to petroleum system 5 dField trip to south of FranceIntroduction to petroleum exploration

Introduction to plate tectonics and sedimentary basins Basin infilling: a sedimentary rocks reviewPetroleum systems: source, reservoir & seal rocksMigration & entrapment processesField analogs with known basinsLogs and seismic applications

sedImentology and sequence stratIgraphy (cf. e-212) 5 dSedimentology overview: facies analysis and depositional environments

Main depositional environmentsClastic rocks (composition, classification, main environments and features)Carbonate rocks (composition, classification, main environments and features)

Seismic stratigraphy and Sequence stratigraphy analysis (concepts & case studies)Introduction to modern stratigraphy (depositional sequences, system tracks)Sequence stratigraphy at basin scale: Impact of sea level variations - Facies distributionHigh-resolution sequence stratigraphy at reservoir scale: Genetic vs. stratigraphic sequences - Sequence analysis of both continental and marine deposits (shallow & deep) - Cross correlation between wells

Stratigraphic modeling of a sedimentary basin

geologIcal InterpretatIon of Well data 5 dFundamentals of log interpretation and concepts

Review of logging tools, measurements and applicationsLithological interpretation (Quick Look, X-plots) - Fluids

Structural analysis of well dataIntroduction to borehole imaging and dipmeter data analysis

Sedimentological and stratigraphic analysis of well dataBasin scale (depositional sequences, well correlations, petroleum systems identification)Reservoir scale (facies & stacking pattern analysis, reservoir geometry and quality)

Field trip to Burgundy (3 days)This field trip will present stratigraphic sequences and carbonate faciesThis outcrop will be an excellent analogue to the data used during the carbonate workshop, for facies correlation at basin scale and reservoir scale lateral variationLogs facies and sequences will be directly observed on outcrops

purposeTo provide a comprehensive, multidisciplinary knowledge of exploration concepts and tools, and develop a transverse competence in integrated seismic and well log interpretation

audIenceGeologists, geophysicists, young professionals interested in an intensive training on petroleum exploration techniques

learnIng oBjectIves - To understand workflows used in integrated multidisciplinary teams for exploration

- To analyze and interpret the structural and sedimentary history of a basin, in order to assess potential for exploration

- To use and carry out sequence stratigraphy analysis both with seismic and well log data analyses

Ways & meanshands-on sessions on real case studiestwo field trips

Exploration Concepts & Tools e-

204

coordinator: Arnaud Torres

geosciences Petroleum Basin & Exploration


15 days

Reference GEO / PETEXMOD1


83

Geos

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Rueil Oct 03 - 21 €9,410 GEO / PETEXMOD2 [email protected]

seIsmIc InterpretatIon Workshop 5 dFundamentals on seismic reflection: principles, acquisition, processing, interpretationExploration interpretation workshop (extensional case study)

Geological and geophysical frameworkStructural picking on seismic amplitude block : horizons, unconformities, faultsPicking on seismic attribute blocksAutomatic picking and surface modelingStratigraphic and sedimentological analysisDirect hydrocarbon indicators analysisProspect analysis

Synthesis and conclusionsWrap-up session

petroleum organIc geochemIstry and BasIn modelIng 5 dGeochemistry

Applications of geochemical analysis to basin evaluation - Hydrocarbon formation and occurrences (composition and origin) - Geochemical and optical analysis of kerogens (RockEval analysis) - Kinetics of hydrocarbons formation (modeling parameters) - Reservoir geochemistry

Basin modelingData synthesis and modeling parameter selection

- Parameter sensitiveness and related uncertainty - Geometry and links with sedimentary basins geodynamics - Basin thermal history - Pressure and overpressure modeling - Maturation and expulsion - Migration of hydrocarbons and uncertainty analysis - Applications on dedicated software

evaluatIon and prospect generatIon (cf. e-216) 5 dPlay assessment

Basin potential assessmentRegional context - Petroleum trilogy, EntrapmentRelative timing of events

Prospect analysis and generationSource rock potentialCross correlation & integration with seismic dataStructural history & Timing of HC expulsion and MigrationOHIP calculation parameters - Estimation of uncertaintiesUses of prospect evaluation - Transition to dynamics and economics

Risk analysisDefinition of risks and uncertaintiesProbability of success - Consequences for economics

Basics in economy of explorationDefinitions and notionsEconomic studies during exploration stage - Probability of success

Exploration prospect conversion in potential reservoirWell potential productivity assessmentPotential Field Development PlanAnticipated production profiles

Summary, general conclusion and wrap-up

purposeTo develop transverse competence in integrated basin assessment and prospect definition

audIenceGeologists, geophysicists, young professionals interested in an intensive training on basin assessment

learnIng oBjectIves - To understand workflows used in integrated multidisciplinary teams for exploration

- To efficiently integrate concepts and techniques in the process of assessing the potential of a basin

- To determine exploration targets using basin modeling techniques, and to define prospects assessing related risks and uncertainties

Ways & meanshands-on sessions on real case studiesInteractive lectures and workshops

noteKindly refer to the first part which provides a very thorough training on “Exploration Concepts & Tools” (E-204)

Basin Assessment & Prospect Definition e-

205



15 days

Reference GEO / PETEXMOD2



84


Rueil Sep 19 - 23 €3,020 GEO / STRATI [email protected]

stratIgraphy - sedImentology - maIn deposItIonal envIronments 1 dReview of basic concepts in stratigraphy and sedimentologyAlluvial, fluvial, deltaic, shallow & deep marine facies modelsFacies classification and related petrophysical characteristics

seIsmIc sequence stratIgraphy at BasIn scale 2.5 dHistorical concept of depositional sequences and system tractsInterpretation methodology both for clastics and carbonate faciesPrediction of potential source rocks & reservoirs locationApplication to seismic interpretationState-of-art overview of sequence stratigraphy

hIgh-resolutIon sequence stratIgraphy at reservoIr scale 1 dIdentification of genetic sequencesCorrelation by analysis of stacking patternsInterpretation: exercises based on outcrop analogues and field studies

overvIeW of stratIgraphIc modelIng 0.5 dInteractive demo on Dionisos™ modeling software

purposeTo provide a practical, comprehensive understanding of new concepts and methods applied in stratigraphy, sedimentology and sequence stratigraphy analysis

audIenceGeologists, geophysicisists working in multidisciplinary-team dedicated to exploration

learnIng oBjectIves - To review fundamentals of main depositional environments

- To understand and apply sequence stratigraphy concepts and methods

- To identify sequences on seismic lines, and to interpret cores and log data with regard to stratigraphy

prerequIsIteCourse requires a good grasp of fundamentals in stratigraphy and in sedimentology, with a first experience in seismic interpretation

Ways & meanslectures, exercises, hands-on sessions on real case studies

Sedimentology & Sequence Stratigraphy e-

212

coordinator: Arnaud Torres Claude Bacchiana (former Exxon Mobil)



5 days

ReferenceGEO / STRATIGEO / STRATSEQ


85

Geos

cien

ces


Rueil Oct 17 - 21 €3,160 GEO / PLAY [email protected]

exploratIon prospect conversIon In potentIal reservoIr 1 dWell potential productivity assessmentPotential Field Development PlanAnticipated production profiles

play assessment 1 dData collectingBasin potential assessmentRegional context - Petroleum trilogyTrappingRelative timings of events

prospect analysIs & generatIon 2 dSource rock estimationSeismic and well data interpretationCross correlation & integration with seismic dataStructural history & Timing of HC expulsion and MigrationExploration maturity status significanceOHIP calculation parameters - Evaluation of uncertaintiesAssessment consistencyOHIP determinist and stochastic assessment “Prospect sheet” generationUses of the prospect evaluationTransition to dynamics and economics

rIsk analysIs 1 dDefinition of risk and uncertaintiesGeological risks (reservoir, trap, HC conservation)Fluid content risks (source rock, maturation, migration, timings)Probability of success - Consequences for economics

purposeTo provide a practical, comprehensive understanding of that part of the E&P value chain that deals with the technical evaluation of an exploration asset

audIenceGeoscientists, technical or non-technical managers interested in prospect assessment

learnIng oBjectIves - To understand prospect definition workflow and to estimate OHIP estimation parameters

- To understand risks and uncertainties related to OHIP calculation methods, and to use related results accordingly

- To review fundamental concepts of portfolio management and learn how to define adapted exploration strategies

Ways & meanslectures, exercises, hands-on sessions on real case studiesdiscussion, teamwork experience feedback

Evaluation & Prospect Generation e-

216



5 days

ReferenceGEO / PLAYGEO / PROSP



86


Rueil May 30 - Jun 01 €2,030 BAS / UNCONV [email protected]

petroleum system concept (a reminder) 0.5 d

unconventIonal resources (part I) 1 dOil shalesHeavy oils, extra heavy oils, tar sandsGeological biogenic gases (ex-early diagenesis, ex-oil biodegradation)Gas hydrates“Clean Coal” (coal bed methane, coal mine methane, underground coal gasification)

unconventIonal resources (part II) 1 dShale plays (shale gas, shale oil)Tight gas in basin centered gas system

unconventIonal resources from an extended petroleum perspectIve 0.5 dBurial & thermal history - Source rock maturationKinetic parameter determination, kerogen expulsion and crackingMigration of hydrocarbons & pressure regime

purposeTo provide, through a “petroleum system” approach, a general introduction to various non-conventional hydrocarbons, focused solely on a consistent geological rationale to the different potentially producing objectives

audIenceGeologists, geophysicists, engineers, managers, E&P professionals in charge of basin exploration and prospect evaluationE&P professionals involved in production of unconventional hydrocarbons

learnIng oBjectIves - To understand the geological rationale of unconventional resources as an extension of the petroleum system concept

- To acquire a general knowledge of all unconventional resources

- To understand what is at stake in this recent domain and future potential impacts

Ways & meansexamples from all over the world commented by an expertInteractive discussions

noteKindly refer also to complementary courses which might be of interest: “Unconventional Resources - Shale Gas Fundamentals” (E-395), “Unconventional Reservoirs Completion and Stimulation” (E-468) and “Unconventional Resources Production Overview” (E-040)

Hydrocarbons in Unconventional Settings (the Geology Perspective)e-

221

coordinator: Arnaud Torres Dr Alain-Yves Huc (former IFPEN)



3 days

Reference BAS / UNCONV


87

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Rueil / 3 field trips Sep 12 - Nov 04 €24,800 RES / RCM [email protected]

reservoIr characterIzatIon studIes: overvIeW 19 dSequence of courses/exercises which review principles and stages leading to the construction of a geological model

Geophysics: interpretation of horizons, fault network and seismic attributesPetrophysics: logs interpretation (porosity, saturation and lithology) and rock-typingStratigraphic sequencesFractured reservoirsHeterogeneities and fluid-flowGeostatistics

Dynamics data (Well test interpretation, up-scaling & history matching)Specific emphasis will be given to the integration of data from different sources and different scales (e.g. geology, seismic, well logs, cores, PVT, production history) in order to integrate at the end reservoir heterogeneities on reservoir models

reservoIr modelIng: team Work & case studIes 10 dTeam-work on two case-studiesIntegration of data analysis, structural modeling, rock-typing, geostatisticsStatic models construction, sedimentary facies models, petrophysical models, using both deterministic and stochastic methods; integration of seismic and dynamic constraintsIdentification of key heterogeneities and quantification of uncertaintiesUp-scaling of petrophysical models for fluid flow modeling and reservoir simulationTwo field cases will be used all along the program to highlight stakes of geological reservoir modeling

Clastic environment: A geological model on clastic environment will be built using dedicated software (Petrel™), after field trip on clastic environment.Carbonate environment: A geological model on carbonate environment will be built using dedicated software (Petrel™), after field trip on carbonate environment

fIeld trIps 9 dThree field trips with outcrop observations related to reservoir unit in sub-surface conditions (analogs)

Clastic environment: The first field trip will be carried out in the South of France, in the Lodève basin. Participants will carry out exercises using data from cores and outcrops. The topic “reservoir in petroleum basin context” will be also investigated. After the fieldtrip, a geological model on clastic environment will be built on computerCarbonate environment: During the second field trip, in the Burgundy region, stratigraphic sequence and carbonate facies changes will be presented. Participants will have an opportunity to look at a carbonate reservoir which is an analog of the reservoir of a producing field located in the Paris basin. This field will be used as a “field case study” during the geomodeling exercise on workstationDynamic/static relationship: The third field trip will be conducted on a site equipped with aquifer drilling (Poitiers region). Participants will observe dynamic interferences, with the aim to study the dynamic behavior of a reservoir

purposeTo develop advanced skills in reservoir characterization and modeling through an intensive, practical learning experience, focused on building the bridge between geological characterization and dynamic behavior, and delivered by means of hands-on training with teamwork and fieldtrips

audIenceGeologists involved in reservoir characterization and modeling studies

learnIng oBjectIves - To build a reliable geological model in which all heterogeneities that can affect production are integrated

- To model clastic, carbonate and fractured reservoirs

Ways & meansan important part of this intensive training is dedicated to teamwork, case studies, fieldtrips, and hands-on workshopsuse of dedicated software tools

noteA specific brochure for this program is available on request Course fees include all accommodation and transportation during field trips (including travel between Paris and field-trip locations)

RCM Reservoir Characterization & Modelinge-

250

coordinator: Maria Aguilera


38 days

Reference RES / RCM

geosciences Reservoir Geology


88


Rueil / field trip Sep 12 - Oct 07 €13,300 RES / RESGEOL [email protected]

BasIc prIncIples and reservoIr characterIzatIon WorkfloW 1 dIntroduction and objectives

geophysIcs and reservoIr geophysIcs 3 dStructural seismic interpretationPrinciples of seismic attributes interpretationReservoir geophysicsHands-on workshop on seismic interpretation with dedicated software

petrophysIcs 2 dCore data, porosity, permeability, saturation, wettabilityCapillary pressureData consistencyLaboratory procedures and measurements

Well loggIng and log InterpretatIon 3 dBasic log interpretation conceptsPrinciple and limitation of logging toolsQualitative log interpretation (lithology, Vsh, porosity, saturation)Petrophysical quality control, uncertainties, cut offsPressure measurement applications

reservoIr characterIzatIon 4 dStatic and dynamic approachesReservoir architectureStratigraphy and sequence stratigraphyRock-typingGeostatisticsHeterogeneities

fIeld trIp on clastIc reservoIr 4 dField trip in the South of France, in the Lodève basinSequence stratigraphy concepts (courses/exercises)Petroleum systemClastic environmentTectonics and sedimentary heterogeneitiesAfter the fieldtrip, a geological model on clastic environment will be built using dedicated software (Petrel™)

geologIcal modelIng and calculatIon o.h.I.p 3 dGeomodeling with dedicated softwareOHIP estimation. Uncertainties assessment

purposeTo provide a very comprehensive understanding of reservoir characterization and geological model building-process, linking all along geological characterization and dynamic behavior

audIenceGeophysicists, geologists and reservoir engineers involved in integrated reservoir studies

learnIng oBjectIves - To assess and use required data for reservoir characterization

- To understand objectives of integrated reservoir studies

- To grasp various constraints of the reservoir model

Ways & meansnumerous exercises, hands-on activities, practical case studiesone week sedimentology on outcropsWorkshop on Ifptraining case study using petrel™ software

noteCourse fees include round trip (by train) between Paris and Lodève, as well as accommodation and transportation in and around Lodève

rcm / reservoir engineering - module 1

Reservoir Geologye-25

2




20 days

Reference RES / RESGEOL


89

Geos

cien

ces


Rueil / 2 field trips Oct 10 - Nov 04 €13,450

RES /

RESGEOLADV

[email protected]

geostatIstIcs 2.5 dKriging and variations

Workshop – reservoIr characterIzatIon and modelIng 5 dElectro-facies, rock-typingConceptual models: sedimentological, stratigraphic, diagenetic and fractureWell correlations - Facies modelingPetrophysical characteristics and modelingHydrocarbon volume calculationDuring this workshop, dedicated software will be used

reservoIr studIes on outcrops - fIeld trIp 5 dTwo field trips

Carbonate platform – Sedimentology, stratigraphy, diagenesis and fractures. This field is located in the Burgundy region. Participants will have an opportunity to look at a carbonate reservoir as an analog of the reservoir of a producing field located in the Paris basin. This field will be used as a “field case study” during the geomodeling exercise on workstationDynamic/static relationship: this field trip will be conducted on a site equipped with aquifer drilling (Poitiers region). Participants will to observe dynamic interferences, with the aim to study the dynamic behavior of a reservoir

fractured reservoIr 2 dWorkflow for fractured reservoirs characterization and modelingFractured reservoir modeling using dedicated software

dynamIcs 2 dIntroduction to simulationHistory matchingWell tests

uncertaIntIes 1 dQuantify uncertainties using dedicated software

conclusIons 0.5 dWrap-up session on RCM Training

purposeTo provide an intensive, practical learning experience in advanced reservoir geology and geological modeling


learnIng oBjectIves - To understand all stages of the characterization of a field in preparation for modeling

- To learn about electro-facies analysis techniques

- To assess impact of reservoir complexity on dynamic behavior and on modeling

prerequIsIteRCM Module 1 or several years of experience as geologist in the petroleum industry

Ways & meansfield trips to dijon and poitierspractical case studiesuse of dedicated softwares

noteCourse fees include travel (by train) between Paris, Dijon, and Poitiers, as well as accommodation and transportation in and around Dijon, and Poitiers

rcm - module 2

Advanced Reservoir Geologye-25

5


Can be organized for a single companyadvanced

18 days

Reference RES / RESGEOLADV





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Integrated Reservoir methods Ready-to-use skills

Coping with reservoir characterization purpose

Building a set of practical competencies

Understanding acquisition & manipulation of dynamic data types

Achieving more reliable reservoir characterization via integrated contributions of all specialties

With the ADVANCED CERTIFICATEin Integrated Reservoirwith On-Site Workshop

91

Geos

cien

ces


Poitiers field trip May 30 - Jun 03 €4,190 RES / INTEGRATION [email protected]

Take a walk on a reservoir and embrace all disciplines!

data and toolsOn-site field operation on one reservoir cell analog (250 m x 250 m)Real-time interference well testFlow measurements slug testLog acquisition40 completed well (logged with conventional logs and HR optical borehole imaging)4 cored wells (from top to TD) and core handling facilities3D HD seismic blockOutcrop analogData base access on tablet

program 5 dWell log analysis and well-to-well correlationsDynamic data acquisition and analysis:

- Permeability determination (Kh) and mapping - Identification of best producing intervals

3D seismic analysisBHI analysisCore description and analysisIdentification of key heterogeneities in reservoirGlobal field synthesis (both dynamic and static)Outcrop analysis and comparison with field data

InformatIonParticipants are divided into business unit teams, with a virtual budget for reservoir characterization. Each team:

- Invests to acquire static or dynamic data - Analyzes the data - Proposes the best conceptual model for final assessment!

purposeAn effective, applied on-site hands-on practice on a carbonate water reservoir analog, with the objective to improve both participants’ knowledge and know-how on reservoir characterization methods and tools

audIenceGeophysicists, geologists, reservoir engineers and technicians involved in integrated reservoir studies (3-year experience required)

learnIng oBjectIvesAchieve more reliable reservoir characterization via an integrated contribution from all specialties: - To acquire and manipulate all dynamic reservoir data types

- To share and integrate specific expertise from all reservoir metiers

- To build up a set of practical competences to cope with reservoir characterization purposes

Ways & meanstraining and coaching by several experienced professionalson-site hands-on practicesdata acquisition and interpretationInteractive training pedagogygroup synergy / team buildingthis course can be delivered in french, with documentation in english

noteThe course is delivered in the city of Poitiers (1:30 train trip from Paris) Meeting point: Poitiers railway station Fees only include accommodation and transportation during training session

Integrated Reservoir On-Site Workshop (Poitiers Field Lab) Certificationreservoir geology - 3d seismic - In-situ reservoir dynamicse-

258c


Can be organized for a single companyadvanced certificate

5 days

Reference RES / INTEGRATION



An IFP Training / Université de Poitiers / CNRScollaborative partnership



Key benefits:







92


Port-Gentil Mar 07 - 11 €3,520 RES / GEOMODEL [email protected]

Rueil Jun 06 - 10 €3,220 RES / GEOMODEL [email protected]

reservoIr characterIzatIon WorkfloW BasIc prIncIples 0.5 dIntroduction and objectivesCase study: field presentation

project organIzatIon 0.5 dDefine projectData QC and synthetic tableData managementBuild database

structural modelIng 1.5 dStructural contextWell correlation and stratigraphic data analysisConstraining static model with dynamic dataSurface generationHorizon picking and seismic fault networkLayering Structural modelingMapping reservoir structuresChecking results

rock-typIng and modelIng 1.5 dLog upscaling and comparison with rock-typingFacies modelingPetrophysical modelingMapping gross thickness, NTG maps and reservoir properties for QC results

volume computatIon and uncertaIntIes 1 dCalculate a volumetric accumulation for a selection of parametersSensitivity of different parametersDetermine key parameters for risk assessment

purposeTo provide the knowledge and develop the skills needed in geological modeling for integrated reservoir studiesNot to be able to use only a software!


learnIng oBjectIves - To be able to translate results of reservoir characterization phase as a model

- To use a geomodeling software as a tool to model the concept using data themselves

- To cross-check modeling results

Ways & meansWorkshop on Ifp training case study using petrel™ softwareInteractive workshop, group discussions, team work

Geological Modeling Workshop for Integrated Reservoir Studiesthe objective is the field – the software is a toole-

261




5 days

Reference RES / GEOMODEL


93

Geos

cien

ces


Rueil Jun 13 - 17 €3,220 RES / NATFRAC [email protected]

fractured reservoIrs: IdentIfIcatIon and specIfIcIty 1 dObjectives for dynamic modelWorkflow for characterization using both static and dynamic dataDefinition and scales of natural fracturesParameters for fracture network descriptionStatic characterization at borehole scale (logs, cores, borehole images)Hands-on: exercises & case studies

fractured reservoIrs statIc characterIzatIon 1 dFracture analysis from borehole scale dataFracture analysis from interwell scale data (outcrop, geomechanical model, seismic data)Fault and subseismic fault networksData synthesis on a summary documentConceptual modelsHands-on: exercises & case studies

fracture modelIng 0.5 dDiscrete fracture network building (DFN - 3D Model) integrating both large-scale (fault-related fractures and fracture swarms) and small-scale fractures (joints)Principles to determine fracture length and hydraulic conductivity (dynamic calibration) from dynamic data (flowmeters and well test simulation)Hands-on: exercises & case studies

fractured reservoIr dynamIc characterIzatIon 1 dIntroduction

Main types of fractured reservoirsInfluence of fractures on field behaviorExamples of field recovery

Dynamic parameters Fracture characterization using dynamic dataImpact of fractures on flow behaviorFracture network hydraulic characterizationDFN model calibrationFlow mechanisms in a fractured reservoirRecovery mechanisms and simulationHands-on: exercises & case studies

fractured reservoIr dynamIc sImulatIon 1.5 dSpecificity of both large- and small-scale fracture for modelingWhich model for which use?Dual porosity: the Warren & Root approachDifferent kinds of simulation models for fractured reservoirsDevelopment of fractured reservoirs fieldsHands-on: exercises & case studiesConclusions / Summary / Wrap-up

purposeTo provide a practical understanding of methods used to characterize integrated static and dynamic data from naturally fractured fields and build fracture modelsDeveloped over the past 20 years in some 100 studies, these methods have been applied by IFP’s experts for different types of reservoir around the world

audIenceReservoir engineers and geoscientists involved in development or management of naturally fractured reservoirs

learnIng oBjectIves - To characterize an oil field fractured network using various data sources (cores, logs, seismic, drilling, well tests)

- To build and calibrate a Discrete Fracture Network through flowmeter and transient well test simulations

- To understand the way to simulate a full field model

Ways & meanshands-on sessions, case studies, videostraining content and delivery entrusted to one reservoir engineer and one reservoir geologist; two experts from the Ifp group with an extensive experience in fractured reservoir characterization and modeling

Naturally-Fractured Reservoirsfrom analysis and modeling to reservoir simulation and field developmente-

264



5 days

Reference RES / NATFRAC



94


Rueil Nov 14 - 16 €1,845 RES / GEOSTAT [email protected]

fundamentals 1 dBasic statistics for data analysisIntroduction to geostatisticsQuantification of spatial variability: variogram

krIgIng and varIatIons 1 dIntroduction to krigingData integration: cokriging, collocated cokriging, external drift krigingApplications to time-to-depth conversion and property mappingDealing with non-stationary cases (trends)

geostatIstIcal sImulatIons 1 dWhy simulations: limitations of krigingSimulation methods for continuous parameters (as Phi and K)Simulation methods for categorical variables (lithology)Applications

purposeTo provide a comprehensive and practical knowledge of reservoir characterization and modeling, focusing on geostatistical methods and tools

audIenceReservoir engineers, geologists, geophysicists, professionals involved in data interpretation and management

learnIng oBjectIves - To use basic geostatistical tools and methods (variogram, kriging, cokriging, external drift)

- To use vertical proportion curves (e.g. layering, well gridding, statistics, vertical proportion curves building)

- To constrain geostatistical distribution using additional information (e.g. geology, seismic and dynamic data)

Ways & meanspractical examples, hands-on, lab exercises carried out with dedicated software

Petroleum Geostatistics e-

266




3 days

Reference RES / GEOSTAT


95

Geos

cien

ces


Rueil Jun 06 - 10 €3,370 GEP / AVOINV [email protected]

IntroductIon and oBjectIvesIntroduction: AVO and inversion workflows and objectivesWave propagation theory and conceptsRock-physics and petro-elastic modeling: exercisesWell data conditioning for seismic characterizationSeismic data pre-requisites: preconditioning

Well-to-seIsmIc calIBratIonObjectives and workflowsPreparing well data for inversionSignal and noise estimationWavelet extraction from seismic and log data

avo InterpretatIonAVO attributes and AVO behaviorAVO benefits and limitationsFrom AVO to prestack seismic inversion

seIsmIc InversIon (post-stack)Inversion workflows: description of inversion algorithms, parameters and benefitsModel-based inversion: definition and objectiveRole of initial or low frequency modelInversion exercisesInversion parameter sensitivity testingDeliverables of seismic inversion: QCExamples: clastics and carbonates

reservoIr characterIzatIonInterpretation of inversionRefining seismic interpretation: noise, signal, phase and resolution issuesQualitative seismic facies analysis: supervised vs. non-supervised analysisQuantitative reservoir property prediction: lithologies and fluidsUncertainty analysisExtended inversion workflows for fractured reservoir characterizationOther characterization processes: 4D inversion, stochastic inversion, multicomponent inversion

purposeTo be able to detect and quantify lithologies, porosities and fluid content using seismic amplitudes and well information

audIenceSenior geoscientists

learnIng oBjectIvesAfter this training, the specialist will have the basics to: - Perform a feasibility study and choose the most appropriate workflow

- Run and supervise a seismic characterization study and generate meaningful volumes

- Prepare properly data for the study

prerequIsIteCourse requires a good grasp of fundamentals in the following fields: wave propagation, seismic acquisition and processing

Ways & meansInteractive presentations, exercises, document analysisWorkshop on case studies using dedicated modeling and inversion softwares

Lithology & Fluid Detection: Tools for Seismic Reservoir Characterizatione-

330



5 days

Reference GEP / AVOINV

geosciences Reservoir Geophysics


96



seIsmIc reservoIr characterIzatIon 3 hWhat is seismic reservoir characterization, how is it integrated?Methods used and scale issues

rock physIcs 2.5 hIntroduction to Rock PhysicsRock physics theory – Basic conceptsTheoretical Rock Physics – Influence of key parametersPractical Rock Physics – Main influent factorsPractical Rock Physics – Rock Physics Model: place in seismic reservoir characterization

physIcs and avo prIncIples 5 hWhy AVO?Wave propagationSeismic data prerequisites

calIBratIon 2 hWell to seismic calibration: objectives & workflowsReview of recommended wavelet extraction techniquesReal case example: multi-well calibrationWavelet deconvolution

avo In practIce 3 hIntroduction to AVO interpretationAVO seismofaciesAVO classAVO facies volume

InversIon 4 hIntroduction to Inversion of seismic data – Required input data – Inversion techniques and their limitsPost-stack and pre-stack inversionValidating and interpreting inversion results

reservoIr propertIes predIctIon 4.5 hAttribute classificationTechniques of predictionValidation of characterization results

purposeTo provide a comprehensive and practical understanding of how seismic data is used to characterize, model, and classify reservoirs

audIenceGeologists, geophysicists and reservoir engineers with basic knowledge in geophysics

learnIng oBjectIves - To understand the relationship between physical properties of rocks and geophysics

- To master the main steps of seismic reservoir characterization workflow, to perform QC and to assess data to be interpreted and related uncertainties

- To interpret major results of petro-elastic analysis and modeling, AVO-AVA and Inversion studies and to understand methodological issues in seismic inversion, attributes classification and reservoir properties prediction

Ways & meansBefore training starts, 2 hours are dedicated to introduce the training agenda, methods and toolsthe exact needs and expectations of each participant are also assessed and discussed (mcq and phone interview with the tutor)

noteTotal duration of the training is 24 hours, spread over a 6-week period

SRC Seismic Reservoir Characterizatione-learning with remote personal coachinge-

340

coordinator: Eric Fagot Catherine Ulrich (Blended Learning)

geosciences Reservoir Geophysics


Reference GEP / BLSRC


97

Geos

cien

ces


Geosciences

Geophysics

E-100 Seismic Reflection Fundamentals ....................................................................... p. 232

E-101 Signal Processing ............................................................................................... p. 232

E-110 Borehole Seismic ............................................................................................... p. 232

Logs

E-150 Wellsite Geology (Geological Logging) ................................................................ p. 233

E-180 Cased-Hole & Production Logging ..................................................................... p. 233

E-181 Production Log Interpretation ............................................................................. p. 233

Petroleum Basin & Exploration

E-200 Fundamental Basin Exploration Workshop ......................................................... p. 237

E-201C Basin Assessment & Modeling Certification Graduate Certificate ...................................................................................... p. 235

E-211 Structural Analysis & Associated Traps ............................................................... p. 237

E-213 Petroleum Systems: from Source Rock to Reservoir........................................... p. 237

E-217 From Prospect to Development: an Integrated Approach ................................... p. 238

E-218 Stratigraphic Modeling: Basin Architecture & Sediment Distribution .................... p. 238

E-219 Basin Modeling: Thermicity, Maturation & Migration ............................................ p. 238

E-220 Seismic & Sequence Stratigraphy for Oil & Gas Exploration ................................ p. 239

Reservoir Geology

E-250C Reservoir Characterization & Modeling Certification Graduate Certificate ...................................................................................... p. 241

E-263 Advanced Carbonate Reservoir Characterization ................................................ p. 242

E-267 Petrophysical Properties: Core, Log & Test Data Integration for Reservoir Modeling ....................................................................................... p. 242

Reservoir Geophysics

E-301 Seismic Interpretation & Attributes Analysis Workshop ....................................... p. 243

E-310 Seismic Characterization .................................................................................... p. 243

E-335 Microseismic: New Insights on Reservoirs .......................................................... p. 243


f Reservoir Engineering ............................. p. 101 to 116



Courtesy Paradigm

101

Rese

rvoi

r Eng

inee

ring


Dubai Feb 28 - Mar 03 €3,060 GIS / RESBAS [email protected]

Rueil Sep 05 - 09 €2,860 GIS / RESBAS [email protected]

ReseRvoiR engineeRing woRkflow 0.25 dIntroduction to Reservoir Engineering workflow through interactive group work

Basics of ReseRvoiR chaRacteRization 1.75 dProduction geology (basic concepts): reservoirs, traps, heterogeneities, etc.Well logging interpretationPetrophysics: rock propertiesReservoir fluid properties (gas, oil, formation water)Exercises

field development 2.5 dWell test interpretationMultiphase flowDrainage mechanismsPrimary drainage: undersaturated oil reservoir, solution gas drive, gas cap drive, oil reservoir with natural water influx, gas fieldSecondary recovery: water flood, gas injectionEnhanced Oil Recovery: EORBasics of reservoir simulationField developmentsExercises

case study: field developments 0.5 dApplication to an oil field evaluation and development

Recovery and drainage mechanism evaluationReserves estimationDevelopment schedule

puRposeTo provide an overview of main reservoir engineering concepts used in oil and gas fields development projects

audienceEngineers and experienced technicians facing day-to-day reservoir engineering concerns although not directly involved (personnel from fields such as geology, geophysics, drilling, completion, production, processing, economics, etc.)

leaRning oBjectives - To know the reservoir engineering workflow

- To know and understand fundamental concepts of reservoir characterization and reservoir engineering in petrophysics, fluid characterization, formation evaluation and drive mechanisms

- To understand how these concepts are used within multidisciplinary teamwork

ways & meansReservoir engineering workflow interactive presentationinteractive lectures, exercises and short moviesfield case study quick-look

Introduction to Reservoir Engineering e-

350

coordinator: Jean-Pascal Dejean


5 days

ReferenceGIS / RESBASGIS / INFOGIS



102


Rueil / field trip Sep 12 - Dec 09 €34,400 GIS / RESENGIN [email protected]

module 1 - ReseRvoiR geology (cf. e-252) 20 dPetroleum system & reservoirGeophysics & reservoir geophysicsPetrophysics

Core data, Porosity, Saturation, Wettability, Capillary pressureWell logging interpretationReservoir characterization

Reservoir architecture - Static and dynamic approach - HeterogeneitiesField trip on clastic and carbonate reservoirsGeological modeling (deterministic & stochastic) and OHIP computation

module 2 - fluids studies (cf. e-361) 5 dChemical composition of petroleum fluidsBasic properties and thermodynamics of reservoirs fluidsPVT studies

module 3 - well test analysis (cf. e-365) 10 dBasic equations and methods of interpretationTest design - Practical sessionGas well theoretical review and applicationsField trip: well test in an aquifer

module 5 - dRive mechanism - enhanced oil RecoveRy (cf. e-370) 7 dMultiphase FlowDrive MechanismEORMaterial balanceNaturally fractured reservoir

module 4 - dRilling/completion foR ReseRvoiR studies (cf. e-368) 5 dDrillingWell completionCased hole loggingWell performanceHorizontal and complex wells

module 6 - development pRoject and unceRtainties (cf. e-373) 5 dReservoir geological characterizationWell performance - Monitoring and data acquisitionDecision process and business aspectsField casesIntroduction to risks and uncertaintiesQualitative diagnostic through sensitivity studiesQuantitative diagnostic through uncertainty analysis

module 7 - dynamic ReseRvoiR simulation (cf. e-375) 10 dFrom geology to dynamic reservoir modelPetrophysics - PVT data - Production and well dataReservoir simulation methodologyPractice on a multipurpose software package (Eclipse™)Development scheme

puRposeTo provide a comprehensive and practical understanding of reservoir engineering concepts and the necessary skills in order for the attendees to quickly integrate multidisciplinary teams set up for oil and gas fields development and monitoring projects

audienceReservoir engineers and experienced technicians willing to deepen their knowledge in reservoir engineering; young scientists, geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand fundamental concepts of Reservoir Characterization and relationships with Reservoir Engineering

- To know and understand fundamental concepts of Reservoir Engineering, especially drive mechanisms and reservoir modeling

- To know and understand fundamental concepts of Field Development Plan, particularly reserves evaluation and production scheme optimization taking into account static and dynamic uncertainties

ways & meansinteractive lectures and exerciseshands-on practices using various dedicated and state-of-the-art software toolscase studyfield trips

noteCourse fees include accommodation and transport during field trips

Reservoir Engineeringgeology - pvt - well test - simulation - field developmente-

360




62 days

ReferenceGIS / RESENGINGIS / FORMGIS


103

Rese

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inee

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Rueil Oct 10 - 14 €2,960 GIS / PVT [email protected]

theRmodynamics: RemindeRs 1.5 dPetroleum genesisChemical composition of petroleum fluids

Hydrocarbon familiesCompositional presentation of reservoir fluids

Thermodynamics of petroleum fluidsPure component, binary mixture, multi-component systems - Phase behaviorHydrocarbon fluids: under saturated oil, saturated oil, dry gas, wet gas, retrograde gas

MeasurementsSampling: bottom hole and surface sampling - Representativity and validity of samplingAnalysisPVT studies: oil - gas condensate

physical pRopeRties - hydRocaRBon fluids 2.5 dThermodynamics: mixture equilibrium, fluids classificationLiquid vapor equilibrium

Real equilibrium, thermodynamics potential, fugacityBubble point pressure, formation volume factor, density compressibility, viscosity

Equation of statePeng-Robinson, Soave-Redlich-KwongLiquid-vapor calculation

Analytical representation: properties of light and heavy cutsFluid modeling: PVT matchingFluid synthesis: gravity segregation, field cases, miscibilityDownstream data: data for reservoir simulator and process

pvt exeRcises 1 dMatching with a PVT EOS package

puRposeTo provide a comprehensive and practical understanding of oil and gas reservoir fluids behavior

audienceReservoir engineers and experienced technicians willing to deepen their knowledge in reservoir fluid properties; young scientists, geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand main principles of thermodynamics applied to Reservoir Engineering studies

- To know and understand the building process of a PVT model for reservoir simulation

- To acquire practical experience of using experimental data to build PVT models

ways & meansinteractive lectures and exercisesanalyzing real pvt reporthands-on practices using state-of-the-art eos package for pvt matching

Reservoir engineering - module 2

Fluid Studies - PVTReservoir fluids properties - oil - gase-

361



5 days

ReferenceGIS / PVTGIS / FLUIDS



104


Rueil / field trip Oct 17 - 28 €8,460 GIS / WELLTEST [email protected]

intRoduction to well testing 0.5 dPurpose of well testingWell and reservoir performance and the need for testingPractical well test operations: types of tests, equipment, safety and environmental issuesDefinitions & typical regimes: wellbore storage, radial flow regime, skin effect, fractured well, well in partial penetrationFractured reservoirs, limited reservoirs and closed reservoirsProductivity index, radius of investigation

Basic equations and methods 2 dDarcy’s law, the diffusivity equationThe time superposition, multirate testingThe space superposition, boundary effectPressure curves analyses and pressure derivativeExercise

wellBoRe conditions 1 dWell with wellbore storage and skinInfinite and finite conductivity vertical fractureWell in partial penetrationHorizontal wellThe different skin factors, geometrical skin and well deliverability

BoundaRy models 1 dOne sealing faultTwo parallel sealing faultsTwo intersecting sealing faultsClosed system, reservoir limit testing and depletion effectsConstant pressure boundary

test design - pRactical session 1.25 dRate history definitionTime and pressure errorPressure gauge drift & noiseChanging wellbore storagePhase segregationInterpretation procedureFrom the initial diagnosis to the final consistency check of the resultsReporting and presentation of results, examples of test response

gas wells: theoRetical Review and applications 0.25 d

well testing: equipment and opeRational pRoceduRes 1 dClean up, surface equipment, down hole equipment, perforating, sampling

field tRip: well test in an aquifeR 3 d

puRposeTo provide a comprehensive knowledge of how to set up, design and interpret well tests

audienceReservoir engineers an experienced technicians willing to deepen their knowledge in well test analysis; young scientists, production geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand the theory of well testing interpretation (flow regimes, models)

- To know how to perform a well test interpretation

- To know how to devise or recommend a well test design

ways & meansinteractive lectures and exerciseshands-on practices using state-of-the-art software for well test interpretationfield practical application on an aquifer

noteCourse fees include accommodation and transport during field trip


Well Test Analysise-36

5




10 days

Reference GIS / WELLTEST


105

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Rueil Nov 14 - 18 €2,860 GIS / RESPUIT [email protected]

dRilling 1 dWell design - Casing programDrilling equipment and techniquesDirectional drillingDrilling fluids (mud)Different types of rigs - Specific offshore problems

well completion 1 dWellhead and safety equipment (BOP)Basic completion configurationsWell servicing and workoverOperations on live wells: wireline, coiled tubing, snubbing

cased-hole logging 1 dCementation logs: CET, CBL, VDLProduction logs

Saturation Monitoring (PNC)Flow profiles (PLT)

well peRfoRmance 1 dInflow, outflowNodal analysisWell deliverability & productivity

hoRizontal and complex wells 1 dNew applications - Feasibility, productivityConing, risks and other issues

puRposeTo provide a technical overview of well operationDrilling: the different well design, the drilling equipment, the different operations to reach the reservoirsCompletion: wellbore treatments, artificial lift and well intervention

audienceReservoir engineers and experienced technicians willing to deepen their knowledge in drilling and completion; young scientists, geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand fundamentals of drilling and completions techniques

- To know and understand main concepts of production logs and well productivity optimization

- To know fundamentals about horizontal and complex wells

ways & meansinteractive lectures and exercises


Drilling & Completion for Reservoir Studiese-36

8



5 days

ReferenceGIS / RESPUITGIS / PUITRES



106


Rueil Nov 02 - 10 €3,850 GIS / DRIVEOR [email protected]

week 1 3 d

multiphase flowFlow characteristics at pore scaleRelative permeabilities and reservoir productionNon-miscible diphasic flow: fluid mobility and mobility ratioTheory of frontal displacement

dRive mechanismPrimary drainage

Undersaturated oil expansion, solution gas drive, gas gap driveOil reservoir with natural water influxGas fields

Secondary drainageWater or immiscible gas injectionWater flooding: sources of injected water, well injectivity, flood pattern water flood performanceGas injection: flood mechanism and well injectivityDisplacement or microscopic efficiency, areal sweep efficiency, vertical sweep efficiency, global sweep efficiency

Exercises

week 2 4 d

enhanced oil RecoveRyMiscible gas methodThermal methods: steam injection, SAGD, in situ combustionChemical methods: surfactant, polymerApplication - Field cases

mateRial BalancePractical exercises on PVT matching, History matching, Production forecast with MBAL™ software

fRactuRed ReseRvoiRsFractures definition, classificationTypes of fractured reservoir: characterization, modelingDynamic parameters; gravity and capillarity as a production mechanismFlow mechanism in a fractured reservoir, simulation

puRposeTo provide a thorough understanding of drive mechanisms and ways to optimize recovery, reserves and field development

audienceReservoir engineers and experienced technicians willing to deepen their knowledge in drive mechanism and EOR; young scientists, geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand the natural mechanisms of production of a field

- To know and understand the mechanisms of improved oil recovery through water and non-miscible gas injection

- To know and understand the main concepts of Enhanced Oil Recovery

ways & meansinteractive lectures and exerciseshands-on practices using state-of-the-art software for pvt matching, history matching and production forecast


Drive Mechanism - Enhanced Oil Recoverye-37

0




7 days

ReferenceGIS / DRIVEORGIS / MECAFLO


107

Rese

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Rueil Nov 21 - 25 €3,110 GIS / DEVELOPROJ [email protected]

pRoject: field development 2.5 dFrom discovery to development of an oil field: methodology from a real field caseDiscovery phase: geological context, evaluation of reservoir properties, OOIP, reservesAppraisal phase: field evaluation after each appraisal wellDevelopment phase: several scenarios established from drive mechanisms definition and simulationsProduction profilesSurface/subsurface integrationField monitoringEconomical evaluation of scenarios: CAPEX, OPEX

economic evaluation of a pRoject 1 dDevelopment decision making processProjects economics: methods and criteriaOil tax legislation - Net Present ValueTypes of petroleum contracts

intRoduction to unceRtainties 1.5 dWhy quantifying uncertainties in reservoir studies?Overview of the response surface methodology and experimental design approachIdentification of the most influential static and dynamic parameters – Consequences on field evaluation and production forecasts

puRposeTo provide an understanding of reservoir management fundamentals, techniques and best practices, from geology to hydrocarbons recovery, with a special attention to the risk induced by the project’s uncertainties

audienceReservoir engineers and experienced technicians willing to deepen their knowledge in development project and uncertainties management; young scientists, geoscientists and production engineers moving into reservoir engineering

leaRning oBjectives - To know and understand about best practices of oil & gas fields development projects

- To know and understand main concepts of risks and uncertainties assessment

- To get a practical quick-look experience about risks and uncertainties management within field developments

ways & meansinteractive lectures and exerciseshands-on practices using state-of-the-art softwaresfield case studies


Field Development Project & Uncertaintiese-37

3



5 days

ReferenceGIS / DEVELOPROJGIS / PROJ



108


Rueil Nov 28 - Dec 09 €6,270 GIS / RESSIMU [email protected]

week 1 5 d

intRoduction to simulationPhysical aspects & basic lawsMathematical & Numerical aspects (diffusivity, transport & general equations)Types of reservoir simulation models: black oil, compositional, thermal, chemical and double porosity model

intRoduction to the simulatoRSimulation software presentationPractical exercise (Building a model from A to Z)

space & time discRetizationGrid properties (Cartesian grid, Radial grid, corner point grid, etc.) & key elements to take into accountTime Step Management & main events to take into accountPractical exercise using the Simulation software

petRophysicsData Review & Petrophysical upscalingPractical exercise using the Simulation software

fluidsData Review & Formalisms used by the simulatorUse of black oil data set & integration of lab experiments (constant composition expansion, constant volume depletion)Practical exercise using the Simulation software

week 2 5 d

initial stateData Review & Formalisms used by the simulator (equilibration regions)Identification of fluids in place per regionPractical exercise using the Simulation software

flow RepResentationFormalisms used by the simulator (gridded or analytical aquifers)Review of different possibilities (bottom, edge, transient, steady state, semi steady state) & “Hurst & Van Everdingen” tablesPractical exercise using the Simulation software

aquifeRs RepResentationFormalisms used by the simulator (gridded or analytical aquifers)Review of different possibilities (bottom, edge, transient, steady state, semi steady state) & “Hurst & Van Everdingen” tablesPractical exercise using the Simulation software

wells RepResentationFormalisms used by the simulator (Inflow Performance & Numerical PI, outflow performance & VFP tables)Practical exercise using the Simulation software

histoRy matchingProduction data & identification of data to matchProduction mechanisms & identification of matching parametersHistory matching strategies (pressure, saturation, early & late times) & uncertainty reductionPractical exercise using the Simulation software

pRoduction foRecastIntegration of well representation & production constraintsEstimation of future productions linked to different scenarios and identification of remaining uncertaintiesPractical exercise using the Simulation software

puRposeTo provide a thorough understanding of dynamic reservoir simulation; covering principles as well as data reviewing and formatting

audienceReservoir engineers, geologists, geophysicists, development project engineers and managers willing to deepen their knowledge in black-oil dynamic reservoir simulation; young scientists, geoscientists and production engineers moving towards reservoir engineering

leaRning oBjectives - To know and understand fundamental concepts of Dynamic Reservoir Simulation

- To learn about the building of a reservoir simulation model (data gathering, data QC)

- To learn about carrying out a simple reservoir simulation study (data input, history matching and production forecast with a black-oil model)

ways & meansinteractive course and exerciseshands-on practices using state-of-the-art software packages: eclipse™, petrel-Re or pumaflow reservoir simulatorBlack oil reservoir simulation including the manipulation of all kind of reservoir data (geological, petrophysical, pvt, well data, production history)


Dynamic Reservoir Simulatione-37

5




10 days

ReferenceGIS / RESSIMUGIS / SIMURES


109

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Rueil Nov 14 - 18 €3,160 GIS / PVTMOD [email protected]

theoRetical couRse 2 dFluid properties

PVT properties of pure components and mixturesFunctions and variablesProperties of reservoir fluidsIntroduction to the PVT modeling softwareApplied exercises

Thermodynamic models and equilibriumFunctions and variablesEOS and algorithmsComponent properties and lumpingLiquid/Vapor thermodynamic equilibriumApplied exercises

ReseRvoiR field cases 3 dSegregation modelingMiscibilityMDT pressure evaluationReview of sampling conditions and PVT dataPVT modelingGradient modelingFluid samplingAdvanced PVT modelingMini project, Discussion and Conclusions

puRposeTo provide an extensive and practical knowledge for analyzing PVT reports, handling data, and defining PVT models for use in compositional and black oil simulations

audienceReservoir engineers and very experienced technicians with a few years of industrial experience willing to acquire advanced knowledge about PVT modeling

leaRning oBjectives - To acquire extensive and practical knowledge for analyzing PVT reports and handling PVT data

- To know how to build a PVT model in order to represent fluid behavior with respect to available and validated PVT data

- To know how to perform a PVT match

pReRequisiteBasic PVT knowledge (characteristics, measurement techniques, chromatography, classical correlation) is recommended

ways & meansinteractive courses and exerciseshands-on practices using state-of-the-art pvt modeling software Bestdiscussion on pvt experiments and performing a mini-project

PVT Modeling e-

385



5 days

Reference GIS / PVTMOD



110



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in EOR Ready-to-use skills

Applying methods in real field case studies

Selecting the best EOR method with a comprehensive approach

Understanding concepts of EOR methods: gas injection, chemicals & thermal

Understanding secondary recovery & the need for EOR

With the ADVANCED CERTIFICATEin Fundamentalsof Enhanced Oil Recovery

111

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Dubai Jan 30 - Feb 03 €3,060 GIS / EOR [email protected]

Rueil Oct 24 - 28 €3,060 GIS / EOR [email protected]

intRoductionDefinitions of IOR/EOR, world energy data, EOR status and on-going projectsReservoir Management: from initial development to EOR. Reserves evaluation

special coRe analysesRelative permeabilities, capillary pressures, wettability, smart waterPractical exercise

oil RecoveRy By pRessuRe maintenanceOil recovery by water and/or gas injectionFactors impacting on recovery: reservoir and fluid characteristics, injection characteristics (volumes of injected fluids, type of fluids, flood pattern)Displacement or microscopic efficiency, areal sweep efficiency, vertical sweep efficiency and global sweep efficiencyBuckley-Leverett frontal advance theory. Production forecasts. Practical exercisesWater flooding: sources and treatment of injected water, well injectivity, water flooding implementation, flood patternImmiscible Gas injection: injected gas sources, flood mechanisms

field development caseField development exercise: water injection case followed by miscible gas injection

enhanced oil RecoveRyWater injection versus gas injectionGas injection: gravity displacement by lean gas, miscible displacement by lean and rich gas. Miscible flooding parameters (phase behavior, MMP). Water Alternating Gas (WAG)Videos examplesChemical injection: polymers to improve the volumetric sweep efficiency, surfactants to improve the microscopic sweep efficiencyPractical exercisesThermal methods: steam and air injection. Extra heavy oil casesEOR selection criteria and limitations. EOR project planning, pilots, design, surveillance

complex wellsUse of complex and intelligent wells to improve oil recovery. Videos examples

field casesVarious field cases: miscible displacement and gas gravity displacementMiddle East Case: EOR screening exercise

wRap-up sessionCourse assessment, wrap-up and conclusions

puRposeTo provide a comprehensive knowledge of improved/ enhanced oil recovery methods

audienceEngineers, managers and staff interested or involved in IOR/EOR projects

leaRning oBjectives - To know and understand main concepts of EOR

- To know and understand advantages and limitations of the various EOR techniques

- To know and understand how to select best EOR methods provided reservoir and oil characteristics

ways & meansinteractive courses and exerciseshands-on practices on various field case studies

noteThis course can be delivered in French, with documentation in English

Fundamentals of EOR CertificationeoR - screening criteria - field casese-

386c




5 days

Reference GIS / EOR




Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in EOR Ready-to-use skills

Applying methods in real field case studies

Selecting the best EOR method with a comprehensive approach

Understanding concepts of EOR methods: gas injection, chemicals & thermal

Understanding secondary recovery & the need for EOR

With the ADVANCED CERTIFICATEin Fundamentalsof Enhanced Oil Recovery

112



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Evaluating Reserves Ready-to-use skills

Economics

Understanding risks & uncertainties in G&G workflow

Dynamic reservoir modeling & estimating reserves

Static reservoir characterization & accumulation estimates

With the ADVANCED CERTIFICATEin Reserves Evaluation – Risks& Uncertainties

113

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Rueil Jun 13 - 17 €3,250 GIS / RISKUN [email protected]

Basics of ReseRvoiR chaRacteRizationIntroduction to Field Development ProjectsReminder on rock and fluid propertiesGeomodelingVolumetric Evaluation of OIIP and GIIP. ExercisesSummary of recovery factors versus drive mechanisms

ReseRves definitionsOil & gas reserve/resource definitionsSPE definitions and principlesSEC definitions and guidelinesOther definitions

ReseRves estimations and pRoduction pRofilesVolumetricsPerformance analysis (material balance, decline curves)Simulation modelsExercises

Risks and unceRtaintiesIntroduction to Risks and UncertaintiesNotions of probability and decision trees (exercises)Statistical description of data (exercises)Common distributionsProbabilistic methods: Monte-Carlo and Parametric (exercises)Notions of geostatistics and stochastic modeling (exercises)Structural, geological and dynamic uncertainties (exercises)

additional ReseRves and economicsEOR and Unconventional reservesNotions of economics, contracts. Exercises

puRposeTo provide a comprehensive and practical understanding of all methods and issues involved in the evaluation of hydrocarbons reserves

audienceGeologists, geophysicists, reservoir engineers, asset managers, economists, government representatives interested or involved in reserves estimation and reporting

leaRning oBjectives - To review principles of reservoir characterization and reserves evaluation

- To learn about main concepts of risks and uncertainties management

- To learn about integrating risks and uncertainties into reserves evaluation – static uncertainties, dynamic uncertainties, geostochastic modeling, etc.

ways & meansinteractive courses and exerciseshands-on practice using state-of-the-art softwares


Reserves Evaluation - Risks & Uncertainties Certification

e-39

3c



5 days

Reference GIS / RISKUN





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Evaluating Reserves Ready-to-use skills

Economics

Understanding risks & uncertainties in G&G workflow

Dynamic reservoir modeling & estimating reserves

Static reservoir characterization & accumulation estimates

With the ADVANCED CERTIFICATEin Reserves Evaluation – Risks& Uncertainties

114


Rueil Jun 20 - 24 €3,810 GIS / UNCONV [email protected]

woRld eneRgy demand and shale gas 0.5 dIntroduction, definitions, world data resources

hydRocaRBons in unconventional settings 1 dExploration aspects: geology and geochemistry

shale gas stimulation 1 dHydraulic fracturing, micro-seismicity interpretation, stress and mapping of fractures Status on fracturing technologiesCompletion design, well orientation, spacing, re-fracturing, fracture load recovery, tracers

shale gas petRophysics 0.5 dStatus of petrophysical evaluation, some exercises

shale gas ResouRces 0.5 dEvaluation of resources (in place and technically recoverable)MethodologyExercises

pRoductivity and field development 0.5 dWell productivity assessmentField Development (Case Study and exercises)

Establish well patternEstablish the plateau rate and durationBuild Field Development spread-sheet

economics 0.5 dField development economicsProduction costs

enviRonmental impact 0.5 dDiscussions around controversial issues

Handling of important volumes of water for frac and treatmentImpact on aquifers by drilling and fracturingHigh number of drilling sitesUse of chemicals

puRposeTo provide an overview of unconventional hydrocarbons resources, highlighting main technical, economic and environmental issues of shale gas exploration and production

audienceGeoscientists, reservoir engineers, development project engineers and managers interested in shale gas resources

leaRning oBjectives - To know fundamentals of gas shale formation evaluation

- To learn about productivity assessment and improvement

- To go over field development projects addressing economic and environmental issues

ways & meansinteractive courses and exercisesvideoshands-on practice using dedicated softwarecourse taught by experts

noteKindly refer also to complementary courses which might be of interest: “Hydrocarbons in Unconventional Settings” (E-221), “Unconventional Reservoirs Completion and Stimulation” (E-468) and “Unconventional Resources Production Overview” (E-040)

Unconventional Resources - Shale Gas Fundamentals e-

395




5 days

Reference GIS / UNCONV


115

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Rueil May 25 - 27 €2,020 GIS / ENVGB [email protected]

the stakes: puBlic peRception – a contRoveRsial eneRgy

the industRy point of view

technologies: key issues foR the enviRonmentFracking and waterAir emissionsWastewater & waste treatment

socio-economic impact & sustainaBle development

enviRonmental RegulatoRy oveRview

contents of an enviRonmental impact assessment & case studies – mitigation and emissions tReatment

puRposeTo perceive and assess the stakes of a “shale gas project”, including the controversial perception of public. To learn about key regulations on shale gas and therefore the contents of a dedicated Environmental Impact AssessmentTo provide a thorough and applied knowledge of regulatory requests with the Best Available Techniques, recent industry standards and practices for Air Pollution control and treatment, waste water control and remediation techniques and equipment. Lessons learnt from case studies in the US and Europe

audienceManagers, advisors, engineers, and operations staff involved in the management of environmental issues all along the lifetime of a unconventional shale gas & oil or tight gas & oil development: from exploration to production

leaRning oBjectives - To understand the global prevailing context for the shale and tight gas & oil development for Environmental Management at worldwide level

- To identify key issues and impacts of specific shale gas activities (exploration, fracking, production)

- To learn about technical requirements and regulation in USA and Europe

- To understand specific contents of a shale gas environmental impact assessment, mitigations (treatments), and how to develop communication (Public Participation)

- To know lessons learnt from case studies (strategy, technologies, public acceptability, etc.)

ways & meanshighly interactive training by an industry-specialist lecturer involved in shale gas projectnumerous case studies, applications and illustrations, and teamwork sessions - key internet references - videos

Environmental Management of Unconventional Development Projects: Shale & Tight Gas & Oile-

396



3 days

Reference GIS / ENVGB



116


well test pRinciples and oBjectives 8 hDefinitions, objectives, surface tools, downhole tools, metrologyData input, data results, test sequence, gas tests, diffusivity, methodology, flow regimes, special plots, skin, investigation, productivity

well test analysis: method 8 hThe log scale, conventional method, DD type curve match, BU T/C match, MDH, hornerMultirate time, superposition, the derivative (T/C, match, signature catalog)

well test analysis: applications 8 hTheory review, no flow boundaries classes, closed system, average pressure and productivity index, software presentation and exercises

well BoRe & ReseRvoiR conditions 4 hWell bore conditions, reservoir conditions (homogeneous, 2 Phi), software, exercises

limits and BoundaRies 4 hLimits, boundaries, closed system, software, partial penetration, horizontal well, exercises

gas and inteRfeRence tests 4 hGas tests, interference tests, software, exercises

test design 4 hTest design, complicating factors, reporting, interpretation procedure, test history simulation

puRposeTo enhance practical experience and skills in well test design and interpretation through an experiential, hands-on training experience

audienceReservoir engineers, engineers and technicians interested or involved in well test design and interpretationReservoir geologists interested by well-test-generated dynamic information for use in geological models

leaRning oBjectives - To know and understand the theory of well testing interpretation (flow regimes, models)

- To be able to perform a well test interpretation

- To be able to design a well test

ways & meansinteractive lectures and practical exerciseshands-on practices using state-of-the-art software for well test interpretation

note40 hours over 10 weeks PIE™ or SAPHIR™ software licenses not provided

Well Test Analysise-learning with remote personal coachinge-

397

coordinator: Jean-Pascal Dejean Catherine Ulrich (Blended Learning)



Reference GIS / BLWTA


40 hours over 10 weeks

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Our In-House Training


E-355 Reservoir Management ...................................................................................... p. 246

E-360C Reservoir Engineering Certification Graduate Certificate ...................................................................................... p. 245

E-363 Core Analysis for Reservoir Characterization....................................................... p. 247

E-388 Advanced Well Test Analysis .............................................................................. p. 247

E-389 Dynamic Reservoir Simulation: Best Practices .................................................... p. 247

E-390C Reservoir Simulation Workshop Certification Advanced Certificate ..................................................................................... p. 249

E-391 Laboratory Determination of Relative Permeabilities ............................................ p. 251

E-392 Experimental Training for Core Analysis .............................................................. p. 251

E-394 Development of Gas Condensate Fields ............................................................. p. 251


f Geosciences Field Trip ............................ p. 123





Key benefits:







123

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Poitiers field trip May 30 - Jun 03 €4,190 RES / INTEGRATION [email protected]

Take a walk on a reservoir and embrace all disciplines!

Data anD toolsOn-site field operation on one reservoir cell analog (250 m x 250 m)Real-time interference well testFlow measurements slug testLog acquisition40 completed well (logged with conventional logs and HR optical borehole imaging)4 cored wells (from top to TD) and core handling facilities3D HD seismic blockOutcrop analogData base access on tablet

Program 5 dWell log analysis and well-to-well correlationsDynamic data acquisition and analysis:

- Permeability determination (Kh) and mapping - Identification of best producing intervals

3D seismic analysisBHI analysisCore description and analysisIdentification of key heterogeneities in reservoirGlobal field synthesis (both dynamic and static)Outcrop analysis and comparison with field data

InformatIonParticipants are divided into business unit teams, with a virtual budget for reservoir characterization. Each team:

- Invests to acquire static or dynamic data - Analyzes the data - Proposes the best conceptual model for final assessment!

PurPoseAn effective, applied on-site hands-on practice on a carbonate water reservoir analog, with the objective to improve both participants’ knowledge and know-how on reservoir characterization methods and tools

auDIenceGeophysicists, geologists, reservoir engineers and technicians involved in integrated reservoir studies (3-year experience required)

learnIng objectIvesAchieve more reliable reservoir characterization via an integrated contribution from all specialties: - To acquire and manipulate all dynamic reservoir data types

- To share and integrate specific expertise from all reservoir metiers

- To build up a set of practical competences to cope with reservoir characterization purposes

Ways & meanstraining and coaching by several experienced professionalson-site hands-on practicesData acquisition and interpretationInteractive training pedagogygroup synergy / team buildingthis course can be delivered in french, with documentation in english

noteThe course is delivered in the city of Poitiers (1:30 train trip from Paris) Meeting point: Poitiers railway station Fees only include accommodation and transportation during training session

Integrated Reservoir On-Site Workshop (Poitiers Field Lab) Certificationreservoir geology - 3D seismic - In-situ reservoir dynamicse-

258c



5 Days

Reference RES / INTEGRATION

geosciences field trip


An IFP Training / Université de Poitiers / CNRScollaborative partnership



Key benefits:







125

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E-900 Introduction to Petroleum Systems ..................................................................... p. 253

E-910 Static Model Construction: Field Constraints & Integration with Subsurface Data ......................................................................................... p. 253


f Drilling / Completion ................................ p. 129 to 135

f Drilling ..................................................... p. 136 to 148

f Fluids ....................................................... p. 149 to 150

f Completion .............................................. p. 151 to 156

f Well Control ............................................. p. 157 to 158



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Pau Sep 12 - 16 €3,380 FOR / INFORE [email protected]

Dubai Oct 09 - 13 €3,000 FOR / INFORE [email protected]

Rueil Nov 21 - 25 €3,380 FOR / INFORE [email protected]

OrganizatiOn Of drilling OperatiOns 0.5 dDrilling principleCost, duration of a drilling jobDifferent people involved, types of contractsSafety

Well architecture 0.5 dReservoir notionsFunctions of different casingsParameters to be taken into account to determine well architectureExamples of architectures

drilling principles - equipment 1.5 dDifferent types of bitsDrilling stringDrilling rig

Hoisting function and equipmentPumping function and equipmentRotating function and equipmentPower function

Mud and solid treatmentBOP

special OperatiOns 1.25 dCementing operationsWellheadDirectional drillingWell controlFishing jobsWireline logging, well test (DST)

drilling On a simulatOr (pau) 0.25 dUse of a well control simulator to show the drilling operations (tripping, drilling, running of casings)

OffshOre drilling OperatiOns 0.25 dDifferent types of rigsProblems related to their use

Well cOmpletiOn 0.25 dReservoir-wellbore interfaceEquipment for flowing wellsWell intervention

Visit Of a drilling site 0.5 d

purpOseTo provide a comprehensive overview of drilling techniques and operations

audienceEngineers and technicians interested but not involved in drilling: geologists; geophysicists; reservoir engineers; completion, production and process staff; platform designers; economists, etc.

learning ObjectiVes - To acquire the vocabulary specific to drilling

- To review drilling operations and equipment

- To learn about roles and responsibilities of different professionals involved in drilling

Ways & meansVisit to a drilling site (when the course is delivered in rueil, practical illustration is provided by a video)

nOteKindly refer to the following complementary courses which might be of interest: “Introduction to Reservoir” (E-350), “Well Completion and Servicing” (E-411), “Oil & Gas Field Processing” (E-501)

Drilling Fundamentals e-

410

coordinator: Frédéric Barrère


5 days

ReferenceFOR / INFOREFOR / INFORF

drilling & completion Drilling / Completion


130


Rueil Nov 28 - Dec 02 €3,380 PRO / INPFE [email protected]

necessary fundamentals Of reserVOir engineering fOr cOmpletiOn 0.75 dIntroduction: area concerned by completion, main stepsGeological trap, rock propertiesFluid behaviorReservoir characterization, well testingRecovery mechanisms

necessary fundamentals Of drilling fOr cOmpletiOn 0.25 dDrilling and casing program, casing cementingWellhead and safety equipment (BOP)

intrOductiOn tO cOmpletiOn 0.5 dConcerned area, main steps (for memory)Main factors influencing completion designCompletion configurations: requirement, main configurations

Well prOductiVity & reserVOir-WellbOre interface (part 1) 0.75 dOverall approach of the well flow capacity:

Inflow and outflow performanceNeed for artificial lift

Drilling (and casing) of the pay zone: specific aspectsProblems linked to restoring the cement jobPerforating: principle, main methods

equipment Of naturally flOWing Wells 1 dFunctions to be carried out and corresponding pieces of equipment, main configurations of production string(s)Technology and handling of main pieces of equipment: production well head, tubing, packer, downhole devices, subsurface safety valveRunning in hole procedurePresent trends: fullbore, (…), intelligent completion

reserVOir-WellbOre interface (part 2) 0.75 dStimulation: acidizing, hydraulic fracturingSand controlHorizontal drain specificity: interest, reservoir-wellbore interface

artificial lift 0.5 dSucker rod pumping and electrical submersible pumping: principle, main components, factor to consider for design, operating problemsContinuous gas lift: principle, factor to consider for design, unloading, operating problemsField of application

Well serVicing and WOrkOVer 0.5 dMain jobs: measurement, maintenance, workoverOperations on live wells: wireline, coiled tubing, snubbingOperations on killed wells: workover

purpOseTo provide a comprehensive overview of completion and well intervention operations

audienceEngineers and technicians, from operating or service companies, interested but not involved in well completion or servicing: geologists, geophysicists, reservoir engineers, drillers, production and process staff, platform designers, economists, etc.

learning ObjectiVes - To understand the connections between reservoir and completion

- To understand main configurations and techniques of completion

- To review advantages and issues of various techniques

- To acquire the language to communicate efficiently with oil and gas service companies and equipment suppliers

Ways & meansWell control on a simulatorequipment and cutaway tools displayexercises, role-playing sessions, project and case studiessummary notes prepared and presented by the participantsupon successful completion of a knowledge test, the iWcf “Well control” certificate is delivered

nOteKindly refer to the following complementary courses which might be of interest: “Introduction to Reservoir Engineering” (E-350), “Drilling Fundamentals” (E-410), and “Oil & Gas Field Processing” (E-501)

Well Completion & Servicing e-

411

coordinator: Frank Beijer



5 days

ReferencePRO / INPFEPRO / INPFF


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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Drilling & Completion Engineering Ready-to-use skills

Combined Surface & Subsurface BOP Stack with IWCF Certification

Knowledge of drilling & completion equipment

Managing a drilling & completion program

Techniques in drilling & completion operations

With the GRADUATE CERTIFICATEin Drilling & Completion Engineering

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Pau Feb 08 - Jun 17 €39,890 FOR / FOFPE [email protected]

module 1 - geOlOgical field trip fOr drillers (cf. e-416) 5 d

module 2 - cOmmOn fundamentals fOr drilling and cOmpletiOn (cf. e-419)

5 d

module 3 - Well prOductiVity & reserVOir - WellbOre interface (cf. e-451)

5 d

module 4 - Well cOmpletiOn equipment and prOcedures (for flowing wells) (cf. e-453)

5 d

module 5 - WellbOre treatments (cf. e-455) 5 d

module 6 - artificial lift & Well interVentiOn fundamentals (cf. e-458) 5 d

module 7 - Well architecture and equipment (cf. e-420) 5 d

module 8 - drilling fluids (cf. e-441) 5 d

module 9 - cementing practices (cf. e-443) 5 d

module 10 - bit, drilling string and fishing While drilling (cf. e-421) 5 d

module 11 - directiOnal and hOrizOntal drilling (cf. e-425c) 5 d

module 12 - rig & bOp’s and Well cOntrOl equipment (cf. e-422) 5 d

module 13 - Well test OperatiOn (cf. e-452) 5 d

module 14 - drilling data acquisitiOn (cf. e-423) 5 d

module 15 - Well cOntrOl (cf. e-471) 5 d

module 16 - deepWater drilling and deVelOpment (cf. e-428c) 5 d

module 17 - hse: health - safety - enVirOnment (cf. e-424) 5 d

module 18 - drilling and cOmpletiOn prOject 10 dWell architectureCompletion designCasing and tubing calculationsFluids and cementing designChronology of operationsPresentation to a jury

purpOseTo provide an in-depth, practical understanding of drilling and completion techniques, operations, equipment and procedures

audienceYoung engineers involved in drilling and completion, supervisors, tool pushers

learning ObjectiVes - To assist in drilling/completions operations on site; and, with some experience, manage those operations

- To define a drilling/completion program; and, with some on-site experience, design and implement such a program

- To pass the IWCF “Combined Surface/Subsurface BOP Stack” Test

Ways & meansdrilling simulatorWell control on a simulatorequipment and cutaway tools displayexercises, role-playing sessions, and case studiessummary notes prepared and presented by the participants10-day drilling / completion project, ending with a presentation to a jurysite visitsknowledge assessment on a weekly basis

nOteThis training program is made up of two complementary training programs: “Drilling Engineering” (E-413) and “Completion Engineering” (E-414) The training includes several modules; each one can be attended independently

Drilling & Completion Engineering Certification

e-41

2c

coordinator: Rémi Ferrière

Can be organized for a single companygraduate certificate

95 days

ReferenceFOR / FOFPEFOR / FOFPF





Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Drilling & Completion Engineering Ready-to-use skills

Combined Surface & Subsurface BOP Stack with IWCF Certification

Knowledge of drilling & completion equipment

Managing a drilling & completion program

Techniques in drilling & completion operations

With the GRADUATE CERTIFICATEin Drilling & Completion Engineering

134


Pau Feb 08 - 26 & Mar 21 - Jun 17 €36,530 FOR / FOFPFE [email protected]



5 d


5 d

module 7 - Well architecture and equipment (cf. e-420) 5 d

module 8 - drilling fluids (cf. e-441) 5 d

module 9 - cementing practices (cf. e-443) 5 d

module 10 - bit, drill string and fishing While drilling (cf. e-421) 5 d

module 11 - directiOnal and hOrizOntal drilling (cf. e-425c) 5 d

module 12 - rig & bOp’s and Well cOntrOl equipment (cf. e-422) 5 d


module 14 - drilling data acquisitiOn (cf. e-423) 5 d




module 18 - drilling prOgram 10 dWell architectureCasing calculationsFluids and cementing designChronology of operationsPresentation to a jury

purpOseTo provide an in-depth, practical understanding of drilling techniques, operations, equipment and procedures


learning ObjectiVes - To assist in drilling operations on site; and, with some experience, manage those operations

- To define a drilling program; and, with some on-site experience, design and implement such a program


Ways & meansdrilling simulatorWell control on a simulatorequipment and cutaway tools displayexercises, role-playing sessions, and case studiessummary notes prepared and presented by the participants10-day drilling project, ending with a presentation to a jurysite visitsknowledge assessment on a weekly basisupon successful completion of a knowledge test, the iWcf “Well control” certificate is delivered

Drilling Engineering e-

413




80 days

ReferenceFOR / FOFPFEFOR / FOFPFF


135

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Pau Feb 08 - Mar 18 & May 09 - Jun 17 €27,430 PRO / FOFPCE [email protected]



5 d


5 d

module 4 - Well cOmpletiOn equipment and prOcedures (for flowing wells) (cf. e-453)

5 d

module 5 - WellbOre treatments (cf. e-455) 5 d

module 6 - artificial lift & Well interVentiOn fundamentals (cf. e-458) 5 d





module 18 - prOject On cOmpletiOn prOgram 10 dCompletion designTubing calculationsFluids designChronology of operationsPresentation to a jury

purpOseTo provide an in-depth, practical understanding of completion techniques, operations, equipment and procedures


learning ObjectiVes - To assist in completion operations on site; and, with some experience, manage those operations

- To define a completion program; and, with some on-site experience, design and implement such a program


Ways & meansWell control on a simulatorequipment and cutaway tools displayexercises, role-playing sessions, and case studiessummary notes prepared and presented by the participants10-day completion project, ending with a presentation to a juryknowledge assessment on a weekly basisupon successful completion of a knowledge test, the iWcf “Well control” certificate is delivered

Completion Engineering e-

414

coordinator: Rémi Ferrièretammam hammad


60 days

ReferencePRO / FOFPCEPRO / FOFPCF



136


Rueil Jun 13 - 24 €6,380 FOR / PAWPCE [email protected]

Rueil Nov 14 - 25 €6,380 FOR / PAWPCE [email protected]

Well ObjectiVes and inputs tO the drilling prOgram 0.5 dTypical objectives and inputs to an exploration or/and a development well programPore and fracturation pressure evaluationCriteria to consider for the well design

casing design: shOe pOsitiOning 0.5 dSwab and surge considerations, kick tolerance, hypothesis selectionSelection of mud weights, additional constraints, exercises with different hypothesis

casing design: casing selectiOn 1.5 dPhysical and mechanical properties of casings and casing connectionsUse of the drilling data handbookCasing string calculation, selection

Wellhead design and selectiOn 0.5 dDifferent wellheads in onshore and offshore environments, wellhead and BOP program

bits prOgram 0.5 dDifferent types of bits, bit selection: bit records, cost per foot, bit hydraulics

drill string, cOmpOnents and selectiOn 1 dBHA components and design criteria; drill string design criteriaTorque and drag modeling, hydraulic and pumping requirements

mud and cement prOgram 2 dDrilling fluid types and characteristics, mechanical treatment equipmentSelection of mud program according to the well construction criteriaCementing technology and procedures, cement and slurry designCementing program, cementing quality control

fOrmatiOn eValuatiOn prOgram 0.5 dMud logging and cutting sampling, electrical logging, logging services requirementsCoring tools, procedures and coring program

deViated Wells design: directiOnal drilling methOds and technOlOgy 1 dSurveying tools and technology, basic behavior of rotary assembliesDirectional drilling tools and technology, directional programSurveying methods, trajectory calculation methods, uncertainty evaluationSurveying tools and technology, basic behavior of rotary assemblies

rig selectiOn 1 dMain drilling rig functionsTypes of rigs, rig selection criteria

time estimate and prOVisiOnal prOgress curVe 0.5 dTypical rig times required for the different operations, drilling and tripping time, contingenciesAnalysis of time curve plan for the case study

cOst estimate and afe 0.5 dDrilling, formation evaluation and logistics contractsIntangible costs, tangible costs, and contingenciesEstablishing the well budget and AFE for case study well

purpOseTo provide a comprehensive overview of all steps one should take to properly plan and budget oil and gas exploration or development wells, from pre-planning with geoscientists all the way to delivery

audienceYoung engineers, drilling and completion superintendents already, or about to be involved in well design and planning

learning ObjectiVes - To review the different parameters involved in oil or gas well planning

- To identify major concerns and plan for dealing with them

- To understand procedures and methods for designing oil or gas wells and preparing drilling programs

- To learn how to estimate drilling time and costs, along with corresponding margins of error

- To grasp importance of effective well engineering and planning

- To follow efficiently well planning and costing sequences

Ways & meansinteractive course with case studies and practical exercisesa well case history will be used to build an afe and a time drilling curve as a model for each section of this course

Practical Aspects of Well Planning & Costing e-

415

coordinator: Jean Beaume

drilling & completion Drilling


10 days

Reference FOR / PAWPCE


137

Drill

ing

& Co

mpl

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Pau Feb 08 - 12 €3,380 FOR / FTFPE [email protected]

Classroom course with theoretical exercises and field trip observations in the Lacq gas province (Pau, South-West of France)

intrOductiOn tO petrOleum geOlOgy 2 dBasin and sedimentary rocks - Petroleum system

Sedimentary basin - Definitions, structure and terminologySedimentary rocks - Description and main facies - Comparison clastic versus carbonates - Sedimentary processPetroleum system - Source rock, reservoir rock and seal rock - Trapping and migration processExercises: Interpretation of geological cross section, identification of the petroleum components, petroleum system building - Identification of potential prospects and implementation of 2 exploration wells - Analysis of limitations and drilling constrains

field-trip in the pyrenean lacq field (active margin basin) 3 dPresentation of the Lacq Basin - Relations with the Pyrenean structure

Structural overview of the Pyrenean chain - Geomorphology and structural contextLacq: a petroleum system in the Jurassic - Lower cretaceous carbonate domain - Source, reservoir and seal rockStructure of the reservoir, trapping and potential hydrocarbon migration

Sedimentary study of the upper cretaceous clastic formationThe turbidites of St Jean de Luz

- Detail of the sedimentary complex - Observation of the clastic deposits - Analysis of the deposit unit in a turbidite system (Bouma sequence) observation and comparison with carbonate series of the Lacq field

- Analysis of the turbidites’ structure in St Jean de Luz - Syn and post sedimentary structures - Observation of “chair folding” - Dissymmetry of the folding - Notions of pressure / Stretching (laminated flanks) and under compacted zones

- Comparison with turbidites facies of Gan (South of Pau) - Notion of lateral facies variation - Conclusion

Synthesis and conclusionsStructural context of the Lacq gas field: An example of active margin basin in foothills domainElements of the Petroleum system of the Lacq gas field: an example of petroleum system in carbonate domainThe upper cretaceous turbidites system: interest of this facies analysis for understanding of the Pyrenean structureField observation of the turbidite series structure: interest and consequences for drilling purpose

purpOseTo provide a practical understanding of petroleum systems that is useful for integrating geological constraints and rock properties in drilling strategies which ultimately improve drilling models and reduce risk

audienceNon-geologists and drilling professionals with no experience in petroleum geology

learning ObjectiVes - To review main components of a petroleum system

- To learn about most common facies rocks and their physical properties

- To grasp the scope and fundamentals of the petroleum trilogy

- To analyze deformations and constraints, and identify potential traps

- To deduce implications for drilling campaigns

Ways & meanstraining includes exercises and field-trip observations in the lacq gas province (pau, south-West of france)

Geological Field Trip for Drillers e-

416

coordinator: Jacques Negron


5 days

ReferenceFOR / FTFPEFOR / FTFPF



138


Pau Feb 15 - 19 €3,380 FOR / BACFPE [email protected]

petrOleum geOlOgy 1.5 dEarth structure, main rock componentsSedimentary rocks: origin, structure, classificationSedimentation, tectonics and stratigraphyHydrocarbons: origin, formation, migration, traps

OVerburden pressure, pOre pressure, frac pressure 1 dDefinitionsCauses of abnormal pore pressureDetection of abnormal pore pressureDetermination of pore pressure: Eaton’s method, equivalent depth method, ratio methodDetermination of frac pressure, LOT

drilling fundamentals 1 dPrinciple of drilling, functions of the drilling fluid, well architectureCasing cementingWellhead and safety

hydrOdynamics applied tO Well 1 dHydrostatic pressure, pressure lossesRelation between static and circulating well pressures

knOWledge assessment 0.5 d

purpOseTo provide an overview of fundamental knowledge in drilling and completion (with a review of geology, formations and well pressure) as an introduction to the intensive training program “Drilling and Completion Engineering”


learning ObjectiVes - To learn about different types of rock - To understand the process of hydrocarbon formation and trapping

- To carry out well pressure calculations - To assess uncertainties with regard to pressure measured while drilling

Ways & meansapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

Fundamentals of Drilling & Completion e-

419

coordinator: Xavier Gueyraud



5 days

ReferenceFOR / BACFPEFOR / BACFPF


139

Drill

ing

& Co

mpl

etio

n


Pau Mar 21 - 25 €3,380 FOR / ARCHIE [email protected]

drilling and casing prOgram 0.5 dRole of casingsParameters to be considered to determine well architecture

Well typePore and frac pressuresCompletion, lithology

Different types of casingsSurfaceIntermediateProduction

Wellhead 0.25 dDifferent elementsWellhead assembly sequences

characteristics Of casings 0.25 dGeometric, physical and mechanical properties of the pipes, the connectionsUse of Drilling Data Handbook

shOe pOsitiOning 0.25 dHypotheses to be considered, casing point - Kick toleranceCasing point - Kick toleranceExamples and exercises

casing string calculatiOn 0.25 dPrinciples and assumptions to remember for the different stringsStress cases study

CollapseBurstTensionTriaxial studySafety factors

Casing selection: examples and exercises

calculatiOn examples 3 dCase studies

test 0.5 d

purpOseTo provide a thorough and practical understanding of the methodology for designing a casing program

audienceYoung engineers, tool pushers, supervisors, other professionals involved or interested in well architecture

learning ObjectiVes - To calculate different casing strings using the Drilling Data Handbook

- To select the right position of casing shoes

- To calculate the stress applied to the casing pipes

- To select the casings as per the constraints encountered while drilling

- To choose the right wellhead with regard to the casings used


Well Architecture & Equipment e-

420

coordinator: Fabien Manuel


5 days

ReferenceFOR / ARCHIEFOR / ARCHIF



140


Pau Apr 11 - 15 €3,380 FOR / OUTGARNE [email protected]

bit 2 dBit different types and classificationBit use and drilling parametersDull gradingBit nozzle selectionBit selectionVisit of a Varel manufacturing unit

drill string 1.75 dDistribution of stresses in the drill stem, neutral pointDrill pipes: characteristics, limits of use, combination of stresses, bucklingDrill collars: characteristics, profile, threading, choice of diameterAuxiliary equipment: kelly, heavy weight drill pipes, stabilizersDrill string selection: first approachMargin of overpull, equiresistant drill string, necessary length of DCVisit of a Vam Drilling manufacturing unit

fishing While drilling 1 dDifferent problems found during drillingCauses for stickingPrinciples of the solutions to stickingFishing equipment lost in the well, main tools used Avoiding sticking and losses of equipment in the wells


purpOseTo provide an in-depth, practical knowledge of bit, drill string, and fishing techniques and equipment

audienceYoung engineers and supervisors, toolpushers with some experience in drilling

learning ObjectiVes - To acquire the basic knowledge on the bit and the drill stem

- To carry out basic calculations on the drill stem

- To choose a drill stem - To use the different elements of the drill stem

- To learn about main techniques and equipment used to solve a fishing problem while drilling


Bit, Drill String & Fishing While Drilling e-

421




5 days

ReferenceFOR / OUTGARNEFOR / OUTGARNF


141

Drill

ing

& Co

mpl

etio

n


Pau Apr 25 - 29 €3,380 FOR / BOPE [email protected]

rig 3 dDescription of the main functions

HoistingPumpingRotatingPower

Limits of useEquipment selection through exercises:

Choosing the drawworks, the drilling line, drilling line workChoosing the pumps as per the drilling program

bOps and Well cOntrOl equipment 2 dBOP

FunctionsDifferent types: ram BOP, annular BOP, inside BOP Technical field characteristics

Auxiliary equipmentAccumulation and closing unitChoke manifold, chokesMud gas separator

Equipment working test and pressure testAPI rulesExercises on BOP closing unit sizing

purpOseTo provide a thorough, practical knowledge of rigs, BOP’s and well control equipment


learning ObjectiVes - To acquire a good knowledge of drilling rigs and BOPs

- To learn about the use and limits of different pieces of equipment

- To select capacities and types of rig equipment

- To select BOPs, hydraulic units and auxiliary equipment


Rig, BOP’s & Well Control Equipment e-

422



5 days

ReferenceFOR / BOPEFOR / BOPF



142


Pau May 02 - 06 €3,380 FOR / LOGFIE [email protected]

mud lOgging parameters 2 dTasks of various professionals at the drilling siteMain documents carried outPhysical principles sensors used on well siteMechanical parameters (WOH, WOB, RPM, ROP) & hydraulic parametersCuttings (sampling, cleaning & analysis)Detection & evaluation of Oil & Gas shows while drillingCarry out a section of geological logCase study

cOring OperatiOns 0.5 dData collected with coringConventional coring operationCores bits and drilling strings for coring operationsAdvanced coring technics: turbo-coring; soft formations coring; gel coringSide wall coring with wire line Oriented coring systemStorage and handling process for cores during surface recovery: cores cutting; preliminary well site analysis; storaging of cores

Well lOgging and lOgging While drilling 2 dDefinition of basic concepts used in log interpretationWireline logging

Well site setup and log records operationMain logging tools and applications (caliper, GR, SP, resistivity, nuclear, acoustic)Quick-look interpretation: reservoir identification and characterization (lithology, porosity, fluid types, saturation)Case study

Logging While DrillingMain LWD sensors and measurements (directional, resistivity, nuclear, acoustic, pressure...)Applications for directional drilling, geosteering, formation evaluation, predictive pressure

Pressure measurement conceptsDifferent technics for sampling with wireline and LWD toolsPrevention actions to handle sampling operations


purpOseTo provide a thorough, practical knowledge of openhole logging, mud logging and fishing while drilling


learning ObjectiVes - To understand, assess and interpret measurements made while drilling

- To learn about techniques and equipment used for coring during drilling operations

- To understand how to prevent kicks and drilling problems with mud logging data analysis

- To understand wireline and LWD technology with regard to log data analysis

- To appreciate the geoscientists’ work in a quick-look log analysis at the rig site


nOteTraining plan for 5 days scheduled in 4 days for public holidays

Data Acquisition during Drilling Operations e-

423




5 days

ReferenceFOR / LOGFIEFOR / LOGFIF


143

Drill

ing

& Co

mpl

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Pau May 09 - 13 €3,380 FOR / HSEE [email protected]

hse management - respOnsabilitie 1.5 dSafety Management SystemBridging document between Operator and Drilling ContractorProcedures (Permit To Work, SIMOPS, management of changes, downgraded situations,…)Human factors in risks managementReporting and analysis of incidents/accidentsTraining

main risks in general actiVities, preVentiOn and mitigatiOn measures 1.25 dFlammability

Explosive atmospheres (ATEX): flammable products, explosive limits and flash pointIgnition sources: naked flame, auto-ignition temperature, sparks and static electricity, ...

Fluid behaviorPressure in a vessel and variation depending of temperature variations

Risks for personnelRisks associated with chemical products/toxic gas (H

2S), radioactivity /electricityRisks associated with gestures, postures/drivingRisks during lifting operations /work at height/work in a confined space

Personnel Protective Equipment

specific risks during drilling/cOmpletiOn OperatiOns, preVentiOn and mitigatiOn measures

1.25 d

Surface Gas: prevention and controlKick: detection and control, equipmentExplosives: procedure and storageSIMOPS (drilling/production or drilling/construction)

safety engineering basics 0.5 dNotion of Safety BarriersGas/fire detection and associated control system

enVirOnment basics 0.25 d


purpOseTo provide a thorough understanding of drilling/completion risks, along with the methodical approach to risk analysis to prevent and mitigate their impacts

audienceYoung engineers and technicians involved or wishing to extend their knowledge in drilling and completion operations

learning ObjectiVes - To ensure high HSE standard during drilling operations

- To identify specific hazards, their associated risks during drilling/completion (operations and maintenance) and define prevention and mitigation measures to reduce risks to a minimum

- To understand and apply typical HSE management practices on site (prevention, protection, incidents reporting and analysis)


HSE: Health - Safety - Environment e-

424



5 days

ReferenceFOR / HSEEFOR / HSEF





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Directional & Horizontal Drilling Ready-to-use skills

Choosing adapted equipment

Conception of a mechanical seal

Planning of a directional well & drill stem

Directional drilling

With the ADVANCED CERTIFICATEin Directional & Horizontal Drilling

145

Drill

ing

& Co

mpl

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n


Pau Apr 18 - 22 €3,380 FOR / FDTDHE [email protected]

generalities 1 dApplications, terms and definitionsWell profiles, coordinates systemTrajectory control Uncertainty calculation, anti-collision

directiOnal drilling equipment 0.75 dSpecific drilling equipment: downhole motors, rotary steerable systemMeasuring equipment: MWD

drilling engineering 2.5 dWell planningLimits of use of a drill string: bucklingDrill string designTorque and drag calculationDrilling fluids and cementing programLoggingWell control

hOrizOntal and erd 0.25 dERD, multilateral and short radius

case studies 0.5 d

purpOseTo provide a comprehensive knowledge on how to prepare efficiently and succeed in drilling a directional well

audienceDrilling engineers, supervisors, tool pushers

learning ObjectiVes - To learn about the equipment needed for directional drilling

- To design a directional well - To calculate the trajectory of a deviated well in 2D

- To design the drill stem, with regard to a well’s profile, in order to reach a target

prerequisiteCourse E-420 “Well Architecture and Equipment”, or equivalent practical experience, is highly recommended

Ways & meansexercisesapplication to a real case (project) for participants in the “drilling and completion engineering” training course (e-412)

Directional & Horizontal Drilling Certificationsuccessful preparation and drilling of a directional welle-

425c



5 days

ReferenceFOR / FDTDHEFOR / FDTDHF





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Directional & Horizontal Drilling Ready-to-use skills

Choosing adapted equipment

Conception of a mechanical seal

Planning of a directional well & drill stem

Directional drilling

With the ADVANCED CERTIFICATEin Directional & Horizontal Drilling



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Deepwater Drilling & Development Ready-to-use skills

Subsea drilling techniques

Subsea development processes

Offshore drilling equipment

Offshore rigs

With the ADVANCED CERTIFICATEin Deepwater Drilling & Development

147

Drill

ing

& Co

mpl

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Pau May 30 - Jun 03 €3,380 FOR / OFDWE [email protected]

OffshOre specificities 3 dOffshore rig description: jack up, anchored and dynamic positioning floating platformsLimits of use of the rigsSpecific equipment for floating platformsMud line suspensionSubsea well head and equipmentBOP, BOP closing unit, risers, positioningSubsea Xmas tree and equipment

General overviewDifferent types: vertical, horizontalComparisonRunning proceduresExamples

subsea field deVelOpment 2 dTypical subsea development schematic

Tie backDeepwater stand-alone developmentSubsea field layoutProduction control system

Well architecture for deepwater wellTypical drillingCasing programs

purpOseTo provide an in-depth, practical understanding of offshore drilling techniques, operations, equipment and procedures


learning ObjectiVes - To learn about different offshore rigs - To learn about equipment specific to offshore drilling operations

- To understand the process of a subsea development

Ways & meansVideos, animationsapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

Deepwater Drilling & Development Certification

e-42

8c



5 days

ReferenceFOR / OFDWEFOR / OFDWF





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Deepwater Drilling & Development Ready-to-use skills

Subsea drilling techniques

Subsea development processes

Offshore drilling equipment

Offshore rigs

With the ADVANCED CERTIFICATEin Deepwater Drilling & Development

148


Pau Oct 03 - 07 €3,380 FOR / STUCKPIPE [email protected]

intrOductiOn, geOlOgy and rOck mechanic reminder 0.25 dStatistics about NPTRock structure, mineralogy, main characteristics of sedimentary rockRock mechanic: stress in the ground, stress effect on hole stabilityRock mechanic and hole stability exercises

drill string limits, mud and hOle cleaning reminder 0.5 dDrill string characteristics, overpull margin, buckling Mud and hole cleaning: rheology and hole trajectory influence on hole cleaningMethods to assess the quality of the hole cleaningMethods to improve the hole cleaning

causes Of stuck pipe and first actiOns 1 dDifferential stickingMechanical and wellbore geometry stickingSolids induced pack off

Warning signs Of stuck pipe Occurrence 0.25 dExample for case study: determination and analysis of causes of stuck pipe

methOds tO free the drill string 1 dDetermination of the stuck point, exercisesJarring: hydraulic and mechanical jarExercises on mechanical jar adjustmentDifferential pressure reduction, exercisesUse of lubricant pillsBack off, exercises

prOcedure fOr a fishing jOb 0.5 dDescription, function and utilization of different fishing equipment

preVentiVe measures 0.5 dHow to avoid stuck pipe and prevent drill string rupture while drilling and strippingChoices in planning fishing operation

purpOseTo provide a practical understanding of the preventive measures to implement while drilling to avoid having a pipe stuck


learning ObjectiVes - To identify warning signals of potential stuck pipe incidents or hole problems

- To understand the problems that can lead to a pipe getting stuck

- To identify and interpret efficiently any signal received while drilling

- To learn how to take evasive actions and implement preventive measures

- To learn how to deal effectively with stuck pipes

- To assess importance of teamwork, communication and accurate reporting in avoiding NPT

Stuck Pipe Prevention e-

430




4 days

Reference FOR / STUCKPIPE


149

Drill

ing

& Co

mpl

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Pau Mar 29 - Apr 01 €3,380 FLU / FLUE [email protected]

functiOns Of drilling fluids 0.5 d

physical and chemical characteristics 1.5 dSpecific gravityRheologyFiltrationAlkalinityChlorideHardness

types Of fluids 1 dWater base mudOil base mud

shale inhibitiOn 0.5 dTypes of shaleChemical and physical inhibition

mechanical and Waste treatment 0.75 dFunctionSelection of equipment and layoutSeparation rangesOverall efficiencyWaste treatment

SolidificationReinjectionDesorption

trOubleshOOting 0.75 dLosses

DetectionAnalysis and decision chartTreatment

Hole cleaningVertical wellDeviated and horizontal wells

purpOseTo provide a comprehensive understanding of drilling fluids characteristics

audienceDrilling and completion professionals involved in drilling and engineering

learning ObjectiVes - To acquire a thorough knowledge of drilling fluids and rheology

- To learn how to choose the right equipment for solid removal

- To learn how to communicate efficiently with a drilling fluid specialist

Ways & meansexercisesapplication to a real case (project) for participants in the “drilling and completion engineering” training course (e-412)

nOteTraining plan for 5 days scheduled in 4 days for public holidays

Drilling Fluids e-

441



5 days

ReferenceFLU / FLUEFLU / FLUF

drilling & completion Fluids


150


Pau Apr 04 - 08 €3,380 FLU / CIM1E [email protected]

techniques and jOb prOcedures 1 dPrimary cementingCement job designJob planning and preparationCasing runningCementing jobCementing calculations

cement and slurries 1 dCement special slurries and additivesFormulation and laboratory testsRheology of mud and slurries

special cases 1 dMultistage cement jobLinerCement plugs

cementing equipment 1 dPumpsMixersCementing head

eValuatiOn Of the cementing jOb 1 dPrinciples and interpretation of the cement logs

ThermometrySonic (CBL - VDL)Ultrasonic (USIT)

Log analysis on a real case

purpOseTo provide the knowledge and skills needed to design a cementing program

audienceEngineers, supervisors, and lab professionals involved or interested in cementing programs

learning ObjectiVes - To master the vocabulary specific to cementing

- To understand and use primary cementing techniques and procedures

- To select cement and necessary additives

- To calculate major parameters in a cementing operation

- To assess the quality of a cementing job

Ways & meansexercises, videosapplication to a real caseVisit of a laboratoryapplication to a real case (project) for participants in the “drilling and completion engineering” training course (e-412)

Cementing Practices e-

443


drilling & completion Fluids


5 days

ReferenceFLU / CIM1EFLU / CIM1F


151

Drill

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mpl

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Pau Feb 22 - 26 €3,380 PRO / PPLCTE [email protected]

necessary fundamentals Of reserVOir engineering fOr cOmpletiOn 1 dMain parameters about the rock-fluid couple: porosity, permeability, saturationMeans of reservoir knowledge: core, logging, well testPVT study: PV diagram, PT diagram, terminology (bubble point, dew point, Rs, Bo, Bg, GOR, WOR...)Drainage mechanisms: primary, secondary and enhanced recovery

cOmpletiOn fundamentals 0.5 dCompletion: operations involved, main phasesMain factors influencing completion designCompletion configurations: fundamental requirements, main configurations

Well prOductiVity (part 1) 1 dFundamentals: overall approach of the well flow capacity

Inflow (study of the bottomhole pressure from the upstream side): main parameters, Productivity Index (PI), global skin and flow efficiencyOutflow (study of the bottomhole pressure from the downstream side): case of oil wells and case of gas wellsAnalysis of inflow and outflow performance curves, need for artificial lift

reserVOir WellbOre interface implementatiOn (excluding “Wellbore treatments”)

1 d

Specific aspects linked to drilling and cementing the pay zonePerforating: main techniques, key parameters for productivitySpecific case of horizontal drains

Well prOductiVity (part 2) 1 dAdditional information about PI

Productivity index and flow regimeInflow performance below bubble point pressure (IPR)

Additional information about skinComponents of completion skinDamage skin estimation

summary nOte 0.5 d

purpOseTo provide the knowledge and skills needed to optimize the reservoir-wellbore interface and well productivity

audienceYoung engineers involved in drilling/completion, supervisors in charge of drilling pay zone, and production professionals concerned with well productivity

learning ObjectiVes - To choose a reservoir-wellbore interface adapted to the conditions encountered in the reservoir

- To detect problems holding down productivity and select adequate solutions

Ways & meansnumerous exercises on the influence of key parameterssummary notes prepared and presented by the participantsapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

Well Productivity & Reservoir - Wellbore Interface e-

451

coordinator: Tammam Hammad


5 days

ReferencePRO / PPLCTEPRO / PPLCTF

drilling & completion Completion


152


Pau May 17 - 20 €3,380 PRO / CEPE [email protected]

Well testing fundamentals 0.5 dPrinciple and objectives of well testingBasic data for predevelopment studiesFundamentals of fluid flow in porous media

drill stem test, perfOratiOn and Well testing equipment reVieW 2 dPrinciple of DST operationPrinciple of perforation operation

Perforation methodologyEquipment selection versus well configuration and objectivesPerforation tools demo (movie)

DST string versus rig typesPrinciple of DST String versus well testing objectivesComposition of different DST strings

Principle of DST StringDST String type composition reviewDST tools demo (movie)

Well testing operation and surface set upSurface equipment and set upWell testing sequences of operationSurface well testing equipmentWell testing HSE conceptData acquisitionSamplingWell testing calculations

prOgram implementatiOn, OrganizatiOn and respOnsibilities, Well abandOnment, dst in subsea enVirOnment

2.5 d

DST operations and well test program implementationStandard procedures reviews versus DST string typeRunning in hole the DST stringBrine selection and weightSelection of the ΔP on the formationOperation instructions reviewSamplingCases studies

Organization on board of the rig, roles and responsibilitySafety instructionsContingency plan

Well abandonment after DST operationWell killing operationWell abandonment and safety concerns

Principle of DST operation in subsea environmentDeep water DST operations subsea equipmentDeep water DST operationsDeep water environment operation impact: wax deposition, paraffin, hydratesDeep water operations contingency planDST tools demo (movie)

purpOseTo provide the required comprehensive knowledge and skills for implementing well tests

audienceDrilling and production engineers, supervisors involved in well test operation; reservoir engineers

learning ObjectiVes - To write an operational well test program with regard to the reservoir engineer’s requirements

- To select the required well test equipment

- To supervise the well test operation

Ways & meansseveral practical examples and case studies

nOteThis course can be delivered in French,with documentation in EnglishKindly refer to the complementarycourse which might be of interest:“Well Test Analysis” (E-365)Training plan for 5 days scheduled in 4 days for public holidays

Well Test Operation e-

452




5 days

Reference PRO / CEPE


153

Drill

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mpl

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Pau Feb 29 - Mar 04 €3,380 PRO / EQTPEE [email protected]

Well-cOmpletiOn equipment 1.5 dFunctions to be carried out and corresponding equipmentProduction string(s) configurations (conventional or tubing less, single or multi-zones)Production wellhead: tubing head spool and Christmas tree (components, design)Tubing & connections (main characteristics, criteria of choice)Packers and accessories (drillable or permanent, retrievable)Bottom hole devices (landing nipples, circulating devices...) and relevant wire line equipmentSubsurface safety valve (subsurface controlled, surface controlled)

fundamentals Of tubing mOVement & fOrces 1 dPoint to be verifiedPacker permitting free motion (tubing movement, tension on the tubing hanger)Packer permitting no motion (packer to tubing force, tension on the tubing hanger)

Well-cOmpletiOn preparatiOn & implementatiOn 1.5 dPreparing for operationsSafety recommendations during completion operationsStandard running-in and start-up steps

Case of a packer set directly with the tubing stringCase of a packer set prior to the running-in of the tubing string

Operating recommendations

adVanced cOmpletiOn 1 dTubing less completionIntelligent completionMultilateral completionDeep water completionSingle trip multizones gravelpack system

purpOseTo provide the knowledge and skills needed to choose and operate completion equipment for flowing wells

audienceDrilling or production engineers, supervisors involved in completion

learning ObjectiVes - To assess which equipment is required in a conventional case

- To design the corresponding completion procedure

- To acquire know-how needed to work on complex completion issues with specialists

Ways & meansequipment and cutaway tools display in paufor in-house courses held elsewhere, inasmuch as a completion shop is made available, a visit will be organized to the said shopsummary notes prepared and presented by the participantsapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

Well-Completion Equipment & Procedures for Flowing Wells e-

453



5 days

ReferencePRO / EQTPEEPRO / EQTPEF



154


Pau Mar 07 - 11 €3,380 PRO / TRAITE [email protected]

intrOductiOn tO WellbOre treatments 1 dFundamental reminders on productivity index (PI), the skin effect and flow efficiency, the different components of the skinProductivity issues: cause of low productivity, nature and origins of well damage, location of problems and possible solutionsDamage due to fluids: mechanisms, prevention

matrix treatment: acidizing... 1 dAims; how it worksCarbonate rocks and sandstones; inner characteristics, reactivity to injected fluidsChoosing the acids and the additivesChoosing the wells to be treatedDesign: preparation, checks and guidelines during the operation, after the acidizing (flow back...), possible cause of failure, coiled tubing...

hydraulic fracturing 1 dAims and principles; candidate wellsFrac fluids and fracture proppingCalculation models and frac impact on PIDesign; program, frac evaluationOther cases: pre-frac, minifrac, acid frac

sand cOntrOl 1 dBasics: consequences of sand, prediction of sand, sand analysisSand control techniques; case of mechanical processes (determining the gravel and the screens...)Design: cased hole gravel packing, openhole gravel packing, preparing the gravel pack, various methods, guidelines

Water Or gas shut-Off and depOsits 0.5 dOrigin of the problemsRemedial

summary nOte 0.5 dDebate around several examplesCase study

purpOseTo provide knowledge and skills needed to examine well damage issues and take appropriate actions

audienceDrilling or completion engineers, supervisors, lab or production professionals, non-specialists in wellbore treatment

learning ObjectiVes - To identify the nature and the origins of well damage

- To choose the adequate stimulation method

- To learn how to deal with sand production and water coning

Ways & meansanimations - exercisesVisit of a rock mechanics and reservoir-wellbore interface laboratoryapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

nOteKindly refer to the following complementary courses which might be of interest: “Matrix Acidizing” (E-456) and “Basic Hydraulic Fracturing”(E-457)

Wellbore Treatments e-

455

coordinator: Rémi Ferrière Tammam Hammad



5 days

ReferencePRO / TRAITEPRO / TRAITF


155

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Pau Mar 14 - 18 €3,380 PRO / TAWOE [email protected]

artificial lift by cOntinuOus gas lift 1 dContinuous gas lift: principle, well unloading, operating procedure and troubleshooting, field of application

artificial lift by pumping 1 dSucker rod pumping, Electrical Submersible centrifugal Pumping (ESP): principle, specific completion equipment, operating procedure and troubleshooting, field of application

types and means Of interVentiOn On prOducing Wells 1 dMains types of intervention: measurement, maintenance, workoverMain means (wire line unit, coiled tubing unit, snubbing unit, workover rig): principles, area of application

general prOcedure Of a WOrkOVer 0.5 dMain operation steps: chronology, more tricky operations from a safety point of view, main operationsCase of depleted reservoirs: losses and formation damage, kick-off after the workover

Well killing prOcedure fOr a prOducing Well 1 dKilling the well by circulation: area of application, basis procedures (direct or reverse circulation), elaboration of the forward-looking pumping diagramKilling by squeeze: area of application, basis procedure, elaboration of the operating program, case where the injectivity test is unsatisfactory, squeeze and bleed-off methodFinal killing phase: observing the well, operations to run after packer “unsetting”

case study: WOrkOVer prOgram 0.5 d

purpOseTo provide a comprehensive knowledge of artificial lift, workover implementation and killing procedures for a producing well

audienceParticipants attending the training program “Drilling and Completion Engineering” (E-412)

learning ObjectiVes - To choose the adequate artificial lift method with regard to some specific operational problems

- To choose the adequate well intervention method with regard to some specific operational problems

- To define a well killing program (pumping diagram)

Ways & meansexercises on key parameters of artificial liftdesign of a pumping diagram for killing a wellcase study for a workover program with an interactive gameapplication to a real case (project) for the participants in the “drilling and completion engineering” training course (e-412)

nOteKindly refer to the following complementary courses which might be of interest: “Artificial Lift: Gas Lift” (E-459), “Artificial Lift: Pumping” (E-460) and “Well Servicing and Workover” (E-462)

Artificial Lift & Well Intervention Fundamentals e-

458



5 days

ReferencePRO / TAWOEPRO / TAWOF



156


intrOductiOn 2.5 h

Well production optimizationPROSPER™ software

characterizatiOn Of reserVOir fluids - pVt 2 hGoal and application of PVT studiesMain oil and gas propertiesPROSPER™ software PVT module

inflOW perfOrmance relatiOnship 6.5 hModeling of flows in a porous mediumModeling of the reservoir-wellbore interfaceIPR calculation in the case of oil and gas reservoirsSpecific case of horizontal and deviated wells

natural flOWing Wells 7 hIntroduction to the specificities of multiphase flowsChoice of the adequate correlationModeling outflow performanceNodal analysis of a reservoir well system

artificial lifted Wells 4.5 hIntroduction - Using the nodal analysisGas Lift system: description and designElectrical Submersible Pump (ESP): presentation and designOverview of other artificial lift methods

Well perfOrmance diagnOsis 2.5 hProduction rate analysis of well flowing naturallyProduction rate analysis of well activated with GL or ESP

cOnclusiOn / case study 7 h

purpOseTo deepen knowledge of well lift optimization and master use of the software program Prosper

audienceReservoir or well performance engineers and technicians

learning ObjectiVes - To build a PVT model which will be used in a well performance study

- To analyze the link between reservoir characteristics and production

- To understand how wells can produce naturally

- To understand the main artificial lift methods and their use

- To model and understand crucial parameters of well performance

- To identify reasons for poor well performance

Ways & meansmultimedia online learning with personal coachingbefore training starts, 2 hours are dedicated to introduce the training agenda, methods and toolsthe exact needs and expectations of each participant are also assessed and discussed (mcq and phone interview with the tutor)during the training, individual phone contact with the tutor and web conferences with other participantsuse of the software program prOsper™ (license not provided)

nOteTotal duration of the training is 32 hours, spread over an 8-week period

Well Inflow & Outflow Performancee-learning with remote personal coachinge-

465

coordinator: Tammam Hammad Catherine Ulrich (Blended Learning)



Reference PRO / BLPROSPER



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Pau Mar 14 - 18 €2,490 WEL / FPESME3-4 [email protected]

Pau May 23 - 27 €2,490 WEL / FPESME3-4 [email protected]

Pau Sep 05 - 09 €2,490 WEL / FPESME3-4 [email protected]

initial assessment On hydrOstatics and dynamics 0.25 d

pressure analysis and kick cOntrOl 0.75 dReminders on hydrostatics and pressure lossesRelations between pressures in the wellReminder on gas lawPore pressure: causes and signs indicating abnormal pore pressureFrac pressure: definition, determination, MAASPCauses and signs of a kick, influence of the drilling mud typePrecautions to be taken to avoid kicks

Well cOntrOl 1.75 dProcedures to follow in case of a possible kick during drilling or trippingWell shut-in methods: hard and soft methodsObservation and evolution of pressures when shutting in the wellDetermining stabilized pressuresPreliminary calculationsDifferent methods used to control a kick

Driller’s methodWait and Weight method

Comparison of the methods

particular cases 0.25 dIncidents when circulating a wellCase of shallow gasVolumetric methods

reminders On the equipment 0.5 dBOP: types, testsKoomey unitAncillary circuit: choke, manifold, mud-gas separatorEquipment testing

exercises 0.25 dPractice on a simulator, training for the IWCF certificateExercises on theory, kill sheet and equipment (exercises done by a group of participants while another one is training on the simulator)

subsea specificities 0.25 dFriction losses in the choke lineConsequences on well control: start, gas in the choke line, end of circulationSpecific equipmentIn the meantime, participants in the surface BOP course will do exercises

iWcf certificatiOn 1 dPrinciples & procedures test and equipment testAssessment on a simulator

purpOseTo provide an understanding of kicks and well control methods

audienceDrilling engineers, supervisors, tool pushers, drillers, assistant drillers who have passed level 2

learning ObjectiVes - To understand and identify what causes kicks

- To learn about methods and equipment used to secure a well after the occurrence of a kick

- To learn about well control methods when circulating the well

- To detect incidents during well control and take appropriate actions

- To practice on a simulator - To pass the IWCF “Surface BOP Stack” or “Combined Surface/Subsea BOP Stack” Test

prerequisiteThe trainees, to reach this certification level, must: - passed successfully the level 2 for more than 28 days

or - passed successfully the level 3 or 4 for less than 4 years

Ways & meansapplication exercises, exercises on a simulator with the assistance of two trainers

Well Control - Level 3 or 4iWcf “combined surface/subsea bOp” certification IWCF certified training centere-

471



5 days

ReferenceWEL / FPESME3-4WEL / FPESMF3-4

drilling & completion Well Control


158


Pau May 30 - Jun 03 €3,380 WEL / WELINE [email protected]

basic principles and Well fundamentals 0.5 dPhysics applied to the well

Hydrostatic pressuresSpecific gravitiesDensitiesPressure gradientPore pressureOver/underbalance…

cOmpletiOn equipment 0.5 dDifferent types of completionSpecific equipment as

PackersSCSSVSide pocket mandrelsCasing, tubingTubing hangerXmas tree…

different types Of interVentiOn With their respectiVe equipment 1.5 dWire line intervention

Slick line - BOP - Lubricator - Stuffing box - Tool trap - …

Braided line, e-line - Double BOP - Grease injection system - Tool trap, tool catcher - …

Coiled tubingDifferent types of BOP, strippersProblem during the interventions, interpretation and decision

SnubbingBOP, types and stacksSpecific constraintsProblem during the interventions, interpretation and decision

pressure cOntrOl applied tO cOmpletiOn and Well interVentiOn 2 dBarriers, pressure testsWell calculation (pressure, volume, kill fluid, pumping time, balancing the pressure at the circulating device…)Shut in proceduresKill methods (direct or reverse circulation, bull heading, lubricate and bleed…)Specific problems linked to producing wells (thief zones, losses, plugging, migration, hydrates…)Responsibilities, decision making

iWcf certificatiOn 0.5 d

purpOseTo provide an understanding of well intervention and pressure control techniques, with the skills to plan, supervise and carry out well intervention

audienceEngineers and technicians, who have to plan, supervise or carry out well intervention

learning ObjectiVes - To understand the behavior of a producing well

- To learn about the equipment used in wire line, coiled tubing and snubbing

- To grasp safety barrier principles - To learn about the equipment, and acquire the methods used to control well pressure

- To pass the IWCF “Well Intervention” Test

nOteCourse content can be expanded to 2 weeks for a tailor-made program

Well Intervention & Pressure ControliWcf “Well intervention” certification IWCF certified training centere-

473


drilling & completion Well Control


5 days

ReferenceWEL / WELINEWEL / WELINF


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Drilling/Completion

E-405C Wells Operations & Completion Engineering Certification Graduate Certificate ...................................................................................... p. 255

Drilling

E-426 Geomechanics for Drilling Operations ................................................................. p. 256

E-429 Wellhead & Blowout Preventers .......................................................................... p. 256

Fluids

E-444 Advanced Cementing Practices ......................................................................... p. 256

Completion

E-454 Tubing movement & forces ................................................................................. p. 257

E-456 Matrix Acidizing .................................................................................................. p. 257

E-457 Basic Hydraulic Fracturing .................................................................................. p. 257

E-459 Artificial Lift: Gas Lift ........................................................................................... p. 258

E-460 Artificial Lift: Pumping ......................................................................................... p. 258

E-461 Nitrogen & Coiled Tubing Operations in Completion & Workover ........................ p. 258

E-462 Well Servicing & Workover .................................................................................. p. 259

E-463 Well Performance ............................................................................................... p. 259

E-464 Advanced Well Performance .............................................................................. p. 259

E-465 Well Inflow & Outflow Performance ..................................................................... p. 260

E-468 Unconventional Reservoirs Completion & Stimulation ......................................... p. 260

Well Control

E-470 Well Control - Level 2 ......................................................................................... p. 261

E-477 Stripping ............................................................................................................ p. 261


f Operation of Production Facilities ........... p. 163 to 180

f HSE - Health, Safety & Environment ....... p. 181 to 187

f Equipment, Maintenance, Inspection ...... p. 188 to 197

f Process & Layout Engineering ................ p. 198 to 199

f In-House Training .................................... p. 200 to 201


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Rueil Oct 10 - 11 €1,590 PROD / PRODCHAIN [email protected]

The oil and gas chain: producTion posiTion 0.5 dPositioning of the production in the value E&P chainWorld Primary production Issues and technical constraints

Conventional resourcesUnconventional resources

Job descriptions and skills for production activities

onshore & offshore producTion 0.5 dTechnical specifications, operating modesOperating patterns and mapping fieldsTechnical architecturesOrganization (remote site, extreme conditions, manning, shift…)Case studies: FPSO, wet gas field (onshore), oil fields operated with reinjection, remote control room, early production facilities…

from well To exporT poinT 1 dFrom reservoir to wellhead: hydrocarbons and well effluent behaviorWell techniques, production techniques and well servicingSurface facilities & treatment operationsMetering and expeditionHealth Safety & Environment, sustainabilityBudgets (CAPEX, OPEX) during the life cycle of a production field

purposeTo provide an introduction to oil and gas production, along with a glossary of terms, covering fundamentals of technology, chain structure from well to export terminal, skills and job positions involved in operating production facilities

audienceNon-technical staff or technical professionals not directly involved in hydrocarbons production (managers, executives, technicians, staff of human resources, finance of projects departments…)

learning objecTives - To understand the different phases of the oil and gas production process

- To grasp the specific issues of offshore oil and gas production

- To understand organizations, skills and job positions involved in operating production facilities

- To acquire a complete view of the oil and gas production chain, stretching over technical, business and economic issues

ways & meanscourse delivered by industry specialistsnumerous illustrations and case studies

Fundamentals of Production e-

500

coordinator: Benoît Rabaud


2 days

ReferencePROD / PRODCHAINPROD / CHAINPROD

field operations & hse Operation of Production Facilities


164


Pau May 30 - Jun 03 €3,370 PROD / IPS [email protected]

Rueil Jun 20 - 24 €3,370 PROD / OGFP [email protected]

Port-Gentil Sep 19 - 23 €3,730 PROD / IPS [email protected]

Rueil Nov 28 - Dec 02 €3,370 PROD / OGFP [email protected]

fundamenTals of reservoir, drilling and compleTion 0.5 dReservoirs: types, exploration techniquesDrilling principle – Case of offshore drillingMain completion equipment – Principle of artificial lift by pumping, Gas Lift…Enhanced Oil Recovery (EOR): aim and principle of the main techniques

well effluenT behavior - need for effluenT field processing 0.5 dDifferent types of well effluent - Main characterization parametersLiquid/Vapor equilibrium of pure substances and mixtures – Vapor pressure curves and phase envelopesConstituents that pose problems for storage, transport, or commercialization/utilization of crude oils and natural gasesMain specifications to be respected and required treatments

crude oil processing 1 dCrude stabilization by Multi Stage Separation (MSS) - Foaming problems and main available solutionsCrude dehydration and desalting - Emulsion problems and main treatments availableCrude sweetening (H

2S removal)Examples of oil treatment and associated gas recompression process schemes

producTion and injecTion waTer TreaTmenT 1 dQuality requirements for rejected water - Environment related constraintsMain necessary treatments: API oil-water separators, plate separators, floatators, hydrocyclones…Reasons for water injectionQuality requirements and necessary treatments: chlorination, filtration, oxygen removal, sulfate removalExamples of process schemes for production and injection water treatment

gas processing and condiTioning - fundamenTals of lng 2 dHydrates formation prevention and inhibition: injection of MeOH, MEG, DEG, Low Dosage Hydrate Inhibitor (LDHI)Gas dehydration: TEG units, solid desiccants (molecular sieves) unitsGas sweetening - Acid components (H

2S and CO2) removal: amine units, molecular sieves, membranesNatural Gas Liquids (NGL) extraction: use of cryogenic refrigeration, Joule-Thompson expansion, Turbo-expanderFundamentals of Liquefied Natural Gas (LNG) chain

purposeTo provide a comprehensive overview of oil and gas field processing technology

audienceEngineers and technicians interested, although not directly involved, in day-to-day oil and gas field processing operations: reservoir engineers, drilling and completion personnel, platform designers, petroleum architects, equipment suppliers, economists...

learning objecTives - To list main characteristics of oil and gas well effluents

- To assess problems induced by unwanted compounds in well effluents

- To understand and explain field treatment of oil and gas streams and processes technology

- To grasp fundamentals of oil and gas field processing operations and related operating conditions

- To ascertain the treatment processes necessary for production water and injection water

ways & meanscourse delivered by industry specialistsnumerous applications and illustrations

Oil & Gas Field Processingfield treatments of oil & gas well effluente-

501

coordinator: Alexandre Scondo



5 days

ReferencePROD / OGFPPROD / IPS


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Pau May 30 - Jun 10 €6,380 PROD / PIPS [email protected]

Rueil Jun 20 - Jul 01 €6,380 PROD / FPSPF [email protected]

Rueil Nov 28 - Dec 09 €6,380 PROD / FPSPF [email protected]

fundamenTals of reservoir, drilling and compleTion 0.5 dReservoirs: types, exploration techniquesDrilling principle – Case of offshore drillingMain completion equipment – Principle of artificial lift by pumping, Gas Lift…Enhanced Oil Recovery (EOR): aim and principle of the main techniques

well effluenTs behavior - need for effluenT field processing 0.5 dDifferent types of well effluent - Main characterization parametersLiquid/Vapor equilibrium of pure substances and mixtures – Effluent behaviorConstituents that pose problems for storage, transport, or commercializationMain specifications to conform with and required treatments

crude oil processing 1 dCrude stabilization by Multi Stage Separation (MSS) - Foaming problemsCrude dehydration and desalting - Emulsion problemsCrude sweetening (H2S removal)Examples of oil treatment and associated gas compression process schemes

producTion and injecTion waTer TreaTmenT 1 dRejected water: environmental constraints and required treatmentsInjection water: aim, quality requirements and required treatmentsExamples of process schemes for production and injection water treatment

gas processing and condiTioning 2 dHydrates formation prevention and inhibition: injection of MeOH, MEG, DEG, Low Dosage Hydrate Inhibitor (LDHI)Gas dehydration: TEG units, solid desiccants (molecular sieves) unitsGas sweetening - Acid components (H2S and CO2) removal: amine units...Natural Gas Liquids (NGL) extraction: use of cryogenic refrigeration, Joule-Thomson expansion, or Turbo-expanderFundamentals of Liquefied Natural Gas (LNG) chain

case of offshore developmenTs - flow assurance 1 dOffshore production structures: jacket, semi-submersible, Spar, TLP, FPSO...Storage and offloading vessels (FSO, FPSO, FPU, buoy...)Deep offshore developments - Examples of subsea architectureFlow Assurance: problems of slug, erosion, hydrate formation, deposits (paraffins, asphaltenes, naphtenates, carbonates, sulfates, salts...) - Main preservation techniques and pigging solutions

roTaTing machinery 1 dClassification and main types of pumps and compressors - Selection criteriaTurbo-expanders and gas turbinesTechnology and main uses for each type of rotating machineryOperating principle

Thermal equipmenT 0.5 dHeat exchangers, Air coolers, Furnaces, Heaters, fire tubes: types, operation, technology

fundamenTals of corrosion 0.5 dDifferent types of corrosion, prevention and monitoring

insTrumenTaTion & process conTrol - safeTy sysTems 1 dElements constituting a simple process control loop - Cascade and split-range loops - DCSTechnology and working principle of sensors, transmitters and control valvesSafety Systems: HIPS, ESD, EDP, F&G, USS

meTering and allocaTion 1 dImportance of metering and production allocationTransactional metering of liquids and gasSingle-phase meteringCalibration of metering installations on test benchCalculators: corrections, conversion into standards volumesMulti-phase metering: advantage, principle and fields of application

purposeTo provide a comprehensive understanding of onshore and offshore oil and gas field processing techniques, along with a knowledge of technology and operating principles of surface production facilities equipment

audienceEngineers and technicians interested in onshore and offshore oil and gas field processing technology and equipment

learning objecTives - To grasp fundamentals of oil and gas production techniques

- To understand operating principles and conditions of oil, water and gas treatment

- To learn about the technology of main equipment and specifities of offshore production techniques

- To ascertain fundamentals of process control and to draw a typical safety system layout

- To understand main metering techniques, corrosion issues, its prevention and monitoring

ways & meansvery interactive training by industry specialistsnumerous applications and illustrations

Field Processing & Surface Production Facilitieseffluent treatment and equipment technologye-

502



10 days

ReferencePROD / FPSPFPROD / PIPS





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Advanced Oil & Gas Field Processing Ready-to-use skills

With the ADVANCED CERTIFICATEin Advanced Oil & Gas Field Processing

Thermodynamic transformations

Knowledge of Oil & Gas processing facilities

Operating variables & conditions of processing facilities

Troubleshooting of Oil & Gas facilities

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Rueil Sep 19 - Oct 07 €9,450 PROD / ADVGB [email protected]

module 1: Thermodynamics applied To well effluenT processing (cf. e-504)

5 d

Well effluentIdeal and real fluid behaviorLiquid-Vapor equilibrium of pure substances

Vapor pressure curvesEnthalpy diagramsProII simulation exercises

Liquid-Vapor equilibrium of mixtures - Mixture separation processesPhase envelopesFlash, Distillation, Absorption, StrippingProII simulation exercises

module 2: oil and waTer TreaTmenT (cf. e-505) 5 dNeed for field processing of oil - Quality requirementsCrude oil treatment

Crude stabilizationCrude dehydrationAcid crude sweeteningCrude oil treatment process simulation using ProII

Production water treatmentRegulation for disposalMain treatments

Injection water treatmentQuality requirementsMain treatments

module 3: gas processing and condiTioning (cf. e-506) 5 dNeed for field processing of gas - Quality requirementsGas processing

Gas dehydrationGas sweeteningNGL extractionSimulation of a gas processing chain using ProII

Liquefied Natural Gas (LNG)

purposeTo deepen understanding of oil and gas field processing techniques

audienceEngineers involved in operating or designing oil and gas field processing facilities

learning objecTives - To understand main thermodynamic transformations involved in oil and gas processing

- To grasp a comprehensive picture of oil and gas processing facilities

- To simulate main oil and gas facilities - To master operating variables and conditions of processing facilities

ways & meanshighly interactive training with industry-specialist lecturersnumerous applications and illustrationsextensive practice of proii process simulation software: a case study will be developed all along these 3 weeks (simulation of a crude oil and associated gas treatment process)

noTeThe course is a combination of three separate modules Refer to next pages for detailed content

Advanced Oil & Gas Field Processing Certification

e-50

3c



15 days

ReferencePROD / ADVGBPROD / ADVFR





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Advanced Oil & Gas Field Processing Ready-to-use skills

With the ADVANCED CERTIFICATEin Advanced Oil & Gas Field Processing

Thermodynamic transformations

Knowledge of Oil & Gas processing facilities

Operating variables & conditions of processing facilities


168


Rueil Sep 19 - 23 €3,310 PROD / ADV1GB [email protected]

well effluenT 0.5 dConstitution and physical states of matterConstituents of well effluents: hydrocarbons, impurities, water, sediments...Different types of effluents: black oil, light oil, volatile oil, condensate gas, dry gas...Characterization parameters: GOR, CGR, BSW, WOR, Water Cut, Bo, Bg, B’g...Examples of compositions of crude oil and natural gas effluent

ideal gas and real fluid behavior 0.5 dIdeal gas behaviorBehavior of real fluids: compressibility factor, Amagat’s law, law of corresponding state with two and three parametersEquations Of State (EOS): conception, uses, examples, selection

gas compression and expansion 1 dPractical gas compression and expansion lawsExercise: Compression of propaneProII simulation: Propane compressor

liquid-vapor equilibrium of pure subsTances 1 dVapor pressure curvesOverall phase diagram of a pure substance (three dimensions: P, T and V)Enthalpy diagrams of pure substancesExercises: Vapor pressure and boiling points of pure components - Vapor pressure and boiling point - Case of a column ProII simulation: Propane Cryogenic Loop

liquid-vapor equilibrium of mixTures - mixTure separaTion processes 2 dPhase envelopesWell effluents behavior from pay zone to surface processing facilitiesTechniques applied to mixture separation: flash process, distillation processAbsorption and stripping phenomenaExercises: Equilibrium coefficients (K values) and relative volatility - Vapor pressure of a mixture of hydrocarbons - LPG recovery by physical absorptionProII simulation: Mixture Separation by distillation - LPG splitter

purposeTo provide a thorough understanding of thermodynamics principles underlying operation and design of oil and gas processing facilities

audienceEngineers involved in operating or designing oil and gas field processing facilities

learning objecTives - To learn about oil and gas well effluents composition, properties and characteristics

- To grasp ideal gas law and real fluid behavior and characterization methods

- To comprehend liquid-vapor equilibrium of pure substances and mixtures

- To master the operating principles and performances of mixture separation processes

- To understand gas compression and gas expansion laws

- To perform simulations with ProII and master the fundamentals of Equations Of State

ways & meanshighly interactive training with industry-specialist lecturersnumerous applications and illustrationsextensive practice of proii process simulation software

advanced oil & gas field processing

Module 1: Thermodynamics Applied to Well Effluent Processingfluid behavior - mixture separation - gas compressione-

504




5 days

ReferencePROD / ADV1GBPROD / ADV1FR


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Rueil Sep 26 - 30 €3,310 PROD / ADV2GB [email protected]

need for oil field processing - qualiTy requiremenTs 0.25 dConstituents raising problems for storage, transport, or crude oil saleDifferent specifications and quality requirements of crude oilsNecessary treatments to reach these specificationsExamples of compositions of commercialized crude oils

crude oil TreaTmenT 2.75 dCrude stabilization by Multi Stage Separation (MSS)

Process principleOperating parameters: number of separation stages, pressures, heating and cooling needs... - Influence on the quantity and quality (API grade) of the produced oilFoaming problems and main available solutionsAssociated gas recompression - Typical associated gas compression schemesApplications: practice of separator summary design methodsProII simulation: study of the influence of separation stage number on the performances of a MSS process

Crude dehydration and desaltingEmulsion problemsMain dehydration processesCrude oil desaltingApplications: practice of desalter summary design methods

Acid crude sweetening (H2S removal)

Cold stripping: origin of stripping gas, need for sweetening of stripping gasHot strippingApplications: practice of stripping column summary design methodsProII simulation: simulation of a crude oil stripping units case study

Case study: Simulation of a whole crude oil field treatment plant - Study of an offshore crude oil field treatment unit, based on a Multiple Stage Separation (MSS) process scheme - Optimization of the operating parameters

producTion waTer TreaTmenT 1 dRegulations for disposalMain treatments - Operating principle and required performancesComparison of the different available techniques - Selection criteriaExamples of production water treatment block flow diagrams

injecTion waTer TreaTmenT 1 dReasons for water injectionQuality requirements and necessary treatmentsMain operating conditions of each treatment and required performancesExamples of injection water treatment block flow diagrams

purposeTo provide a comprehensive understanding of oil and water treatment processes, operation and troubleshooting

audienceEngineers involved in operating or designing oil and water field processing facilities

learning objecTives - To assess various problems that can be induced by unwanted elements and compounds in crude oil streams

- To master oil and water treatment processes, operations and related operating conditions

- To design main equipment used for oil processing

- To ascertain main operating problems encountered in oil and water processing and related solutions

- To simulate crude oil treatment processes using the ProII software

prerequisiTeIt is highly recommended to attend Module 1 first (cf. E-504)

ways & meanshighly interactive training with industry-specialist lecturersnumerous applications and illustrationsextensive practice of proii process simulation software


Module 2: Oil & Water Treatmentsizing - simulation - operatione-

505



5 days




170


Rueil Oct 03 - 07 €3,310 PROD / ADV3GB [email protected]

need for field processing of gas - qualiTy requiremenTs 0.25 dConstituents raising problems for storage, transport, or end use of natural gasDifferent specifications and quality requirements for natural gasNecessary treatments to conform these specificationsExamples of compositions of commercialized natural gases

gas dehydraTion (drying) and hydraTe formaTion inhibiTion 1.25 dSystem behavior - Moisture content of a saturated gas

Applications: moisture content of different gases of various compositionsHydrate formation inhibition by injection of inhibitors: MeOH, MEG, DEG, LDHI...Gas dehydration processes: TEG units, Molecular Sieves...Application: summary design of TEG unitProII simulation: simulation of TEG unit

gas sweeTening: removal of acid componenTs (h2s and/or co2) 0.75 dOverview of the techniques dedicated to gas sweetening

Chemical solvent processes - Amine units (MEA, DEA, DGA, MDEA…)Physical solvent processesHybrid (physico-chemical) solvent processesOverview of other techniques

Conversion of H2S: sulfur production (CLAUS process) and tail gas processingApplication: summary design of an amine unit

naTural gas liquids (ngl) exTracTion (removal of heavy components) 0.75 dExternal refrigeration loopJoule-Thomson expansionTurbo-ExpanderApplication: calculation of cryogenic loop used for extractionProII simulation: simulation of NGL extraction unit - Process selection

case sTudy: simulaTion of a whole naTural gas field processing planT 1 dStudy of a natural gas dehydration, NGL extraction and compression unit - Optimization of the operating parameters - Analysis of hydrate formation risks

liquefied naTural gas (lng) 1 dLiquefaction processes: operating principle, typical operating conditions, technology of specific equipment (plate fin heat exchangers, spiral-wound heat exchanges, refrigeration loop compressors...), power consumption...LNG storage and transport: storage tanks, LNG carriers, jetty, loading arms...Safety considerations specific to natural gas liquefaction plantsIndustrial examples of natural gas liquefaction units

purposeTo provide a comprehensive understanding of gas treatment processes, operation and troubleshooting

audienceEngineers involved in operating or designing gas field processing and conditioning facilities

learning objecTives - To assess various problems induced by unwanted elements in natural gas streams

- To master gas treatment and liquefaction processes, operations and related operating conditions

- To perform hand calculations for summary design of main gas processing equipment

- To ascertain main operating problems encountered in gas processing and conditioning and related solutions

- To simulate natural gas treatment processes using the ProII software

prerequisiTeIt is highly recommended to attend Module 1 first (cf. E-504)

ways & meanshighly interactive training by industry-specialist lecturersnumerous applications and illustrationsextensive practice of proii process simulation software


Module 3: Gas Processing & Conditioningsizing - simulation - operatione-

506




5 days



171

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Rueil Sep 26 - 30 €3,370 PROD / GAZNAT [email protected]

Rueil Oct 10 - 14 €3,370 PROD / NATGAS [email protected]

naTural gas: Types and producTion Techniques 0.75 dTypes and characteristics of natural gas fields - Production techniquesDifferent types of natural gases (condensate, wet or dry gas) and characterization parametersConstitution of natural gas well effluent, properties and specific hazardsCase of associated gases: recovery techniques, characteristics, composition, etc.

end uses of naTural gas - main qualiTy requiremenTs 0.25 dEnd uses of natural gases: fuel (domestic and industrial uses), conversion into other energy types (electricity production and cogeneration), automotive fuel (Natural Gas for Vehicles - NGV and conversion into liquid automotive fuels GTL), chemical valorization, etc.Quality requirements for commercial natural gases and associated products (ethane, LPG, condensates) - Examples of quality standards

naTural gas processing 2 dGas dehydration (drying) and Hydrate formation inhibition

System behavior - Moisture content of a saturated gasApplications: moisture content of different gases of various compositionsHydrate formation inhibition by injection of inhibitors: MeOH, MEG, DEG, LDHI, etc.Gas dehydration: TEG units, Molecular Sieves, etc.Application: summary design of TEG unit

Gas sweetening: removal of acid components (H2S and/or CO2)

Different techniques applicable for gas sweetening: - Chemical solvent processes - Amine units (MEA, DEA, DGA, MDEA, etc.) - Physical solvent processes - Hybrid (physico-chemical) solvent processes - Overview of other techniques

Conversion of H2S: sulfur production (CLAUS process) and tail gas processing

Application: summary design of an amine unitNatural Gas Liquids (NGL) extraction (removal of heavy components)

External refrigeration loopJoule-Thomson expansionTurbo-ExpanderApplication: calculation of cryogenic loop used for NGL extraction

Examples of gas field development schemesGas fields development options: onshore or offshore processing, single-phase or multiphase export pipelines, “Wet” or “Dry” developmentOther treatments: mercury removal, conversion or adsorption of mercaptans (RSH), etc.

TransporT of naTural gas in liquid phase - lng opTion 1 dLiquefaction processes: principle, typical operating conditions, technologyLNG tanks: Single or Double or Full Containment (self-standing, membrane) - HazardsLNG transport: LNG carriers (MOSS spheres, Membrane...), export and receiving terminalsLNG regasification at the receiving terminals, options for refrigeration duty recovery

TransporT and sTorage of naTural gas in gas phase 0.5 dGas pipes: technology, capacities, equipment, recompression units, operating conditions, etc.Underground storage (old reservoirs, aquifers, salt domes, etc.) - Required treatments at outlet

naTural gas economics 0.5 dResources, production and marketsNatural gas marketing: competition of other energy sources and consequences on gas contracts (prices and duration), cost of transport and its impact on the structure of the gas chainFuture of the natural gas

purposeTo provide a comprehensive review of the techniques involved in natural gas production, processing and transport; complemented with an overview of natural gas valorization channels

audienceProfessionals from all sectors, involved or interested in the natural gas industry

learning objecTives - To learn about fundamentals of natural gas composition, characteristics, production and field processing

- To understand technical issues and specific constraints of natural gas transport and storage

- To review the various end-user markets available for valorizing natural gas

- To grasp key natural gas chain economic issues

ways & meanshighly interactive training by industry-specialist lecturesnumerous applications and illustrations

Natural Gasproduction - Treatments - Transport - end usese-

510



5 days

ReferencePROD / NATGASPROD / GAZNAT



172


Rueil May 16 - 20 €4,420 PROD / GNL [email protected]

Dubai Jun 05 - 09 €3,240 PROD / LNG [email protected]

Rueil Nov 14 - 18 €4,420 PROD / LNG [email protected]

The lng world 0.5 dThe LNG Chain - Order of magnitude and trends - Location of main plants worldwideBase load LNG plants - Peak shaving LNG plants - Small LNG plants for LNG fueled vehiclesReceiving terminals - Regasification techniques - Satellite regasification techniques

lng specific properTies and associaTed hazards 0.5 dPhysical properties: Liquid-Vapor equilibrium, density, ratio of vapor methane / LNG, heat of vaporization, heat of combustion...Safety aspects: Flash Point, Fire Point, Auto-ignition Point, Minimum Spark Energy, Flammability Limits, Deflagration, LNG Vaporization, Rapid Phase Transition (RPT), Radiation levels, Stratification / Roll-over, Sloshing, LNG clouds ignition, Asphyxiation risks, Cryogenic liquids jets, Piping behavior

lng hazard prevenTion and miTigaTion measures 0.5 dLNG spillage control at Design stage and in OperationLNG clouds control in operationLNG fires control at Design stage and in Operation

liquefacTion and regasificaTion processes 0.75 dFeed pretreatment: sweetening, dehydration, NGL extraction, Hg and aromatics removalDifferent liquefaction processes: Pure Component Refrigerants, Pure component(s) and Mixed Refrigerant(s), Mixed RefrigerantsPeak Shaving simplified schemeRegasification process

lng sTorage, loading / offloading and TransporT 0.75 dLNG tanks: Single or Double or Full Containment (self-standing, membrane) - HazardsJetty head, Jetty trestle, harborLNG Carriers: common features, technology, cargo operations, safety systems

Technology of lng specific equipmenT 1 dLNG cryogenic heat exchangers: Spiral Wound Heat Exchangers, Aluminum Brazed Heat ExchangersTechnology of the Cryogenic Compressors and their drivers (Gas Turbines)LNG Vaporizers: Open Rack Vaporizers (ORV), Submerged Combustion Vaporizers (SCV), etc. - Safety and Environmental aspectsSubmerged LNG pumps: in-tank retractable pumps, cargo pumps, HP canned send out pumps, etc.Liquid cryogenic turbo-expanders, Cryogenic valvesCryogenic personnel protection items

lng planT operaTion 0.25 dDay to day activities in an LNG plant - Experience of some plants

lng Trends - research and new developmenTs 0.25 dLNG trends since the 70’s - Equipment and concept development - Future developments

lng economic aspecTs 0.5 dGas markets: natural gas reserves and production, worldwide gas demands distribution, international natural gas tradeLNG contracts: specificities of LNG contracts, pricing, shipping contractsLNG markets trends

purposeTo provide a comprehensive technical and economic review of the Liquefied Natural Gas industry

audienceProfessionals involved or interested in the LNG industry: technical and managerial staff in the LNG industry, equipment providers, personnel from engineering companies, etc.

learning objecTives - To review the structure of an LNG chain and the world map of LNG plants

- To understand main LNG physical properties and specificities

- To assess LNG facilities’ hazards and HSE issues, along with risk mitigation and prevention techniques

- To grasp main liquefaction processes’ operating principles, conditions and constraints

- To gain an overview of the technology of equipment used in the LNG industry

- To grasp the essence of LNG markets and contracts

ways & meanshighly interactive training by industry-specialist lecturersnumerous applications, illustrations and videos

Liquefied Natural Gas (LNG)hazards - Technology - operation - economicse-

511




5 days

ReferencePROD / LNGPROD / GNL


173

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Key benefits:

Analyzing incidents, emergency situations, process upsets & managing them in a structured manner

Managing emergency shutdowns

Fast track adaptation to the position of Junior Panel Operator

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise for Panel Operators Ready-to-use skills

Safe & proactive operation of facilities

With the Panel OperatorVOCATIONAL CERTIFICATE

175

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Rueil Sep 12 - Oct 28 €34,070 PROD / PANELOPGB [email protected]

panel operaTor’s role 5 dControl room organization and panel operator rolePanel operator reporting and handover duties. Plant documentation in control roomRadio-communication

process conTrol dcs and sisProcess control

Control loop & associated symbolization. Instruments technologyControllers operating principles & parameters. Control loops structuresStandalone simulator: Simple loop controller tuning and impact of P,I,D actions – Case of a 3-phase separator; Typical transmitters faults

Distributed Control System (DCS)ICSS architecture and system components. Human-machine interface (HMI)HMI functions: trends, alarms… Automated sequences and Safety Instrumented Systems: PSS, ESD, HIPPS, EDPIntegrated plant simulator: DCS views and functionalities browsing; Reading safety logics; Package sequence analysis

well and producTion lines operaTion 5 dReservoir conditions and production modes. Production principles and physics applied to wellSurface wells and subsea wells: equipment; architectures, operating proceduresCommon well interventions. Production and injection wells monitoring – Common troublesSafety and prevention/protection barriersIntegrated plant simulator: Well – Production lines section parameters analysis – FPSO case

roTaTing machinery operaTion 4 dOperating parameters and mechanical conditions monitoring, protection systems and operation of centrifugal pump, reciprocating compressor, centrifugal compressor

producTion producTs and processing 5 dWell effluents. Introduction to flow assurance: hydrates prevention, depositsSurface processing: main operating parameters of common processesCrude oil and sales gas custody transfer and exportStandalone simulators: Crude oil processing, gas processing, metering and export – FPSO case

inTegraTed planT operaTion following besT pracTices 8 dAlertness, proactive plant operation. Trends usage as an anticipation toolAlarms management: alarm types and classification, decision makingSteady state runs: routine checks, post-handover checks, global performances checkingOperating in transient conditions: Production planned shutdown; Production restartIntegrated plant simulator: Practice of integrated plant operation in steady and transient conditions – Case of a FPSO

safeTy in operaTion in normal and downgraded mode 8 dRoutine operations: Permit to Work, work orders, isolations, inhibitions managementDowngraded situations. Special operations: SIMOPS, black startProcess upsets: reacting and acting in a structured mannerSIS: Process and emergency shutdown levels - Related panel operator role and dutiesEmergency shutdown procedures and crisis management: stress management and making decisionIntegrated plant simulator: Operating in downgraded situations; Emergency shutdown monitoring – Managing process upsets through exercises of progressive difficulty; Emergency shutdown procedures implementation

purposeTo provide the required skills and comprehensive knowledge to hold the position of a panel operator in normal operation and with the appropriate attitude towards plant operation safety issues. Allow rapid and efficient adaptation to the position of Control Room Operator, based on professional experience of participants. A certificate will be delivered to the trainee if the necessary criterions have been fulfilled

audienceExperienced production field operators called on to hold a panel operator position in oil and gas production facilities

learning objecTives - To grasp the necessary foundation methodology and a philosophy to drive an oil and gas process with a DCS

- To be convinced of the absolute necessity of a proactive

- and anticipatory operation - To analyze and react methodically to anomalies, incidents and emergency situations in a safe manner

- To implement emergency procedures

ways & meansvery practical training program with numerous case studies on dynamic simulator (more than 2/3 of the training time is dedicated to simulator practice)

Panel Operator Certification

e-53

1c

coordinator: Patrick Steiblé

Can be organized for a single companyvocational certificate

35 days

ReferencePROD / PANELOPGBPROD / PANELOPFR





Key benefits:

Analyzing incidents, emergency situations, process upsets & managing them in a structured manner

Managing emergency shutdowns

Fast track adaptation to the position of Junior Panel Operator

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise for Panel Operators Ready-to-use skills

Safe & proactive operation of facilities

With the Panel OperatorVOCATIONAL CERTIFICATE



Key benefits:

Prevention & reaction to anomalies

HSE activities & management principles

Communication & management

Up to date & optimized Oil & Gas production processes

An international recognition of your competencies A Vocational certificate is obtained A confirmed expertise for Production Superintendents Ready-to-use skills

With the Production Superintendent

VOCATIONAL CERTIFICATE

177

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Pau, Rueil & Martigues Sep 14 - Dec 07 €39,610 PROD / PRODSI [email protected]

downhole producTion - well performance 4 dUnits - DimensionsFundamentals of Reservoir Engineering - Well testingFundamentals of Drilling, Completion and Well ServicingArtificial Lift (Pumping, Gas Lift...) and Well Performance

oil, waTer and gas processing 10 dEffluent behavior - Fundamentals of thermodynamics - SpecificationsOil processingProduction and Injection water treatmentGas processingWork on Study cases to detail processes and concerns

hse risks and managemenT 17.5 dHSE risks, flammability, overpressure systems: PSV, flare and flare network, closed and open drains...Safety in operation: use of utilities, degassing/inerting, confined space entry, start-up & shutdownSafety during construction & maintenance works: lifting & rigging, work at height, electrical safety…Work permit system - SIMultaneous OPerations (SIMOPS) management…HSE management systems - Management of change - Downgraded situations - HSE referential & responsibilitiesSafety engineering: HAZID, HAZOP, layout optimization and identification of major accidents - Risks matrix… Safety systems: HIPS, ESD, EDP, F&G, USS - Safety logic diagramsHuman factors - Opersafe: philosophy and methodologyIncident analysis and reporting - Root cause analysisEnvironmental and societal aspects

insTrumenTaTion & process conTrol - elecTriciTy 5 dInstrumentation & Process Control - Distributed Control System (DCS) - Electricity

roTaTing machinery 5 dRotating machinery: pumps, compressors, turbo-expanders, and gas turbines

corrosion, inspecTion & inTegriTy 3 dMetallurgy – Corrosion – Inspection – Facility integrity management

mulTidisciplinary conferences 3.5 dTerminal and FSO / FPSODeep offshore: development challenges and specific operating constraintsFlow assurance - Chemicals injection monitoring - Deposit prevention and monitoringField Operations Management (FOM): objectives and methodology

dynamic Training simulaTor 5 dUnit troubleshooting - Practice on Dynamic Training SimulatorTeam work management

work meThods and communicaTion 2 dWork methods and team managementWritten and oral communication

revisions - oral assessmenT 3 d

purposeTo provide the in-depth technical knowledge of oil and gas processing operations, along with the managerial and communication skills, for qualifying to hold the position of production superintendentsThe required high-level knowledge stretches over a wide range of issues in relation to reservoir, corrosion, inspection, maintenance, well performance, flow assurance…

audienceProfessionals with a significant experience in oil and gas surface production who are called on to hold position of production superintendents

learning objecTives - To describe the overall production process, from reservoir to offloading facilities

- To explain available tools and techniques for well performance enhancement and production optimization

- To explain state-of-the-art oil and gas production techniques

- To describe HSE management rules and responsibilities

- To acquire world class work methods and communication skills

- To anticipate anomalous events and react effectively to avoid production loss

ways & meansseveral applications and illustrationsintensive teamworkuse of dynamic training simulationspractical sessions with equipment in a workshop

noTe2 weeks in Martigues (south of France), 1 week in Rueil

Production Superintendent Certification

e-53

3c

coordinator: Patrick Elhorga


58 days

ReferencePROD / PRODSIPROD / SIPROD





Key benefits:

Prevention & reaction to anomalies



Up to date & optimized Oil & Gas production processes

An international recognition of your competencies A Vocational certificate is obtained A confirmed expertise for Production Superintendents Ready-to-use skills

With the Production Superintendent

VOCATIONAL CERTIFICATE



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Production Engineering Ready-to-use skills

Risk identification & security management

Offshore development techniques

Static equipment & rotating machinery

Thermodynamics & surface processing

With the Production Engineer GRADUATE CERTIFICATE

179

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Rueil & Marti-gues Sep 05 - Nov 25 €32,980 PROD / PRODENG [email protected]

fundamenTals of geosciences and reservoir engineering 5 dPetroleum geology and geophysicsReservoir fluids - PetrophysicsWell log interpretationWell testing - Reservoir engineering and simulation

fundamenTals of drilling, well compleTion and servicing 5 dFundamentals of drilling - Well completion, well servicing and workoverWell performance and artificial Lift

advanced oil & gas field processing 15 dModule I: THERMODYNAMICS APPLIED TO WELL EFFLUENT PROCESSING

Well effluent - Ideal gas and real fluid behaviorGas compression and expansionLiquid vapor equilibrium of pure components and mixtures - Mixture separation

Module II: OIL & WATER TREATMENTCrude oil treatment: Stabilization, Dehydration, SweeteningReject and injection water treatment

Module III: GAS PROCESSING AND CONDITIONINGGas processing: Dehydration, Sweetening, NGL recoveryFundamentals of Liquefied Natural Gas (LNG) Chain

Technology of oil & gas processing equipmenT 10 dModule I: STATIC EQUIPMENT

Piping & Valves - Storage equipmentMetallurgy - Corrosion - Fundamentals of InspectionThermal Equipment - Fundamentals of ElectricityInstrumentation & Process Control - Safety System

Module II: ROTATING MACHINERY (in Martigues)Centrifugal and positive displacement pumpsCompressors and Turbo-Expanders - Gas Turbines

offshore field developmenT - piping & flow assurance 5 dContext of offshore developments - Fixed and floating production structuresConstruction and installation of platformsPipelines: technology, laying and operationDeep offshore developments - FPSO/FSO technology - Operation of TerminalsFlow Assurance & Multi-phase flow

schemaTizaTion of oil & gas processes 2 dDrawing of a Block Flow Diagram (BFD)Drawing of a Process Flow Diagram (PFD)Study and analysis of a Piping & Instrumentation Diagrams (P&ID)Drawing of isometrics

peTroleum economics and projecT managemenT 3 dFundamentals of contractsProject profitability evaluation - Risk analysis of Exploration & Production projectsProject cost estimation and cost control

safeTy & environmenT in surface processing faciliTies 5 dProduct and equipment related risk - Hazards for personnelSafety in production operations and during construction or repair worksSafety management and responsibilitiesIntroduction to fundamentals of safety engineering

field developmenT projecT - jury 10 d

purposeTo provide the in-depth technical knowledge of oil and gas production facilities design and operation necessary to hold rapidly, and very effectively, the position of field engineer, or design engineer, or project engineer

audienceEngineers (particularly young field, design or project engineers) interested in a specialization in oil and gas surface production

learning objecTives - To grasp fundamentals of reservoir engineering, drilling, well completion and servicing, and artificial lift

- To understand fundamental concepts underlying oil and gas processing

- To understand in detail operating conditions and basic design of oil, water and gas treatment

- To learn about technology of static equipment and rotating machinery used in production facilities

- To learn about offshore development techniques and flow assurance issues

- To identify main risks related to O&G production operations and review main safety rules

- To contribute to the dynamics of field development projects studies

ways & meanshighly interactive training with industry specialist lecturersnumerous applications and illustrationsmultiple teamwork sessions. use of dynamic simulations and industrial case studiesnumerous simulations performed using the proii softwareseveral tutorials with equipment in a workshop. site/field visits

noTeThis training includes 1 week in Martigues (south of France) for workshop and site visits

Production Engineer Certification

e-53

4c



60 days

ReferencePROD / PRODENGPROD / INGPROD





Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Production Engineering Ready-to-use skills

Risk identification & security management

Offshore development techniques

Static equipment & rotating machinery

Thermodynamics & surface processing

With the Production Engineer GRADUATE CERTIFICATE

180


Rueil Sep 12 - 16 €3,210 PROD / WELLGB [email protected]

fundamenTals of drilling 1 dDrilling and casing program: function of the different casings, how to determine the drilling and casing programPrinciple of drilling: different types of bits, drilling string, hoisting and pumping functions and material, mud and solid treatments, wellheadsDrilling methods and special operations: drilling parameters, turbo drilling, coring and logging, casing and cementing operations, directional drilling, well control, fishing jobsOffshore drilling operations: different types of rigs, specific offshore problems

fundamenTals of compleTion of normally flowing wells 1 dOperations involved in well completionMain factors influencing a completion designConnecting the pay-zone to the borehole: open hole and cased hole, drilling and casing of the pay zone, evaluating and restoring the cement job, perforatingEquipment of naturally flowing wells: functions to be carried out and corresponding pieces of equipment, technology and handling of the main pieces of equipment (production wellhead, tubing, packer, downhole services, subsurface safety valve)

well producTiviTy - need for arTificial lifT 0.25 dOverall approach of the well flow capacity: inflow and outflow performancesNeed for artificial liftMain artificial lift techniques

arTificial lifT by pumping 0.75 dTechniques to be covered:

Sucker Rod PumpsElectrical Submersible Pumps (ESP)Progressing Cavity Pumps (PCP)...Jet pumps

For each of these techniques, the following points will be highlighted: Principle, Technology of the involved pieces of equipment, Operating procedure and troubleshooting, Installation design, Applications, Advantages and drawbacks. How to improve performances and run-life duration?

arTificial lifT by conTinuous gas lifT 1 dOperating principleSpecific completion equipmentFactors to consider for designUnloading, operating problems, and selection criteria

well servicing and workover - well inTervenTion 1 dMain jobs: measurement, maintenance, stimulation, WorkoverOperations on killed wells (workover)Operations on live wells (well intervention): wireline, coiled tubing, snubbing

purposeTo provide a comprehensive knowledge of well operations; from drilling, completion, and artificial lift techniques and equipment to well intervention operations

audienceProduction engineers and other professionals interested in well operations

learning objecTives - To grasp fundamentals of drilling techniques

- To draw the architecture of a typical well completion and explain the technology of the equipment used

- To understand operating principle and technology of artificial lift pumps

- To understand operating principle, monitoring and technology of gas lift systems

- To review main well servicing and workover operations (objectives, principles, equipment…)

ways & meanshighly interactive training by industry specialist lecturersseveral applications and illustrations

Well Equipment & Operation for Production Engineersdrilling - completion - artificial lift - well interventionse-

546




5 days

ReferencePROD / WELLGBPROD / WELLFR


181

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Pau Nov 07 - 11 €3,210(1) HSE / EXPSAFOP [email protected]

(1) The course schedule will be adapted to cover the whole course content

operaTions and hse 0.25 dHazards and risks incurred - ConsequencesRisk management means: equipment, organizational and human aspects

main hse risks 0.75 dDangerous products classification MSDSFlammability

Explosive atmospheres (ATEX): flammable products, flash point, explosive limits - Ignition sources: flames, self-ignition, sparks and static electricity, pyrophoric products - Preventive measures and precautions: during normal conditions, during draining and sampling operations, in the event of leaks, with regard to storage tanks, during loading and offloading - Boiling Liquid Expanding Vapor Explosion (B.L.E.V.E.) phenomena

Fluid behavior and related hazardsVessel pressure, consequences of temperature variation: thermal expansion, vaporization, collapse freezing due to pressure relief - Avoidance of risks through the correct use of common place equipment: safety valves, rupture discs

hse in producTion operaTions 1 dUse of utilities: inert gases, liquid water, steam, air, gas oil, fuel gasBlow-down and drainage toward: flare, slops, tanks, oily waterMechanical lock-out - Electrical lock-outDegassing-inerting: steam, nitrogen, water, vacuum, work permits...Entry into vessels - Ventilation and atmosphere analysis: oxygen content explosivity, toxicityStart-up: checks, accessibility and cleanliness, line up, deaeration, seal tests, oil inPersonal Protection Equipment (PPE)

hse in mainTenance & consTrucTion works 0.5 dInventory of risks in works

Lifting and riggingWorking in confined spaceWorks at height: ladders, scaffolding, mobile elevated working platforms...Use of tools: sand blasting, grinding, HP cleaningRadioactive sources - Working on electrical equipmentWork Permits: various types, responsibilities

hse managemenT - responsibiliTies 0.5 dSIMultaneous OPerations (SIMOPS) managementManagement of modificationsLearning from incidents and accidents: Near Misses, Reporting and Cause Tree AnalysisHuman factors in risk management, safe and unsafe habits, motivation, exemplarity, difficulties in improving safety resultsResponsibilities

environmenTal consideraTions in e&p 0.5 d

hazard analysis - fundamenTals of safeTy engineering 1.5 dIntroduction to Risk Evaluation, Identification of Major Hazards - HAZID - HAZOPOptimization of Layouts. Safety Instrumented Systems

purposeTo provide a thorough understanding of risks and safety measures related to products, equipment, and different operations in oil and gas processing facilities

audienceEngineers and staff involved in operating oil and gas field processing facilities

learning objecTives - To deepen knowledge of hazards involved in routine operations, SIMOPS and shutdown/start-up operations

- To assess risks involved in different operations and adopt best industry practices

- To adopt the most appropriate safety measures in routine oil and gas processing operations and when faced with unforeseen events

- To explain key safety management rules leading to high HSE standards

ways & meansseveral applications and illustrationsseveral case studies and teamwork sessions

HSE in Surface Production Operations e-

550

coordinator: David Araujo


5 days

ReferenceHSE / EXPSAFOPHSE / EXPSECOP

field operations & hse HSE - Health, Safety & Environment


182


Dubai Sep 11 - 15 €3,150 HSE / SAFENG1GB [email protected]

Rueil Nov 14 - 18 €3,210 HSE / SAFENG1GB [email protected]

inTroducTion 0.25 dAims of Safety EngineeringImportant Terms & DefinitionsSafety Engineering throughout the life of a project and during operations

fundamenTals of safeTy engineering 0.25 dMain issues, orders of magnitudeProbabilistic and deterministic methodsSafety engineering practices

“preliminary hazard analysis” - hazid 0.5 dObjectives of Preliminary Hazard Identification during Conceptual / Feasibility studiesHazards Related to typical Oil & Gas ProcessMethodology for carrying out a HAZIDHAZID application

“hazard and operabiliTy” - hazop 0.75 dMethodology to be usedHAZOP exercise

ploT plan review 0.75 dExamplesSafety Engineering approach to plant layoutPlant Layout exercise: optimization of an offshore plant layout

consequence analysis meThodology 0.5 dExamples of types of scenarios to be consideredConsequence modeling e.g. Blast overpressure, Dispersion modeling etc.Criteria for Impact assessmentExercise

reducTion of igniTion sources 0.5 dHazardous area classifications methodology and examplesElectrical Equipment and suitability with regard to hazardous area classificationVentilation: types and functional analysis

minimize The invenTory of hydrocarbon release 0.5 dSafety System: Instrumented Safety Systems (incl. HIPS case study), Shutdown System, Blow-down SystemOverpressure protection and gaseous HC disposal: PSV’s and mechanical systemsFlares / vents and flare network systemsLiquid Drainage: Open / Closed drains, Surface drainage

miTigaTing The consequences of a hydrocarbon release 0.5 dFire and Gas Detection SystemsPassive Fire & Blast ProtectionActive Firefighting systemsAlarm / Evacuation, Escape & Rescue

case sTudies 0.5 d

purposeTo provide the knowledge necessary to assess and mitigate risks, and apply industry-required safety codes and practices when designing, constructing and operating oil and gas processing facilities

audienceEngineers, technicians, and staff, not familiar with the concepts of safety engineering, involved in operating oil and gas field processing facilities or in designing oil and gas projects architecture

learning objecTives - To learn about HSE standards and the deterministic methods of safety engineering in oil and gas processing

- To grasp different methods of risk assessment and key safety management rules

- To learn about the contents of standard hazard studies

- To define, forecast and measure possible outcomes and effects


Safety Engineering - Module 1hazid/hazop - risk identification, reduction and mitigation of riskse-

560




5 days

ReferenceHSE / SAFENG1GBHSE / SAFENG1FR


183

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Rueil Nov 21 - 25 €3,210 HSE / SAFENG2GB [email protected]

digesT of module 1 0.5 dFundamentals of Safety Engineering-milestones reminderReview of Historical events leading to significant incidents through consequences analysis

inherenTly safer planT design 0.5 dPossible options for the removal or elimination of a hazardProvision or addition of means to controlLimitation of inventories of hazardous products

major hazard assessmenT 0.75 dExamples of Accident scenariosRisk Matrices and ALARP principleSafety critical measures / elements

quanTiTaTive risk assessmenT 0.75 dMethodology to be usedSystematic QRA approach (step by step)Assessment and improvementCase studies and application

design of fire and gas deTecTion sysTems 0.5 dSelection of Fire & Gas detector typesPositioning of Fire & Gas detectorsLogic associated with the activation of the F&G detectorsWorked example

acTive and passive fire proTecTion 0.5 dDesign of firewater network, calculations for firewater demandFire protection using water, foam, dry chemicals and inert gasFirewater systems, pump types and selection guidancePractical exercise

safeTy insTrumenTed sysTems 0.5 dExamples of safety instrumented systems & performance targetsTypical architectureSafety Instrumented Function (SIF) and Safety Integrity Level (SIL)Design of ESD systems, Hierarchy of ESD & Actions, Cause & EffectsExample of HIPS

emergency escape and rescue 0.5 dMethodology for Emergency Escape & Rescue Analysis (EERA) & Fire & Explosion Risk Analysis (FERA) studiesOn and off site emergency planningMethodology, data input, assumptions and outputCase study

human facTors and human errors 0.25 dHuman factors in process control, Alarm systems, Human error in process plants, Downgraded situationsEmergency situations

“safeTy dossier” 0.25 dObjectives and contents

purposeTo provide the knowledge and tools for coordinating HSE studies, for the different stages of an onshore or offshore, oil and gas, grass-roots or major revamping project

audienceSafety engineers, HSE superintendents, other engineers and managers (environment, project, process, instrument, and operations) involved in operating or designing and implementing major projects

learning objecTives - To acquire the probabilistic methods of safety engineering and typical safety systems design

- To design safety systems including firewater, fire and gas detection, and over-pressure relief

- To ensure safe operation of oil and gas facilities

- To take part in risk assessment and project evaluation

- To contribute to a corporate, experience-based, safety culture

prerequisiTeFundamental knowledge of statistical analysis and hazard identification techniques is highly recommended

ways & meanshighly interactive training by industry specialist lecturernumerous applications and illustrationsseveral case studies and teamwork sessions

Safety Engineering - Module 2major hazard assessment, qra, f&g systems design, sis designe-

561



5 days

ReferenceHSE / SAFENG2GBHSE / SAFENG2FR



184


Rueil Nov 21 - 25 €3,210 HSE / ENVGB [email protected]

environmenTal issues relaTed To e&p acTiviTies 0.25 dHistorical overview of impact awareness, managementDefinitions: Environmental impact, significance, accidental vs. operational discharges, discharge and pollution

The sTakes 0.75 dEnvironmental issues: local, regional, globalAir, water (availability, pollution), biodiversity, wastesKyoto Protocol, carbon dioxide accounting, cap and trade, Clean Development MechanismsToxicity, ecotoxicity

environmenTal risk assessmenT (era), legal requiremenTs/ legal sTandards: naTional, regional, inTernaTional

0.25 d

Environmental Risk Assessment (ERA)Legal standards: definition, standard determination, Best Available Technology, Best Environmental PracticesEnvironmental Quality Standards (EQS), discharge standards - Regional, international, conventions

environmenTal impacT assessmenT – projecTs 0.5 dEnvironmental impact assessment activities throughout the life cycle of a field, tools used for impact predictionThe EIA process, Scoping an EIA, ENVID (Environmental Hazard Identification) Environmental Management Plan – Case study

environmenTal risk managemenT – producTion acTiviTies 0.5 dHSE MS – EMS (ISO 14001), continuous improvement processesKey environmental procedures: wastes management, chemical management, monitoringOil Spill Contingency Planning

moniToring & reporTing 0.5 dKey performance indicators, Industry performance – TrendsEnvironmental monitoring & surveillanceGreen House Gases estimation and reporting

environmenTal risk managemenT – abandonmenT 0.25 d

social issues relaTed To e&p acTiviTies: The risks, The sTakes and The sTraTegies

0.5 d

The risks and the stakes - Some high profile cases (human rights, NGOs activism, etc.)Documentary viewing and discussion on social risks in E&P activitiesHow to change practices and image?

parTicipaTive social impacT assessmenT as a risk managemenT Tool 0.5 dParticipative social impact assessment: definition, business case and standards, processSocial management Plans and monitoring - Focus on special topics: involuntary resettlement, local communities, business in conflict zones

sTakeholder engagemenT 0.5 dStakeholder engagement: definition and business casePublic Consultation and Disclosure Plan (steps and techniques)Stakeholder MappingStakeholder engagement: Misguiding assumptions and key success drivers

case sTudy: social screening of an oil and gas projecT 0.5 dBased on a group work, participants should prepare a:

Stakeholder mappingSocial impacts identification and mitigation plan

purposeTo provide a thorough and applied knowledge of best industry standards and practices for appraising environmental and social matters that need to be handled cautiously throughout the life cycle of an upstream project, from design to construction and operation of oil and gas processing facilities

audienceManagers, advisors, engineers, and operations staff involved in oversight or management of environmental and social issues all along the lifetime of an upstream project

learning objecTives - To understand the global prevailing context for the oil and gas industry

- To grasp legal requirements and standards with respect to impact on local environment and populations

- To understand techniques and contents of environmental and social impact assessments

- To identify mitigation measures, perform stakeholders’ mapping and build Public Consultation and Disclosure Plans

- To select key performance indicators, and set up monitoring with environmental and social management plans

- To learn about minimum requirements for restoration of operational sites after abandonment


Environmental & Societal Risk Managementproject phase, exploration and production phase issuese-

580




5 days

ReferenceHSE / ENVGBHSE / ENVFR


185

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Key benefits:


Production techniques & equipment

HSE management systems & rules

HSE activities

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise in HSE Ready-to-use skills

With the HSE SuperintendentVOCATIONAL CERTIFICATE

187

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SE


Pau, Rueil & Martigues Sep 14 - Dec 07 €39,610 HSE / HSESI [email protected]

downhole producTion - well performance 4 dUnits - DimensionsFundamentals of Reservoir Engineering - Well testingFundamentals of Drilling, Completion, Well Servicing, Artificial Lift and Well Performance

oil, waTer and gas processing 5 dEffluent behavior - Fundamentals of thermodynamics - SpecificationsOil processingProduction and Injection water treatmentGas processing

hse risks and managemenT 15.5 dHSE risks, flammability, overpressure systems: PSV, flare and flare network, closed and open drains...Safety in operation: use of utilities, degassing/inerting, confined space entry, start-up & shutdownSafety during construction & maintenance works: lifting & rigging, work at height, electrical safety…Work permit system; SIMultaneous OPerations (SIMOPS) management…HSE management systems - Management of change - Downgraded situations - HSE referential & responsibilitiesSafety engineering: HAZID, HAZOP, layout optimization and identification of major accidents - Risks matrix…Safety systems: HIPS, ESD, EDP, F&G, USS - Safety logic diagramsHuman factors - Opersafe: philosophy and methodologyIncident analysis and reporting – Root cause analysis

insTrumenTaTion & process conTrol - elecTriciTy 5 dInstrumentation & process control - Distributed Control System (DCS)Electricity, electrical motors and power generators, electrical power distribution network

roTaTing machinery 5 dRotating machinery: pumps, compressors, turbo-expanders and gas turbines

corrosion, inspecTion & inTegriTy 3 dMetallurgy - Corrosion - Inspection - Facility integrity management

mulTidisciplinary conferences 3.5 dTerminal and FSO / FPSODeep offshore: Development challenges and specific operating constraintsFlow assurance - Chemicals injection monitoring - Deposit prevention and monitoringField Operations Management (FOM): objectives and methodology

fire-fighTing & oil spill response 5 dEmergency plans - Equipment involved in fire-fightingFire-fighting and OSR practice onsite

environmenTal & socieTal aspecT managemenT 5 dEnvironmental legislationEnvironmental Impact Assessment (EIA) – Management Plan EMPSocietal issues related to E&P activities

behavioral managemenT 2 d

work meThods and communicaTion 2 dWork methods and team managementWritten and oral communication

revisions – oral assessmenT 3 d

purposeTo develop managerial and communication skills while providing an in-depth technical knowledge stretching over a wide range of issues and advanced topics in relation to oil and gas production and processing equipment, integrity, HSE, deep offshore, flow assurance, etc.; necessary to hold the position of HSE superintendent

audienceProfessionals with a significant experience in oil and gas surface production and/or HSE, called on to hold the position of HSE Superintendent

learning objecTives - To learn about state-of-the-art oil and gas production techniques and equipment technology

- To understand all details of HSE issues linked to production, as well as to construction and maintenance works

- To describe HSE management rules and individual responsibilities


ways & meansseveral applications and illustrationsseveral teamwork sessionspractical sessions on firefighting and oil spill response

noTe2 weeks in Martigues, 2 weeks in Rueil

HSE Superintendent Certification

e-59

0c



58 days

ReferenceHSE / HSESIHSE / SIHSE





Key benefits:


Production techniques & equipment

HSE management systems & rules

HSE activities

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise in HSE Ready-to-use skills

With the HSE SuperintendentVOCATIONAL CERTIFICATE

188


Rueil & Marti-gues Oct 10 - 21 €6,210 MAT / EQUIP [email protected]

module 1: sTaTic equipmenT (cf. e-601) 5 dPiping and valvesStorage equipmentMetallurgy - Corrosion - Fundamentals of InspectionThermal equipment

Fundamentals of heat transferHeat exchangers, air coolersFire heaters

Fundamentals of electricityInstrumentation and Process Control

Constitution of a control loop - TypesSensors and transmittersControl valvesDistributed Control System (DCS)Practice of process control or dynamic simulator

Safety Instrumented System (SIS)Oil & Gas metering - Multiphase metering

module 2: roTaTing machinery (cf. e-602) 5 dPumps

Centrifugal pumpsPositive displacement pumps

Fundamentals of gas compression and expansionCompressors and expanders

Reciprocating compressorsCentrifugal compressorsTurbo-expanders

Gas turbinesOperating principleTechnologyAuxiliaries

purposeTo provide a comprehensive knowledge of static equipment and rotating machinery used in oil and gas processing facilities

audienceEngineers and managers involved in operating or designing oil and gas field processing facilities

learning objecTivesTo comprehend all issues of operating principles, technology, selection criteria, and maintenance of oil and gas processing equipment

ways & meanshighly interactive training by industrial specialist lecturersnumerous applications and illustrationspractice of dynamic simulationsfield/site visit (if possible)mechanical workshop tutorials

noTeThe training combines the two independent courses E-601 and E-602, the detailed content of which is given in the following two pages

Technology of Production Facilities Equipmentstatic equipment - rotating machinerye-

600


field operations & hse Equipment, Maintenance, Inspection


10 days

ReferenceMAT / EQUIPMAT / MAT


189

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Rueil Oct 10 - 14 €3,280 MAT / EQUIP1 [email protected]

piping & valves 0.5 dPipes, flanges and gaskets: types, standardsValves: globe valves, gate valves, other valve types (butterfly, membrane, piston...), check valvesPig types, Pig valves, pig launcher and receiverMiscellaneous: filters, flame arrestors, steam trapsPressure relief equipment: pressure safety valves, thermal expansion valves, rupture disksDifferent Codes and standards

sTorage equipmenT 0.5 dDifferent storage equipment: atmospherics tanks, spheres, cigars, refrigerated and cryogenic storageMiscellaneous equipmentCase of floating storage vessels (FSO, FPSO)

meTallurgy - corrosion - fundamenTals of inspecTion 1 dDifferent material typesMain corrosion typesDifferent materials resistance to corrosionCorrosion protection and prevention

Thermal equipmenT 0.5 dFundamentals of heat transferTechnology of heat exchangers and air coolersTechnology of furnaces and fire tubesExamples of thermal equipment applications

fundamenTals of elecTriciTy 0.5 dElectrical Architecture in Onshore / Offshore installations: Power distribution network, Main componentsElectrical Safety - Equipment for Explosive atmospheresExample of Electrical balance for an offshore installation - Power generation capabilities selection / redundancy, etc.

insTrumenTaTion & process conTrol 1.25 dConstitution of a control loop: sensor, transmitter, controller, recorder, control valve, signals (pneumatic, electrical, digital) and signal converters -Tags and symbolsDifferent types of pressure, temperature, flow rate and level sensorsTransmitters typesTechnology of control valves: simple and double seat plug valves, cage valves, “Camflex” type valves, three-way valvesDifferent types of control loops: simple loop, cascade, split-rangeDistributed Control System (DCS): network architecture and constitution - ExamplesPractice of Dynamic Simulation for process control

safeTy insTrumenTed sysTems (sis) 0.25 dEmergency Shut-down System (ESD)Fire & Gas (F&G)High Integrity Protection System (HIPS)Emergency depressurization (EDP)

oil & gas meTering - mulTiphase meTering 0.5 d

purposeTo learn the technology, operation and maintenance of main static equipment used in Oil & Gas installations


learning objecTives - To understand technology, operating principles, and maintenance of static equipment (piping, vessels, thermal equipment, storage, instrumentation, process control)

- To learn about main selection criteria in regard to equipment operating conditions and safety considerations

- To grasp fundamentals of metallurgy, corrosion and corrosion prevention

- To review important origins of equipment failures

- To describe process control loops structures and instruments technology

- To understand safety instrumented systems specific to production facilities

ways & meansseveral applications and illustrations use of dynamic simulations

Technology of production facilities equipment

Module 1: Static Equipmentpiping - metallurgy - Thermal equipment - e&i - sise-

601



5 days

ReferenceMAT / EQUIP1MAT / MAT1



190


Martigues Oct 17 - 21 €3,280 MAT / EQUIP2 [email protected]

pumps 2 dMain types of pumps and classification - Selection criteriaCentrifugal pumps

Types of centrifugal pumps: single or multiple stage, radial of horizontal split, high speed, in line, vertical barrel, pit suction, magnetic drive, canned motor, Electric Submersible Pump (ESP)Typical centrifugal pump installation in a circuit: block valves, filter, check valve, manometers, vent and drainTechnology of the centrifugal pumps: impellers, seals, couplings, bearings, driving machine...Auxiliaries: flushing, lubrication, coolingCentrifugal pumps performances: characteristic curves, pump-circuit coupling, problems encountered (cavitation and NPSH, adaptation to operating conditions)

Positive displacement pumpsRotating positive displacement pumps: Progressing Cavity Pumps (PCP)Reciprocating positive displacement pumps (piston or plunger type)Technology of the positive displacement pumps and main applications

HSE related to pumps operation

fundamenTals of gas compression and expansion 0.25 dIsentropic and polytropic gas compression - Practical gas compression lawsCase of gas expansion

compressors and expanders 1.75 dMain types of compressors and classification - Selection criteriaReciprocating compressors

Technology of reciprocating compressors: frame, cylinders, piston and rings, piston rod and crank head, crankshaft and connecting rods, bearings, compartment distance piece, specific emphasis on valvesAuxiliaries: pulsation dampeners, crank mechanism and cylinder lubrication systems, cooling system, safety devices

Centrifugal compressorsTechnology of centrifugal compressors: rotor and stator, journal and thrust bearings, internal and shaft seals, balance discAuxiliaries: lubrication, sealing (liquid or gas) and cooling systems

Turbo-expanders: technology and main usesHSE related to compressors and expanders operation

gas Turbines 0.5 dOperating principle: compression, combustion and expansion - Typical cycles and performancesTechnology of gas turbines: compressor part, combustion chamber, turbines part, internal coolingAuxiliaries: fuel supply and filtering, air filtration, lubricating circuits, fire-fighting system

siTe visiT (subjecT To approval of company) 0.5 d

purposeTo provide a comprehensive knowledge of technology, operating principles and performance of rotating machinery used in oil and gas processing facilities


learning objecTives - To learn about the practical use of different types of rotating machineries

- To understand operating principles and performance

- To master technology, operating constraints and maintenance of rotating machinery

ways & meansnumerous applications and illustrationsfield/site visit (if possible)Tutorials in mechanical workshopidentification of frequent problems and troubleshooting

Technology of production facilities equipment

Module 2: Rotating Machinerypumps - compressors and expanders - gas turbinese-

602

coordinator: Bernard Le Moal



5 days

ReferenceMAT / EQUIP2MAT / MAT2


191

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Port-Gentil May 16 - 20 €3,620 I-R / INST1FR [email protected]

Rueil Oct 24 - 28 €3,210 I-R / INST1GB [email protected]

process conTrol overview 0.5 dControlling and controlled systemControlled variable, manipulated variable, disturbance variable, actuators, set point…Control topologyFunctional analysis, functional locks, symbolizationPneumatic, electric and digital control loopsPneumatic and electric power supply, signal transmission… and conversion

measuring elemenT - sensors 0.5 dOperating parameters measurement – Measurement errorsTemperature, pressure, flow-rate, level measurementOperating principle, technology, measurement unit, local reading/ transmissionSafety instruments: limit switches, position sensors, temperature, pressure, flow-rate level detectors…

signal Transmission - TransmiTTers 0.5 dPneumatic transmitters: transformation of force into a pneumatic signal and amplification, technology and transmitter tuningOperation of the sensor-transmitter combinationElectric and electronic transmitters: operating principleDigital and programmable transmitters

acTuaTors – conTrol valves 0.5 dLinear displacement valves: technology, different plug types, characteristic curves, safety position: AO, AC, FC, FO…Positioners: operating principle, types (pneumatic, electro pneumatic…)Other types of control valves: simple and double seat valves, cage valves, “Camflex” type valves, three-way valvesContactors: position sensors, electro-valvesON/OFF valves: types, simple and double actuators

conTrollers – conTrol sTrucTures 0.5 dControllers: Role, operating principle, direct or inverted action, operating modesBehavior of PID type controllers: operating point, gain, interactionsControl loops: Simple, cascade, and split-rangeRatio control, elaborated variable control, feed-forward control systems

disTribuTed conTrol sysTem 0.5 dPlant control philosophy, workstation, glossaryArchitecture

Functional organization, equipment architectureData allocation, communication networkSafety/ redundancy

Interfaces (sensors - actuators - network - PLC - others)Plant control: hardware, software, types and organization of viewsAlarms, historian

pid conTrollers 1 dPID tuning: process and control loop responseRobustness, rapidity, accuracyRegulation (fixed set point) and closed-loop control (variable set point)Proportional, Integral, Derivative controller characteristicApplications on dynamic simulator

safeTy insTrumenTed sysTems (sis) 1 dSafety loopSafety function, Safety Integrity LevelHigh Integrity Protection Systems (HIPS), Emergency ShutDown (ESD), Fire and gas (F&G), Emergency Depressurization (EDP)

purposeTo provide a comprehensive knowledge of process control and safety systems

audienceEngineers and technicians involved in designing, constructing, commissioning or operating oil and gas surface production facilities

learning objecTives - To understand control loops and safety loops, as well as ICSS and associated equipment technologies

- To comprehend technology and operating principles of instruments most commonly used in the oil and gas industry

- To understand impact of PID controllers parameters on process control

- To grasp main process control structures encountered in oil and gas surface processing

- To draw the outline of a typical DCS architecture

- To learn the functions of safety instrumented systems

ways & meanshighly interactive training by industry specialist lecturernumerous applications and illustrationsprocess control practice on dynamic simulator

Instrumentation, Process Control & Safety Instrumented Systemse-

608



5 days

ReferenceI-R / INST1GBI-R / INST1FR



192


Rueil Oct 31 - Nov 04 €3,210 I-R / METER [email protected]

differenT Types of meTering - imporTance of meTering 0.5 dTypes of metering: technical, transactional, allocation, fiscalImportance of metering accuracy

daTa TreaTmenT 0.5 dTechnical material balances, data reconciliation, data architecture, architecture of DCS, data recording

implemenTaTion of a meTering insTallaTion - influence on process 0.5 dFriction losses, introduction of a cold spot, intrusivity, leakage risks...

single-phase meTering: operaTing principle and equipmenT 1 dFluids dynamics (laminar and turbulent flow)Different types of single-phase meters

Meters based on kinetic energy (Rho.V²): orifice plate meters, Pitot tubes, RotametersMeters based on velocity: direct meters (turbines, volumetric meters) or Indirect meters (Ultrasounds, Electromagnetic, Vortex, thermal, Turbines)Derived meters: use of centrifugal pump characteristic curve, use of rotation speed of a positive displacement pump...Tracers: chemical, radioactive, inter-correlation

TransacTional meTering of liquids 0.5 dStatic transactional metering or Pseudo-transactional metering (tank being filled up...)Metering bench; turbines, volumetric, ultrasoundsCalibration of metering installations on test bench in manufacturing facilities or on siteOperation of metering installations: maintenance, calibrationCalculators: corrections, conversion into standard volumesSampling, online analysis and lab analysis

TransacTional meTering of gases 0.5 dMetering bench; turbines, volumetric, ultrasoundsCalibration of metering installations on test bench in manufacturing facilities or on siteOperation of metering installations: maintenance, calibrationCalculators: corrections, conversion into standard volumesSampling, online analysis and lab analysis

mulTi-phase meTering: operaTing principle and equipmenT 1 dAdvantages of multiphase meteringFluids: flow modes, compositionPrinciple of multiphase measurement: gamma-metric measurement, volume measurement, passive noise analysis use of dielectric, of Venturi, of Inter-correlationUse of Optic Fibers: inter-correlation, sound velocityDescription of some equipment available for multi-phase measurement: 3D, Roxar, Agar, Haimo, MPM, WeatherfordInstallation of multi-phase measurement - Impact on process: fluid conditioning, intrusivenessSubsea and downhole multiphase metersCalibration at manufacturer facilitiesOperation and maintenance of multi-phase meters

alTernaTives To The use of mulTi-phase meTers 0.5 d4D seismic. Use of natural or introduced tracersEstimation of the contribution of each reservoir (allocation)

purposeTo provide a comprehensive knowledge of metering equipment and applications in the oil and gas industry

audienceOperational staff of oil and gas field treatment plants and terminals, instrumentation specialists, petroleum architects, project engineers, reservoir engineers, well performance specialists, completion specialists, personnel from engineering companies, and all professionals interested in metering methods and equipment used in the petroleum industry

learning objecTives - To review different kinds of metering and allocation methods, and assess importance of accuracy

- To grasp technology and operating principles of single-phase metering equipment

- To understand standards of liquids and gases transactional metering

- To assess operation, maintenance and calibration techniques of metering installations

- To review multiphase metering advantages, technology and operating principles

ways & meanshighly interactive training by industry-specialist lecturersnumerous applications and illustrations from the industrysite visit (if possible)

Metering & Allocationsingle-phase - multi-phase - Transactional - fiscale-

615




5 days

ReferenceI-R / METERI-R / COMPT


193

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Key benefits:

Communication & management skills


Equipment technology & maintenance management

Oil & Gas production chain

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise for Maintenance Superintendents Ready-to-use skills

With the Maintenance SuperintendentVOCATIONAL CERTIFICATE

195

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Pau, Rueil & Martigues Sep 14 - Dec 07 €39,610 MAI / MAINSI [email protected]

downhole producTion - well performance 4 dUnits - DimensionsFundamentals of Reservoir Engineering - Well testingFundamentals of Drilling, Completion, Well Servicing, Artificial Lift and Well Performance

oil, waTer and gas processing 5 dEffluent behavior - Fundamentals of thermodynamics - SpecificationsOil processingProduction and injection water treatmentGas processing

hse risks and managemenT 15.5 dHSE risks, flammability, overpressure systems: PSV, flare and flare network, closed and open drains...Safety in operation: use of utilities, degassing/inerting, confined space entry, start-up & shutdownSafety during construction & maintenance works: lifting & rigging, work at height, electrical safety…Work permit system - SIMultaneous OPerations (SIMOPS) management …HSE management systems - Management of change - Downgraded situations - HSE referential & responsibilitiesSafety engineering: HAZID, HAZOP, layout optimization and identification of major accidents - Risks matrix… Safety systems: HIPS, ESD, EDP, F&G, USS - Safety logic diagramsHuman factors - Opersafe: philosophy and methodologyIncident analysis and reporting – Root cause analysis

insTrumenTaTion & process conTrol - elecTriciTy 5 dInstrumentation & Process Control - Distributed Control System (DCS)Electricity, Electrical Motors and Power Generators, Electrical power distribution network

operaTion, mainTenance & inspecTion of roTaTing machinery 10 dRotating machinery: pumps, compressors, turbo-expanders, and gas turbinesTechnology and operation of rotating machinery

Machine technology: main parts, auxiliaries, maintenanceOperation and performance: Operation aspect, Mechanical aspectTypical troubles: internal leakages, unbalancing, wear and ruptures

Technology and maintenance of machine componentsLubrication, bearings, coupling and alignment, sealing devices for pumps and compressors, rotors and shaftsForecasting breakdowns

corrosion, inspecTion & inTegriTy 3 dMetallurgy - Corrosion - Inspection - Facility integrity management

mulTidisciplinary conferences 3.5 dTerminal and FSO / FPSODeep offshore: development challenges and specific operating constraintsFlow assurance - Chemicals injection monitoring - Deposit prevention and monitoringField Operations Management (FOM): objectives and methodology

mainTenance managemenT - equipmenT availabiliTy conTrol 5 dMaintenance policy and objectivesReliability process implementation and follow-up - Reliability analysis and improvementMaintenance costs & failure costsSubcontracting, shutdown management, progress plans

behavioral managemenT 2 d

work meThods and communicaTion 2 dWork methods and team managementOral and written communication

review - oral assessmenT 3 d

purposeTo develop managerial and communication skills while providing an in-depth technical knowledge stretching over a wide range of issues and advanced topics in relation to effluent processing, oil and gas treatment operations, HSE, equipment maintenance management…

audienceProfessionals with a significant experience in maintenance of oil and gas production facilities, called on to hold the position of Maintenance Superintendent

learning objecTives - To describe the oil and gas production chain, from reservoir to offloading facilities

- To explain technology and maintenance operations of main equipment in oil and gas facilities

- To anticipate production constraints and their consequences on maintenance

- To describe HSE management rules and responsibilities


- To prepare and manage effectively a global maintenance plan

ways & meansseveral applications and illustrations several teamwork sessionsseveral tutorials with equipment in a workshop

noTe3 weeks in Martigues, 1 week in Rueil

Maintenance Superintendent Certification

e-64

0c



58 days

ReferenceMAI / MAINSIMAI / SIMAIN





Key benefits:



Equipment technology & maintenance management

Oil & Gas production chain

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise for Maintenance Superintendents Ready-to-use skills

With the Maintenance SuperintendentVOCATIONAL CERTIFICATE



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained An guaranteed expertise in Maintenance Management Ready-to-use skills

Preparing a global management plan

Selecting customized maintenance policy

Implementing a subcontracting policy & managing unit turnarounds

Analyzing techniques & improving reliability

With the ADVANCED CERTIFICATEin Maintenance Management

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Rueil Nov 21 - 25 €3,310 MAI / MAINTMGT [email protected]

mainTenance policy and objecTives 0.5 dMaintenance policy and plant policy. Financial, technical and workforce organization, goalsCurrent trends: criticality analysis TPM, RCM… How they fit a given situationCondition-based, preventive and corrective maintenance methods and their respective importanceMaintenance work management: criticality of equipment, priorities, spare parts inventory management

reliabiliTy process implemenTaTion and follow-up 0.75 dDescriptive statistics: reliability and reliability indicators, equipment performance monitoring in terms of availability and maintainability. MTBF, MTTR…Statistical functions and their applications to preventive maintenance, equipment redundancy studies, standby equipment policyPareto law, identification of bad actors

reliabiliTy analysis and improvemenT meThods 1 dFMECA (Failure Modes, Effects and their Criticality Analysis). Areas of application, basic techniques, probability estimation, common methodological errorsFailure trees. Purpose of the method. Practical calculation methodsReliability centered maintenance. Use of decision logic. Detection and elimination of hidden failuresApplication of RCM to SIS (Safety Instrumented Systems) management

mainTenance cosTs and failure cosTs 1 dMaintenance cost vs. overall failure cost. Cost factors. Overall effectiveness index, efficiency concept, adaptation to the petroleum and petrochemical industriesLife cycle cost. Definition and application to the choice of investments. Possible use in estimation of optimum life durationSpare part management. Cost of inventory. Unsuitability of some conventional calculations. Potential solutions. Decision-making methods

conTracTing 0.5 dPurpose, conditions for efficiency. Why outsourcing, how to maintain, how to keep controlDifferent types of contract. Which type to use

shuTdown managemenT 0.5 dDetailed preparation. Permanent cost control. Planning. Identification of critical operationsWork management. Site organization. Safety goalsCommissioning and preliminary start-up. Quality management and safety. ProceduresReports and updates

improvemenT plans 0.75 dFrom failure management to equipment managementLowering the tolerance threshold for minor defects. Operators involvementMaintenance programs per equipment item and per equipment typeProgress plans, key performance indicators. Maintenance audits. Self-rating

purposeTo provide knowledge on how to select and implement a customized maintenance policyTo provide the practical tools for implementing reliability engineering processes

audienceEngineers, supervisors and staff involved in maintenance, in equipment availability control or in charge of maintenance costs

learning objecTives - To see whether current trends in maintenance policy (TPM, RCM…) are applicable to a given case

- To set goals in terms of both overall corporate efficiency

- To understand reliability analysis and improvement techniques

- To set-up conditions for successful management of unit turnarounds

- To implement a subcontracting policy

ways & meansnumerous workshops and case studies illustrating the techniques studied and the topics discussedThe delivery method is interactive and based on participants’ own experience

Maintenance Management Certification

e-64

5c

coordinator: Bernard Le Moal


5 days

ReferenceMAI / MAINTMGTMAI / GESMAINT





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained An guaranteed expertise in Maintenance Management Ready-to-use skills

Preparing a global management plan

Selecting customized maintenance policy

Implementing a subcontracting policy & managing unit turnarounds

Analyzing techniques & improving reliability

With the ADVANCED CERTIFICATEin Maintenance Management

198


Rueil Oct 24 - 28 €3,280 DEV / OFFSHGB [email protected]

overview of offshore developmenTs 0.25 dConstraints specific to offshore productionPresent performances and future perspectives - Technological barriers

fixed and floaTing producTion sTrucTures 0.25 dOffshore production structures: jacket, semi-submersible, SPAR, TLP, FPSO...Selection criteria - LimitationsTerminology: shallow water, deep offshore, ultra deep offshore

consTrucTion and insTallaTion of plaTforms 0.5 dPlatform technology - Platform installation techniquesExamples of shallow water developments

deep offshore developmenTs 0.5 dTypical subsea architecture: subsea wellheads, well jumpers, production manifolds, production lines, production risers, preservation lines, umbilicalsRole and technology of each piece of equipmentExamples of deep offshore developments

fpso/fso Technology 0.5 dTechnology of Floating (Production) Storage and Offloading vesselsBallast tanks - Atmosphere controlOil, methanol... storage tanks - Blanketing systemStorage tanks start-up procedures - IncidentsTechnology and operation of FPSO/FSO offloading (tanker loading) buoy

operaTion of Terminals 0.25 dTechnology of tankers and Loading/Offloading equipmentMarine operations of reception and exportsTerminal constraints: storage capacity, scheduling

new deepwaTer Technologies 0.25 dOverview of new deepwater technologies that are in R&D or pilot stages

flow assurance 1/2: prevenTion of deposiTs in flowlines 0.5 dMain Flow Assurance problems: hydrates, paraffins, sulfates, sand, salt, naphtenates...Main technical solutions and preservation operations - Intervention techniques

flow assurance 2/2: moniToring of mulTi-phase flow Through flowlines

1 d

Multi-phase flow patterns - Application to Oil & Gas upstream activitiesGas dominated systems: dry versus wet scheme, flowline and slug catcher designOil dominated systems: hydrodynamic slug flow, examples

pipelines: Technology, laying and operaTion 1 dTechnology of pipelines: standards, material grades, insulation techniquesPipeline laying techniques (offshore and shore approach) - IllustrationsPipeline operation and maintenance:

Main flow assurance problems - Main available technical solutionsPipe corrosion monitoring and prevention - Cathodic protectionPipeline maintenance / Maintenance management

purposeTo provide a deep understanding of offshore technology and techniques, with a particular emphasis on issues of flow assurance

audienceEngineers and technicians involved in designing, constructing or operating oil and gas offshore production facilities

learning objecTives - To understand the technology and design of offshore production facilities

- To grasp the architecture of offshore field developments, from shallow water to deep offshore

- To understand pipelines technology, laying techniques and main operational problems

- To learn the techniques used to prevent main problems of flow assurance

ways & meanshighly interactive training by industry-specialist lecturersnumerous case studies from the offshore industry

Offshore Field Development - Pipelines & Flow Assurance e-

650


field operations & hse Process & Layout Engineering


5 days

ReferenceDEV / OFFSHGBDEV / OFFSHFR


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Rueil Mar 28 - Apr 01 €3,210 DEV / SIMULGB [email protected]

sofTware presenTaTion 0.25 dPresentation of the different pieces of equipment: pumps, compressors, heat exchangers, turbines, turbo expanders, separators, valves, pipesChoice of the thermodynamic model: PR, SRK...Definition of components, pseudo-components, heavy-cuts

simulaTion of a crude oil field TreaTmenT uniT 1 dMain field treatments for crude oils: stabilization, sweetening, desalting and dehydration, associated gas compression and treatmentStudy of an offshore crude oil field treatment unit, based on Multiple Stage Separation (MSS)Influence of the number of separators on the quality (API°, RVP...) and quantity of stabilized oilOptimization of the operating parameters: pressures and temperatures of separators, suction and discharge condition of compressors, pumping needs for export by pipeIdentification and adjustment of the controlling parameters

simulaTion of a naTural gas field TreaTmenT uniT 1 dMain field treatments for natural gases: dehydration, sweetening, NGL extraction/recovery, compression and export...Study of an offshore natural gas dehydration, liquids extraction and compression unitOptimization of the operating parameters: primary separator operating conditions, dehydration parameters, cooling temperature for a sufficient liquid extraction, compression needs upstream the export pipeIdentification and adjustment of the controlling parametersAnalysis of hydrate formation risks

simulaTion of a gas dehydraTion uniT by physical absorpTion (Teg) 0.75 dSimulation of the glycol loop: contactor, flash separator, regenerator (still), circulation pumps, glycol/glycol exchangerAdjustment of controlling parameters: dry gas residual moisture content versus purity of lean TEG, moisture flow to be removed versus TEG circulation flow

simulaTion of a naTural gas liquids (ngl) exTracTion / recovery uniT 0.75 dProgressive build up of the PFD of a Natural Gas Liquids (NGL) extraction unitThree processes are studied:

External refrigeration loop (cryogenic loop)Joule Thomson expansion valveTurbo Expander

Illustration of the results on phase envelope diagram

simulaTion of a propane cryogenic loop 0.75 dStudy of a simple loopImprovement of loop performances by addition of an intermediate expansionUse of propane enthalpy diagram to validate the software resultsInfluence of propane purity and consequences of air ingress

simulaTion of naTural gas liquid fracTionaTion uniT - disTillaTion process

0.5 d

Principle of separation by distillation process and main operating parametersSimulation of a NGL fractionation unit using distillation columnsCharacteristics and operating conditions of the main equipment - Specific constraints

purposeTo provide a comprehensive knowledge of all field treatments, and develop practical skills in simulation of oil and gas treatment processes using the softwares HYSYS and ProII

audienceProfessionals involved or interested in oil and gas field treatment processes: operation or process personnel, engineering staff, R&D engineers…

learning objecTives - To understand oil and gas processing operations: flash separation, compression, expansion, heating or cooling, mixing, pumping, etc.

- To grasp common oil and gas processing schemes and operating parameters

- To build a Process Flow Diagram (PFD) and optimize existing processing schemes

- To simulate an industrial unit at different operating stages

- To extract thermodynamics data from the simulation software database (phase envelope, critical point parameters, hydrate formation risk area, different physical properties…)

ways & meanshighly interactive training by industry-specialist lecturersseveral simulation case studies, addressing most of oil and gas field treatmentsextensive practice of proii and hysys simulation software

Oil & Gas Process Simulationsimulation using hysys and proiie-

680



5 days

ReferenceDEV / SIMULGBDEV / SIMULFR

field operations & hse Process & Layout Engineering



200


Operation of Production Facilities

E-514 Gas Sweetening & Sulfur Recovery ................................................................................ p. 262 E-515 Natural Gas Storage ...................................................................................................... p. 262 E-516 Natural Gas Transport by Pipeline .................................................................................. p. 262 E-520 Production Accounting & Material Balance Sheet .......................................................... p. 263 E-529 Preparatory Course to Production Field Operator Training .............................................. p. 263 E-530C Field Operator Certification Vocational Certificate ................................................................................................ p. 265 E-532C Production Supervisor Certification Vocational Certificate ................................................................................................ p. 267 E-535C Gas & LNG Production Engineer Certification Graduate Certificate ................................................................................................. p. 269 E-537C Petroleum Engineering Certification Graduate Certificate ................................................................................................. p. 271 E-540 Production Chemicals: Use & Handling .......................................................................... p. 272 E-541 Well Operation & Testing ................................................................................................ p. 272 E-542 Operation of Gas Lift Wells ............................................................................................ p. 272 E-543 Production Optimization ................................................................................................ p. 273 E-544 Gas Treatment & Compression ...................................................................................... p. 274 E-547 Production Facilities Control Room Operation ................................................................ p. 274 E-548 Laboratory Analyzes for Oil & Gas Production ................................................................ p. 274 E-549 Safety in Laboratory ....................................................................................................... p. 275

HSE - Health, Safety & Environment E-551 Occupational Safety ...................................................................................................... p. 275 E-555 HSE Management ......................................................................................................... p. 276 E-565 Safety Engineering Workshop ........................................................................................ p. 276 E-570 HSE in Construction/Maintenance Works ...................................................................... p. 276 E-581 Oil & Gas Facilities Environmental Impact Management ................................................. p. 277 E-582 Social Risk Management ............................................................................................... p. 277 E-583 Environmental Management of Spills & Emissions: Air, Water, Wastes, Soils ................................................................................................ p. 277 E-591C HSE Engineer Certification Graduate Certificate ................................................................................................. p. 279

201

Fiel

d Op

erat

ions

& H

SE

Equipment, Maintenance, Inspection

E-609C Advanced Instrumentation & Instrumented Systems Certification Advanced Certificate ............................................................................................... p. 281 E-610C Multivariable Predictive Control Certification Advanced Certificate ............................................................................................... p. 282 E-611 Instrumentation Maintenance ........................................................................................ p. 282 E-618 Production Facilities Power Network & Electrical Equipment .......................................... p. 282 E-619 Production Facilities Power Network & Electrical Equipment (Advanced) ....................... p. 283 E-620 Electrical Maintenance................................................................................................... p. 283 E-621 General Mechanical Maintenance .................................................................................. p. 284 E-622 Centrifugal & Positive Displacement Pumps Operation .................................................. p. 284 E-623 Centrifugal & Positive Displacement Pumps Maintenance .............................................. p. 284 E-626 Centrifugal & Volumetric Compressors Operation .......................................................... p. 285 E-627 Centrifugal & Volumetric Compressors Maintenance...................................................... p. 285 E-630 Gas Turbines ................................................................................................................. p. 285 E-641 Operation, Maintenance & Inspection of Rotating Machinery ......................................... p. 287 E-643 Machinery Vibration Signature Analysis.......................................................................... p. 287

Process & Layout Engineering E-660 FPSO/FSO & Oil Terminals ............................................................................................ p. 288 E-670 Pipeline Hydraulics & Multiphase Flow ........................................................................... p. 288 E-675 Corrosion Prevention in Production Facilities ................................................................. p. 288 E-695 Field Development Project ............................................................................................. p. 289


f Projects & Logistics ................................. p. 205 to 224





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Project Management Ready-to-use skills

HSE in project design & construction

Planning the EPC phase

Project management & know-how techniques

Managing the execution of project phases

With the ADVANCED CERTIFICATEin Project Management

205

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Dubai Apr 03 - 07 €3,240 PL / PROJGB [email protected]

Port-Gentil May 23 - 27 €3,730 PL / PROJFR [email protected]

Rueil Jun 27 - Jul 01 €3,300 PL / PROJGB [email protected]

Rueil Sep 12 - 16 €3,300 PL / PROJFR [email protected]

Project develoPment Phases & Processes 0.5 dIntroduction: global project context (field development and oil and gas treatment projects types, project steps)

IntegratIon and scoPe management 0.5 dIntegration management - Scope managementPreliminary studies: field development project evaluation process, examples of field development project, oil & gas project evaluation process, examples of gas treatment projects, conceptual studies, pre-FEED, project economics, technical deliverables, preliminary project planning (global project schedule, CAPEX estimate, project execution strategy)EPC phase objectives & project execution plan, project execution strategy, project execution plan updateLocal content & sustainable development

Project executIon: contractIng 0.25 dContracting strategy (project breakdown into contracts), EPC phase contracts types and comparison, endorsement of Company items, of Feed and other contracts, EPC tendering process, contractors EPC bids preparation, tenders evaluation

Project executIon: organIzatIon 0.75 dInterface managementHuman resources management, organization charts, role of project manager, project team organizationStakeholder management

hse and qualIty management 1 dHSE management: tools & techniques for safety & environment design, project reviews, safety concept & safety dossier, HSE during construction phase, HSE reporting for projectsQuality management: quality management, quality control, quality surveillanceRisk management: tools, techniques, dossiers

Project control: cost and schedule 1 dProject control process, cost control principles, initial budget elaboration, final cost estimation, project reporting, documentation control systemsPlanning elaboration, progress curves, critical path, planning software, progress control, recovery planTechnical package and project planning, feed management, execution sequence, deliverables, process licensors packages, EPC phase schedule, CAPEX estimate

oIl and gas Project Phases 1 dDetail engineering and procurement

Detail engineering management: management process, packages management, main deliverables, project reviews, engineering systems (doc. control…)Modification managementProcurement management: procurement strategy, procurement of LLIs (Long Lead Items) & other “company items”, procurement management organization & execution (purchasing, expediting, inspection, shipping), material control systems, other procurement systems

Construction and fabrication management, commissioning managementConstruction/Fabrication challenges, contractors & resources, (sub) contracts types, construction & fabrication strategyConstruction at site: construction execution plan and management, HSE management, schedule, progress control, quality management. Construction methods (TCF, pre-fabrication, modularization, delivery/erection), interface with commissioningFabrication at yards, load-out, transport & installation (offshore facilities and onshore modular plants) including offshore construction methodsCompletion activities definition, methodology, sequence and completion dossiers, commissioning systems, contractual aspects and organization, hand-over and acceptance of facilities

Project close out and management of collective knowledge

PurPoseTo manage projects, from initial stage to project completion, its purpose is to provide a thorough understanding of: - structure and management of the project phases execution (“what to do and when”)

- project management techniques & know-how (“how to”)

audIenceAnyone who has Project or Production knowledge and requires a clear and comprehensive understanding of Project Management practices for Exploration and Production Projects

learnIng objectIves - To conduct the preliminary stages: concept, feasibility, economics (notion), FEED

- To appraise project planning: schedule, costs, execution plan

- To strengthen HSE in project Design and Construction

- To choose within the various contract types

- To manage pre-construction phases: basics, calls for tenders, etc.

- To manage construction phases: engineering, procurement, construction and commissioning

Ways & meansthe course is illustrated by numerous examples taken from exploration & Production projectsa project case study is used throughout the course (exercises performed by the participants) for each Project management stage

Project Management Certificationapplication to oil & gas upstream Projectse-

700c

coordinator: Yves Bonnefoy


5 days

ReferencePL / PROJGBPL / PROJFR

Projects & logistics




Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Project Management Ready-to-use skills

HSE in project design & construction

Planning the EPC phase

Project management & know-how techniques

Managing the execution of project phases

With the ADVANCED CERTIFICATEin Project Management

206


Abu Dhabi Mar 21 - 25 €5,050 PL / PROMISE [email protected]

Rueil May 23 - 27 €3,930 PL / PROMISE [email protected]

Abu Dhabi Sep 19 - 23 €5,050 PL / PROMISE [email protected]

Rueil Dec 12 - 16 €3,930 PL / PROMISE [email protected]

This serious game is a complete immersion in the execution of an Oil & Gas Project

IntroductIon 0.5 dOverview of Project Management applied to the Oil & Gas industryPre-requisites to use the simulator throughout the week

Project PreParatIon 0.5 dEPC Tenders EvaluationPostponement of EPC award date

Project mobIlIzatIon 0.5 dProject staffingProject Offices organization (Company, Contractor)

Project ImPlementatIon WIth tyPIcal events 3.5 dSchedule reviewLook ahead schedule preparationEngineering strategy Purchasing strategyConstruction contracting strategyRisks Management planEngineering disciplines manhoursInitial budget issuesPreparation of Monthly progress report 30%Vendor selection for main equipmentConstruction contractors selection (mechanical)Preparation of Monthly progress report 50%Increase in piping quantitiesDelay in Civil workTEG Skid delivery delayCompany comments on Civil worksPreparation of Monthly progress report 80%Delay in isometrics issuesHSE LTIClaim Mechanical ContractorRepair of major equipment following damageHand overGeneral debriefing

PurPosePROMISE™ will be an experience accelerator for Hard-Skills as well as Soft-SkillsReal-life problems, along with the most largely used project management techniques, have been carefully selected so that trainees can interact within the scenarii and assess the impact of their decisions on the project

audIenceAnyone having already Project knowledge and requiring developing abilities to manage an Oil & Gas project, applying the best practices in Project Management by playing various roles in a project management team such as: Project Manager, Planning Manager, Cost Control Manager, Construction Manager. This course, even if stand-alone course, is better done after course E-700 Project Management

learnIng objectIves - To organize a project in various working environments such as Head Office, worksite, etc.

- To manage various types of events: contractual issues, delays and/or non-conformities, HSE incidents, until project close out

- To use various project control tools: progress control, cost control, contracting strategies

- To find the best KPI’s (Key Performance Indicators) and monitor their decisions

Ways & meansall presented events will carry an introduction and a debriefing sessionselection of events may be decided depending on the expectations of the grouptrainees will be evaluated in each aspect of Project management (schedule, cost, hse, quality and team management) through Key Performance Indicators

PROMISE™ - Oil & Gas Project Management Interactive Simulator for Excellencean advanced training, based on a serious game specifically developed by IFP traininge-

701

coordinator: Pascal Ricroch


Can be organized for a single companyProficiency

5 days

Reference PL / PROMISE


207

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Rueil May 09 - 11 €2,120 PL / EM [email protected]

Rueil Sep 05 - 07 €2,120 PL / EM [email protected]

gaInIng a deeP understandIng oF engIneerIng 0.5 dOrganization and role of engineering in a project: parties involved, scope and sub-contracting

engIneerIng dIscIPlIne overvIeW 1.5 dDesign basis and criteriaEngineering activities and deliverablesInput, output, content and constraints, sequenceIn the various disciplines: Process; Equipment/Mechanical; Plant layout; Health, Safety & Environment (HSE); Civil engineering; Material & Corrosion; Piping; Plant model; Instrumentation and control; Electrical; Field engineering

Keys to a successFul engIneerIng executIon 1 dUnderstanding the schedule requirements: typical critical path of an Oil & Gas project, consequences for engineering, matching the procurement and construction scheduleInternal constraints of the engineering schedule: interfaces between disciplines, vendor input, best practicesInterface management: challenge and best practiceImplementation of changes: challenge and best practiceHow to meet the main challenge of delivering on scheduleEPC execution model & the resulting key milestones for engineering + benchmarksWhat to put in place to control a contractor: how to effectively monitor progress, factors that could impact progress, meaningful KPI, requirements for progress reports

PurPoseTo provide an overview of Oil & Gas projects engineering studies, from conceptual design to detailed drawings

audIenceAnyone wishing to gain a clear understanding of engineering activities and their execution by a contractorThis includes project engineers and engineering managers

learnIng objectIves - To coordinate all engineering activities, deliverables, work sequence and interfaces

- To evaluate the main risks: schedule, vendors, interfaces, quality and how to mitigate them

- To control engineering execution: critical issues and controls/KPI to put in place

- To use best practices, including management of changes, progress control, etc.

Ways & meanshalf of the training is devoted to hand-on exercises on engineering discipline and management tasksquiz at the end of each section to test knowledge acquisitionInteractive pedagogy: trainees are constantly led to think and learn by themselvesa 200-page guide will be provided to each trainee for future reference


Engineering Managementapplication to oil & gas upstream Projectse-

710


Can be organized for a single companyFoundation

3 days

Reference PL / EM



208


Rueil May 02 - 04 €2,120 PL / QAQCGB [email protected]

qualIty management system 0.5 dManagement of and by quality. Quality improvement cycle. ISO-9001 standard. Application to projectsIntegrated Management Systems (Quality, Safety and Health, Environmental, Security, Social, Societal)Project reference standard. Internal and external customer satisfaction. Management commitmentProject objectives, key performance indicators, role of project team

qualIty Process and organIzatIon 0.5 dISO-10006 standard: common points and differences with respect of ISO-9001Links between management and project process, identification and cartography of project processesProject organization and quality responsibilities, involvement of the management team and quality independence vs. organization efficiencyKey documents: Execution Plan, Quality Plan, Procurement Plan, EHS PlanProject Quality Plan associated list of Project management proceduresRelated processes: interface management, documentation management, change management, risk management

qualIty control durIng executIon 0.5 dExternal and Internal Quality AuditsSurveillance plan: key principles, definition of surveillance levels and tasks, document control, meetings, management of non-conformances, management of records Surveillance during Procurement and Construction: Organization, Methods, Tools and Resources needed for Quality Control at supplier’s premises

qualIty FeedbacK and contInuous ImProvement 0.5 dContinuous improvement of processesKey Performance Indicators. Periodical surveillance meetings and follow-up of actions Feedback: gathering, use for improvement, benchmarkingPrinciple of supplier’s document review – Document approvals and updatesUse of project non-conformances for improvement purposesQuality records. Project as-built documentation

rIsK management system 1 dDefinition of risk, gravity, probability, criticalityRisk identification methods, qualification, prioritizationRisk Register: organization, owners, meetings and stakeholdersTools to monitor and update the Risk RegisterTools to put in place a Risk Mitigation systemMethods to follow up on progress and results

PurPoseTo explain the importance and management of quality for projects, and how to continuously improve project practices

audIenceAnyone involved in the management of industrial projects, in particular Oil & Gas projects

learnIng objectIves - To handle management of and by quality in projects, the stakes involved and benefits of feedback

- To apply quality assurance, quality control, quality tools, human and material quality resources in the development of projects

- To continuously improve project development methods to create added value for the company

Ways & meansextensive use of examples from actual exploration & Production projectsPractical exercises: project objectives, surveillance plan, experience feedback, risk analysis


Quality & Risk Management in Projectsapplication to oil & gas upstream Projectse-

722

coordinator: Camilo Arias-Rivera



3 days

Reference PL / QAQCGB


209

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Dubai Apr 10 - 14 €3,150 PL / PRECOMGB [email protected]

Rueil Apr 25 - 29 €3,210 PL / PRECOMGB [email protected]

Port-Gentil May 30 - Jun 03 €3,620 PL / PRECOMFR [email protected]

Rueil Oct 10 - 14 €3,210 PL / PRECOMFR [email protected]

Project PresentatIon (with emphasis on input of precommissioning/commissioning start-up activities)

1 d

Main phases of a project: pre-FEED, FEED (basic engineering), detailed engineering, construction, precommissioning, commissioning, start-upCategories of Engineering, Procurement, Construction (EPC) Contracts: EPC, EPCC, EPCC/Start-upReimbursable versus long sum types of EPC contracts

PrecommIssIonIng: mechanIcal comPletIon 1 dDefinition and responsibilitiesOperations to be performedReady for commissioningHand over to commissioning teamTypical precommissioning dossierCase studies

commIssIonIng actIvItIes 1.5 dDefinition and responsibilitiesSystem and subsystem approach, PackagesCommissioning preparation: organization and man-power (including vendors and future operators), planning, budget, documentation/commissioning spare partsCase studiesOperations to be performed in each discipline: mechanical, electrical, instrumentation, OTP’sHand overSafety during commissioning (SIMOPS…)Commissioning costs

start-uP 1.5 dPreparation: Manpower (operators; vendors…), training, spare parts, planning, procedures/operating manualSafetyPerformances testsStart-up costsCase studies

PurPoseTo provide a comprehensive and practical knowledge of all issues involved in the long procedure leading to a successful start-up of oil and gas processing facilities

audIenceSupervisors, engineers and technicians in E&P (production, process, maintenance and projects), and professionals responsible for commissioning, start-up, acceptance and operation of new processing facilities or revamping projects

learnIng objectIves - To plan and organize the start-up and acceptance of processing units

- To learn about the specific constraints of these activities

- To anticipate the problems related to financial, technical, operational and organizational aspects

- To learn how to avoid most common errors or eventually reduce their impact

- To take into account the distinct objectives of, and the communication channels between, all stakeholders (contractor, oil company’s project team and operating group)

Ways & meansuse of participants’ experiencestart-ups and incident analysis from real situations related to trainees’ background

Precommissioning, Commissioning & Start-upapplication to oil & gas upstream Projectse-

738



5 days

ReferencePL / PRECOMGBPL / PRECOMFR





Key benefits:

Setting up a project in the correct contractual framework

Knowledge of Project Control tools

Mastering Project Control information

Specifying the Project Control function

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Project Control Ready-to-use skills

With the ADVANCED CERTIFICATEin Project Control

211

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Rueil Apr 04 - 21 €9,310 PL / PCCGB [email protected]

Rueil Oct 17 - Nov 03 €9,310 PL / PCCGB [email protected]

module 1: develoPIng Project control technIques (cf.e-741) 5 dContextThe project control functionEstablishing baselinesMeasuring project performancePerformance assessment: actual vs. plannedCorrective action planCommunication plan Project control deliverablesProject control plans and implementation

module 2: contracts and Procurement (cf. e-742) 5 dIntroductionContracting strategyCall for tender proceduresEPC contract content and core articles, exhibitsEPC contract, liability and insuranceProcurement, expediting, stock management, transportation, customsContract administrationNegotiation

module 3: negotIatIon sKIlls (cf. e-743) 4 dGeneralities – Principles and methodologyMethodology – Project specific

Simulation 1Arguments, search for compromise

Simulation 2Claim management or Influence games and group dynamics

Simulation 3Influence games and group dynamics

Simulation 4

PurPoseTo provide a comprehensive and practical knowledge of the tools and techniques to control a ProjectTo specify the scope and the position of the Project Control Manager function within a project organization

audIenceAttendees who have already occupied a position within a Project task force and who need to understand the basics of the Project Control process

learnIng objectIves - To specify the scope and interfaces of the Project Control function

- To improve the communication among Project actors

- To master project control information: collection, process, report

- To learn the different methods and tools related to Project Control

- To identify the areas of concern and propose a corrective action plan

- To grasp the increasingly challenging contractual relations involved in an oil and gas project

- To apply proven methods to solve the issues and put successfully a project in the right contractual framework

Ways & meansthe course is illustrated by numerous examples and exercises taken from actual exploration & Production projectstraining e-740c may be validated, on request, as such when all modules have been done

noteAll the modules are independent and may be done separately. Please refer to the training description for more details This course can be delivered in French, with documentation in English

Project Control Certificationapplication to oil & gas upstream Projectse-

740c



14 days

Reference PL / PCCGB





Key benefits:

Setting up a project in the correct contractual framework

Knowledge of Project Control tools

Mastering Project Control information

Specifying the Project Control function

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Project Control Ready-to-use skills

With the ADVANCED CERTIFICATEin Project Control

212


Rueil Apr 04 - 08 €3,210 PL / PCGB [email protected]

Rueil Oct 17 - 21 €3,210 PL / PCGB [email protected]

Durations are only for information and may vary depending on course attendants’ knowledge

context 0.5 dDevelopment of an Oil & Gas Project with focus on its lifespanKey elements of Project ControlWhy Project Control?Phases of an Oil & Gas ProcessFocus on development ProjectsCompany’s Project OrganizationContractor’s Project Organization

the Project control FunctIon 0.5 dCompany’s perspectiveContractor’s perspective

establIshIng baselInes 0.5 dDefinitions, Project scope and execution strategySchedule planning and developmentCost baseline: cost estimating and budgetingResource baseline: resource planningContract requirementsSelecting the proper indicators and weightsEarly and late curves

measurIng Project PerFormance 0.5 dProject Cost accountingProgress and Performance Measurement

PerFormance assessment: actual vs. Planned 0.5 dForecastingChange management

correctIve actIon Plan 0.5 dRecovery planAcceleration plan

communIcatIon Plan 0.5 dMonthly progress reportMeetingsReportingPolicy

Project control delIverables 0.5 dDeliverables for each area

Project control Plans and ImPlementatIon 1 dReviewTrainingAuditProject Control functionImportance of the Project Control PlanProject Control Manager’s role: Job ticket, Profile, Scope

PurPoseTo provide a comprehensive and practical knowledge of the tools and techniques to control a ProjectTo specify the scope and the position of the of the Project Control Manager function within a project organization

audIenceAttendees who have already occupied a position within a Project task force and who need to understand the basics of the Project Control process

learnIng objectIves - To specify the scope and interfaces of the Project Control function

- To improve the communication among Project actors

- To master project control information: collection, process, report

- To learn the different methods and tools related to Project Control

- To identify the areas of concern and propose a corrective action plan

Ways & meansthe course is illustrated by numerous examples taken from actual exploration & Production projectsa project case study is used throughout the course (exercises performed by the participants) at each stage of the course and company’s and contractor’s standpoint are constantly compared

noteThis module is part of the course E-740C Training E-740C may be validated, on request, as such when all modules have been done This course can be delivered in French, with documentation in English

qualification in Project control - module 1

Developing Project Control Techniquesapplication to oil & gas upstream Projectse-

741




5 days

Reference PL / PCGB


213

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Rueil Apr 11 - 15 €3,210 PL / CPGB [email protected]

Rueil Oct 24 - 28 €3,210 PL / CPGB [email protected]

Durations are only for information and may vary depending on course attendants’ knowledge

IntroductIon 0.5 dDifferent types of contracts

contractIng strategy 0.75 dAssignment of main equipmentEndorsement of the Design DossierInterfaces between contractsContractorsLocal contentMonopole/OligopoleSingle sourcing/Open Book TenderingPatrimonial contracts (JOA, PSA…)Design CompetitionInterfaces between Patrimonial Agreements and Operations Contracts

call For tender Procedures 0.75 dTendering phasePrequalificationInstructions to tenderersTender scheduleTender evaluation procedureInflation and currency hedgingFinal selection and contract awardSingle source contractContractor bid preparation

ePc contract content and core artIcles, exhIbIts 1 dAgreement (Articles and Annexes)ExhibitsExamples of Main articlesVendor lists

ePc contract, lIabIlIty and Insurance 0.5 dInsurance BasisKnock for knock principleRisk Management ProcessRisk Assessment and ReductionClaim Control for Projects

Procurement, exPedItIng, stocK management, transPortatIon, customs 0.5 dProcurement StrategyProcurement Management ProcessLong Lead Items & Critical EquipmentProcurement Management organizationCompany Control of ProcurementInspectionProcurement SystemsMaterial controlLogistics and Incoterms

contract admInIstratIon 0.5 dProgress measurement and controlChange ordersClaim managementClosing, reception and warranties

negotIatIon 0.5 dPrinciples and methodologyCase study

PurPoseTo provide a comprehensive understanding of project contract and procurement issues as seen by an oil company and a contractor

audIenceProject engineers strongly involved in contractual issues of upstream oil and gas projects

learnIng objectIves - To grasp the increasingly challenging contractual relations involved in an oil and gas project

- To apply proven methods to solve the issues and put successfully a project in the right contractual framework

Ways & meansthe course is illustrated by numerous examples taken from actual exploration & Production project

noteThis module is part of the course E-740C Training E-740C may be validated, on request, as such when all modules have been done This course can be delivered in French, with documentation in English


Contracts & Procurementapplication to oil & gas upstream Projectse-

742



5 days

Reference PL / CPGB



214


Rueil Apr 18 - 21 €3,100 PL / NEGOGB [email protected]

Rueil Oct 31 - Nov 03 €3,100 PL / NEGOGB [email protected]

generalItIes – PrIncIPles and methodology 1 dMethodology - Generalities

PrinciplesPreparation and discussions wheelsPerformance evaluation

Case study A: ordering piping for an Oil & Gas Project (under development)

methodology – Project sPecIFIc 0.5 dMethodology - Application to Projects

PrinciplesPreparation and discussions wheelsPerformance evaluation

Case study B (under development)

sImulatIon 1 0.5 dCase study: resolution of a dispute linked with problems occurred during transportation of equipment

arguments, search For comPromIse 0.5 dThe 3 “Ego states”Arguments and objectionsLooking for a compromise - ReciprocityTools and tactics

sImulatIon 2 0.5 dCase study: negotiation of a bank loan

Either

claIm management 0.5 dMethodology - Application to ProjectsCase study C (under development)

sImulatIon 3 0.5 dCase study: Collaboration Agreement (with a particular care about compromises to be generated)

Or

InFluence games and grouP dynamIcs 0.5 dDecode the games of influenceHow to identify and manage them?Group dynamics

How to build a teamLegitimacy & credibilityYour Group dynamic and the one of the other party

Case study final (compilation of cases A, B and C)

sImulatIon 3 0.5 dCase study: global agreement by using the tactics of pressure


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PurPoseTo present the constraints, challenges and methods to be put in place in large oil & gas projects

audIenceAnyone requiring methodology negotiating Oil & Gas upstream technical contracts for Projects, Engineers or Managers to be trained for the position of Project Control Manager or positions in Project Control entities, Project Managers or Project Engineers willing to get a broad understanding of the increasingly complicated negotiation challenges. Knowledge of O&G contracts is mandatory

learnIng objectIves - To negotiate contracts during a large Oil & Gas Project

- To apply methodology, tools and advices negotiating contracts

Ways & meansall presented events will carry an introduction and a debriefing sessionselection of events may be decided depending on the expectations of the grouptrainees will implement exercises through the use of software

noteThis module is part of the course E-740C Training E-740C may be validated, on request, as such when all modules have been done


Negotiation Skillsapplication to oil & gas upstream Projectse-

743



5 days

ReferencePL / NEGOGBPL / NEGOFR


215

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Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Estimation & Cost Control Ready-to-use skills

With the ADVANCED CERTIFICATEin Estimation & Cost Control

Estimating & controlling project costs

Knowledge of multiple methods & tools for estimations

Project execution & cost control

Risk evaluation

217

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Dubai Apr 17 - 21 €3,240 PL / COSTGB [email protected]

Rueil Apr 18 - 22 €3,300 PL / COSTGB [email protected]

Port-Gentil May 16 - 20 €3,730 PL / COSTFR [email protected]

Rueil Oct 10 - 14 €3,300 PL / COSTGB [email protected]

cost estImatIon context 0.5 dIntroduction to development projects

Asset life cycle - Evaluation process - Time and cost objectives - Economic Studies - Contracting strategy - Project execution phases

Technical fundamentalsProduction facilities - Structures and pipelines

Project cost estImatIon 1.5 dEstimation framework

Scope and exclusions - Cost management process - Estimate classes - Capital expenditures - Operating Expenditures

Software available on the marketCost evaluation during project evaluation phases

Order of magnitude estimate - Factored/modular estimateCost evaluation during basic engineering and contracting phases

Semi detailed estimate - Detailed estimateFrom historical data to present time cost evaluation

Cost escalation, cost indexes, inflation - Location factorAdditional cost elements

Risks and uncertainties - Provisions - Expenditure schedule - Particularities of cost estimation of brownfield projects

cost estImatIng case studIes 1.5 dCAPEX of an Onshore Project

Cost estimate of well clusters, CPF, flow lines, trunk lines and infrastructures using diverse documents (historical data, curves, etc.)Integration of all obtained results into a composite overall estimate of the whole project

CAPEX of an Offshore ProjectCost estimate of a satellite field developmentTwo development schemes will be studied, results will be compared and the best scheme will be selected by the trainees

CAPEX of a Deep Offshore ProjectCost estimate of the three main packages (FPSO, UFR and SPS)

Risk Analysis of an Onshore ProjectBuilding a Risk Register - Calculation of contingencies

cost control 1.5 dCost Control framework

Definitions, concepts and principlesTwo standpoints

Company’s standpoint - Contractor’s standpointRequirements

Technical means - Human meansCost control process

Establishing a budget - Commitments vs. budget - Actuals vs. budget - Forecasts - Detecting adverse trends - Reporting

PurPoseTo provide a structured and comprehensive approach towards project cost estimation and control

audIenceAnyone requiring a comprehensive understanding of the various elements necessary for an upstream Oil & Gas project estimate of capital expenditures: project engineers and managers, petroleum architects, engineers in charge of modification/extension of existing facilities and R&D engineers among others

learnIng objectIves - To enhance the technical definition of a project for a comprehensive cost estimate

- To practice different methods and tools to perform estimates

- To master the main cost control techniques used throughout Project Execution

Ways & meanseach cost estimation method illustrated with case studies from actual upstream projectsnetbooks, with pre-installed spreadsheets, used to perform project estimates from basic design parameters

Estimation & Cost Control Certificationapplication to oil & gas upstream Projectse-

745c



5 days

ReferencePL / COSTGBPL / COSTFR





Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Estimation & Cost Control Ready-to-use skills

With the ADVANCED CERTIFICATEin Estimation & Cost Control

Estimating & controlling project costs

Knowledge of multiple methods & tools for estimations

Project execution & cost control

Risk evaluation

218


Rueil Jun 20 - 24 €3,210 PL / PSPCGB [email protected]

Rueil Nov 21 - 25 €3,210 PL / PSPCFR [email protected]

Project state gate Process 0.5 dFeasibility studies, detailed engineering, procurement, construction and start-upEngineering Contractor involvement depending on project size and contract typeProject planning: Execution Plan, roles and responsibilities of actors involvedImportance of schedule in various project types, depending on the stage

buIldIng / oPtImIzIng the schedule 0.5 dPlanning of activities, structure (WBS) and definition of terms. Constraints to meetPreliminary Engineering: bar chart. Evaluation of the duration of each activityLogical links between activities. Critical path. Margins. Critical Path Method, Precedence DiagramResource management. Optimization of the duration of an activity

onshore case study usIng ms Project 1 dPresentation of a fictitious revamping onshore project (which entails a plant shutdown) to be used as case studyDemonstration of software functions. Critical path visualizationInput and coding of activities, tasks and resources. Reporting levelsPhysical progress update for reporting purposes

oFFshore case study usIng PrImavera 3 dPresentation of a fictitious deep offshore project to be used as case studyDemonstration of software functionsDefinition of the list of project activities to be carried out according to the project scope of worksInput and coding of activities, tasks and resources necessary to project executionSequence of the activities and estimation of their duration. Probabilistic approach in schedulingCritical path visualizationVarious types of progress (physical, cost, hours). Follow-up methodsRelationship between cost progress and schedule

PurPoseElaboration, optimization and control of the schedule of a project

audIenceProject engineers responsible for building, optimizing and controlling the schedule of capital projects implemented in oil and gas operating facilities

learnIng objectIves - To understand the schedule elaboration process of a project, depending on its phase

- To understand the advantages and drawbacks of the various schedule computer tools available on the marketplace

- To create the schedule of a project using one of these tools (Microsoft Project, Primavera)

Ways & meansthe course is illustrated by examples taken from actual exploration / Production projects (onshore/offshore)demos and actual exercises are performed by small teams of two personscomputer software interfaces are used during most of the course, with the help of professional users

Project Planning & Schedulingapplication to oil & gas upstream Projecte-

746




5 days

ReferencePL / PSPCGBPL / PSPCFR


219

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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Logistic Engineering Ready-to-use skills

Team building & base work

Handling HSE challenges

Mastering transport issues

Managing different stakes in the EP phase

With the Logistic EngineerGRADUATE CERTIFICATE

221

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ects

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ogis

tics


Rueil Feb 01 - Mar 18 €22,990 PL / LET [email protected]

IntroductIon to e&P context 8 dBasic knowledge of oil & gas E&PIntroduction to E&P logistics context

logIstIc 9 dLogistic base managementTubular in logistics activitiesWarehouse managementMaterial managementIntroduction to civil worksLifting & handling operations

transPortatIon Issues 7 dAir transport - Techniques and methodsSea transport - Techniques and methodsRoad transportationTransport of dangerous goodsMeteorology for air, road and sea transport

management Issues 6 dManagement of HSE & qualityWaste managementCost control (budget, OPEX, etc.)Contracts and purchasing for buyersVisit of contractors

Project 5 dLogistic project and presentation of projects to the jury

PurPoseTo give the trainees an overall view of the various aspects treated by Logistics specialists for this strategic component of the exploration & production activity in exploration, projects, operations decommissioning

audIenceLogistic engineers, technicians called on to hold positions in an E&P logistics organization: logistic manager, base managers, etc.

learnIng objectIves - To manage the approach of the stakes related to the exploration and production of an Oil & Gas field

- To explain the differences between road, sea and air transport

- To deal with HSE challenges - To make a logistic base work and organize the different jobs carried out by the relevant involved staff

Ways & meansa logistic project will be run in work groups in parallel of the course and will be presented to a jury. a certificate will be issued by IFP training upon successful completion of this program checked through a continuous evaluationnumerous lively videos and animations used throughout the presentations to illustrate the main pointsthe training course features the visit of contractors facilities

noteDurations are only for information and may vary depending on course organization, and lecturers’ availability This course can be delivered in French, with documentation in English

Logistic Engineer Certificationapplication to oil & gas upstream Projectse-

770c



35 days

Reference PL / LET





Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Logistic Engineering Ready-to-use skills

Team building & base work

Handling HSE challenges

Mastering transport issues

Managing different stakes in the EP phase

With the Logistic EngineerGRADUATE CERTIFICATE

222


Rueil Jun 06 - 16 €5,160 PL / OFFGB [email protected]

module 1: subsea ProductIon systems (cf. e-781) 5 dSubsea components and field architecturePipelines and risersSubsea construction & interventionInspection, maintenance and repairOperational challengesOperation from production platformsNew technologies

module 2: subsea PIPelInes (cf. e-782) 4 dIntroductionPipeline operation: main constraintsDesign of rigid pipelines & risersFlexible pipelines designOffshore pipeline constructionShore approach constructionTrenching & protectionSubsea tie-in methodsPrecommissioning & piggingPipeline integrityWorkshop

PurPoseTo provide technical knowledge on Oil & Gas Subsea production systems

audIenceEngineers and technicians whose activity is related to the design, construction and/or operation of Oil & Gas subsea production systems

learnIng objectIves - To select the technology with the right criteria for the different equipment used for subsea production systems

- To select through typical subsea architecture and in particular in deep offshore

- To check installation techniques (with ROV, etc.)

- To deal with the main problems of flow assurance, and prevention techniques

Ways & meanslectures carry numerous examples from ongoing projectseach step of the course is illustrated by numerous examples taken from actual oil & gas construction activitiestraining e-780 may be validated, on request, as such when all modules have been done

noteAll the modules are independent and may be done separately. Please refer to the training description for more details This course can be delivered in French, with documentation in English

Subsea Activitiesapplication to oil & gas upstream Projectse-

780




9 days

Reference PL / OFFGB


223

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Rueil Jun 06 - 10 €3,210 PL / SPSGB [email protected]

subsea comPonents & FIeld archItecture 1.5 dTypical field architectures: loop, single line, hybrid loop, separation…Surface production and storage technologies: FPSO, TLP…Subsea production systems: XT, jumper, manifold, production lines, risers, umbilicalsUmbilical networks: electrical, hydraulic, chemicals…Flowlines, risers and export systemsExamples of offshore developmentsPipeline and riser conceptMaterials (steel, corrosion resistant alloys, anti-corrosion coatings, thermal insulation…)Pipeline InstallationNew technologies under development (subsea separation, subsea processing, subsea pumping, subsea compression, heating, surface support…)

subsea constructIon & InterventIon 1.5 dConstruction and multi-purpose support vesselsSurface and subsea positioningROV / diving operationsDescription of main subsea interventions methods

InsPectIon, maIntenance and rePaIr 1.5 dAnomalies: physical/structural integrity issues; functional non-conformities integrity issuesExternal and internal inspection, monitoringMaintenance: subsea interventions; operational piggingClamps and spool repairsConstraints specific to deepwater offshore productionEnvironmental constraints (temperature, sea, seabed, access…)Flow assurance issues: pressure, temperature, hydrates

oPeratIon From ProductIon PlatForms 0.5 dGeneral description (subsea control devices, valve actuation process…)Description of typical operationsDescription of specific operations

PurPoseTo provide an in-depth technical knowledge of oil and gas subsea production systems

audIenceEngineers and technicians involved in the design, construction or operation of oil and gas subsea production systems

learnIng objectIves - To select the technology with the right criteria for the different equipment used for subsea production systems

- To select through typical subsea architecture and in particular in deep offshore

- To check installation techniques (with ROV, etc.)

- To deal with the main problems of flow assurance, and prevention techniques

Ways & meanslectures carry numerous examples from ongoing projectstrainers are specialized engineers, presently involved in deep-offshore projects

noteThis module is part of the course E-780 Training E-780 may be validated, on request, as such when all modules have been done

subsea activities - module 1

Subsea Production Systemsorganized in collaboration with stat marine sase-

781



5 days

Reference PL / SPSGB



224


Rueil Jun 13 - 16 €2,520 PL / PIPEGB [email protected]

PIPelIne oPeratIon: IntroductIon & maIn constraInts 0.5 dDefinitions - Architecture of oil & gas production facilitiesPipeline conceptsRiser conceptsFabrication of carbon steel line pipeConstraints associated to subsea environmentFlow regimes and instabilitiesMaintaining the flow in pipelines: management of depositsPreservation during shutdown, restartProduction monitoring and control from surfaceImpact of operational constraints on architecture and design

desIgn oF rIgId PIPelInes & rIsers 0.5 dOverview of pipeline design phasesSurvey techniques and route selectionThermal performance designMechanical designInternal & external corrosionMaterialsStabilitySpansExpansion and bucklingRisers design specificitiesLimit state design

FlexIble PIPelInes desIgn 0.25 dSpecificities of flexible pipeline design

oFFshore PIPelIne constructIon 0.5 dPipe lay methods (S, J, reel, tow)Initiation / abandonment, installation of in-line structuresPipe lay vessels & equipmentWelding and NDTComparison of installation methods

shore aPProach constructIon 0.25 dShore approach construction and horizontal drilling

trenchIng & ProtectIon 0.25 dRequirements for pipeline protectionSoil classificationOverview of protection methods

subsea tIe-In methods 0.25 dConventional tie-ins incl. hyperbaric weldingDeepwater tie-insThermal insulation of tie-ins

PrecommIssIonIng & PIggIng 0.25 dIntroduction to pipeline piggingPipeline precommissioningOperational piggingIntelligent pigging

PIPelIne IntegrIty 0.75 dPipeline failuresManagement of integrityInspection and maintenanceAssessment of pipelines with defects - RequalificationRepair

WorKshoP 0.5 dWorked example covering the main topics of the training

PurPoseTo provide an in-depth technical knowledge of oil and gas subsea pipelines

audIenceEngineers and technicians involved in the design, construction or operation of oil and gas subsea pipelines and risers

learnIng objectIves - To grasp the fundamental concepts for designing subsea pipelines

- To comprehend thoroughly the construction methods and laying techniques, including subsea tie-in and shore approach

- To manage pipeline integrity, inspection and repairs

Ways & meanslectures carry numerous examples from ongoing projectstrainers are specialized engineers, presently involved in deep-offshore projects

noteThis module is part of the course E-780 Training E-780 may be validated, on request, as such when all modules have been done This course can be delivered in French, with documentation in English

subsea activities - module 2

Subsea Pipelinesorganized in collaboration with stat marine sase-

782




4 days

Reference PL / PIPEGB


225

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E-702 Project Management Certification Graduate Certificate ...................................................................................... p. 291

E-730 Construction Management Training .................................................................... p. 292

E-731 Construction Techniques & Site Visit................................................................... p. 292

E-732 Construction Site Administration ........................................................................ p. 292

E-733 Construction HSE Management ......................................................................... p. 293

E-734 Construction Offshore Installation ....................................................................... p. 293

E-735 Construction Works Supervision......................................................................... p. 293

E-737 Construction Superintendent Certification .......................................................... p. 294

E-783 Subsea Integrity Management (I) - Inspections, Monitoring & Testing .................. p. 295

E-784 Subsea Integrity Management (II) - Non Conformity Management ...................... p. 295

E-785 Subsea Operations & Interventions - Remote Operated Vehicles (ROV) .............. p. 295

226

f General E&P Training ............................... p. 229 to 231

f Geosciences ............................................ p. 232 to 243

f Reservoir Engineering ............................. p. 245 to 251

f Geosciences Field Trip ............................ p. 253

f Drilling & Completion ............................... p. 255 to 261

f Field Operations & HSE ........................... p. 262 to 289

f Projects & Logistics ................................. p. 291 to 295

In-House Training

227



Key benefits:

Reservoir engineering, drilling & completion

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Petroleum Engineering Ready-to-use skills

Petroleum economics & project management

Risk management & safety engineering

Well production, oil, water & gas field processing

With the GRADUATE CERTIFICATEin Petroleum Engineering

229

IntroductIon to petroleum geophysIcs 5 dElements & processus of reservoirs. Diagraphy analysis - Seismic acquisition, processing, imaging and interpretation. Prospects evaluation

reservoIrs characterIzatIon 5 dArchitecture of the reservoirs. Petrophysic/properties of the rocks - Reservoirs’ heterogeneities

drIve mechanIsm - enhanced oIl recovery 5 dReservoir engineering workflow. Drive mechanism. Enhanced oil recovery

drIllIng fundamentals 5 dDrilling operations. Architecture of the well & completion

Well productIvIty & reservoIr - Wellbore Interface 5 dWell productivity. Reservoir wellbore interface implementation

artIfIcIal lIft and Well InterventIon fundamentals 5 dArtificial lift: gas lift, ESP. Types and means of intervention on producing wells. General procedure of a workover - Case study

Well control 5 dIntroduction to well control methods. Equipment. Wireline, coiled tubing, snubbing

thermodynamIcs applIed to Well effluent processIng 5 dWell effluent - Ideal gas and real fluid behavior. Gas compression and expansion. Liquid-vapor equilibrium of pure components and mixtures - Mixture separation

oIl & Water treatment 5 dCrude oil treatment: stabilization, dehydration, sweetening. Reject and injection water treatment

gas processIng and condItIonIng 5 dGas processing: dehydration, sweetening, NGL recovery. Fundamentals of Liquefied Natural Gas (LNG) Chain

statIc equIpment & schematIzatIon 5 dPiping & valves. Storage equipment. Thermal equipment. Flow assurance. Schematization

electrIcIty & InstrumentatIon 5 dTypical architecture of an industrial electric distribution network. Instruments and control command. SIS – F&G

meterIng and allocatIon 5 dData treatment. Transactional metering of liquids and gases: fluids dynamics, equipment. Multi-phase metering: operating principle and equipment, alternatives

rotatIng machInery 5 dCentrifugal and positive displacement pumps. Compressors and turbo-expanders. Gas turbines

offshore fIeld developments - floW assurance 5 dOffshlore development architecture. Technology & deep offshore specificities. Pipelines

safety & envIronment In surface processIng facIlItIes 5 dProduct and equipment related risk - Hazards for personnel. Safety in production operations and during construction or repair works. Safety management and responsibilities. Introduction to fundamentals of safety engineering

safety engIneerIng 5 dHAZID application, HAZOP exercise, plant layout exercise. Consequence analysis methodology. Safety Instrumented Systems, shutdown system, blow-down system, PSV’s and mechanical systems

petroleum economIcs and project management 5 dFundamentals of contracts. Project profitability evaluation - Risk analysis of Exploration & Production projects. Project cost estimation and cost control

fIeld development project - jury 10 d

purposeTo provide in-depth technical knowledge of oil and gas production in order to hold rapidly, and very effectively, the position of field engineer, design engineer, or project engineer

audIenceEngineers (particularly recently graduated engineers or engineers in conversion) looking to acquire in-depth knowledge and best practices of oil and gas production

learnIng objectIves - To grasp fundamentals of reservoir engineering and drilling

- To explain well completion and servicing, well performance and artificial lift





- To identify main risks related to O&G production operations and review safety engineering best practices


Ways & meanshighly interactive training with industry specialist lecturersmultiple teamwork sessions and industrial case studiesnumerous process simulation exercises using proII™ software

Petroleum Engineering Certification

e-53

7c


graduate certificate

100 days

Reference: PROD / PETROLENG



Key benefits:







IN-H

OuSE

TRA

ININ

GGe

nera

l E&P

Tra

inin

g

230

In-house TraInIng

purpose

The success of an oil company depends on appropriate strategy, effective data interpretation and collaborative teamworkThis course has been designed to stimulate the participants’ desire for learning, and to capture their attention with an adequate blend of challenges, competition and collaboration, making the learning experience both enjoyable and educational, whatever their professional origin and backgroundThe course is supported by the DALLAS™ software package, which is a dynamic training tool based on an innovative learning platform

audience

Geologists, geophysicists and reservoir engineers, with short experience, who need to acquire a full view of the exploration, development and production workflow, in particular those who will join in multidisciplinary or asset teams - but also petroleum engineers, support staff, and non-technical staff, high potentials in the Oil & Gas upstream industry whose activity (either commercial, legal, financial or marketing) is calling for interaction with NOCs or International Operators, including executive managers and government officials

learning objectives

- To acquire a global vision of the upstream petroleum industry

- To evaluate reservoir characteristics and potential using adequate geophysical and geological information

- To understand how uncertainties inherent to data influence the capability to interpret them

- To draw field development plans by balancing development costs versus production rates, in order to maximize NPV

Ways & means

A series of hands-on activities and exercises (maps, seismic sections, prognoses, logs, OWC, volumetrics, pitfalls, etc.) is proposed through sequential workshops to highlight key phases and illustrate lectures

note

The present program of this “serious game” has been based on an attendance figure of 15-18 participants, i.e. 5-6 teams of 3

e-03

3 Hunting for Oil: Exploration & Upstream Overview

general e&p training

proficiency

Reference: GEO / HFO

agenda 5 days

The Hunting For Oil™ (HFO™) course presents a practical overview of the mostly used techniques in of the upstream Oil & Gas industry, from prospect exploration to field development and production

Participants will learn to select and acquire license blocks, use seismic data, plan drilling activities, develop their field by analyzing technical aspects, and manage the time line, the budget and other critical factors related to field development

Trainees are ideally grouped in teams of 3, and each team acts as a virtual oil company that competes with the others. All teams have the same mission: explore for economically viable volumes of hydrocarbons in a new area

During the learning simulation, teams buy geoscientific information in “data rooms”, analyze the data and discuss the appropriate actions to take. Eventually, the teams define and implement their strategy in order to deploy the best scenario - and win, through mutual complementary interaction. Both cash flow and production are taken into account for the final evaluation

The course also gives a comprehensive evaluation of specific risks and uncertainties at each step of the decision-making process in E&P

f Introduction - Exploration geology

f Exploration geophysics

f Hydrocarbon traps - Operations geology

fWell completion - Reservoir engineering - Production monitoring

f Reserve evaluation - Reservoir modeling - Conclusion

For more details and to organize an in-house course for your company at any location, contact us today

[email protected]

231

purpose

To provide the participants with a clear view of the contractual and economic framework of Exploration-Production in order to apprehend the tools for decision making, financial management and audit

audience

Managers from the Exploration-Production sector who must acquire a complete picture of all the economic, financial and contractual aspects of the hydrocarbons exploration and production activities

learning objectives

upon completion of the course, participants will be able: - to evaluate all aspects of taxation and contracts used in the upstream sector

- to build advanced economic models for the economic evaluation of Exploration-Production projects


- to incorporate the geological risk and uncertainty in the economic evaluation of E&P projects

- to analyze the main corporate financial statements (Profit/Loss and Balance Sheet) issued by oil companies

Ways & means

Case studies simulated on computers:Development of an oil field (under concession and production sharing agreements)Acceleration of production project with or without EOR (Enhanced Oil Recovery)LNG plant project with specific financingGas pipeline project with specific financingImpact of “ringfencing” and the state participation in the decision-making processValuation of a decision to acquire information (seismic or drilling)Pricing of an exploration blocAnalysis and construction of balance sheets, income statements and key financial statements of an oil & gas companyExamples of petroleum laws & fiscal regimes around the world (North West Europe, North Africa, West Africa, Middle East, Asia-Pacific, etc.)

agenda 15 days

Module 1 - upstream economic and contractual framework

f upstream economic environment 1 d

f Contractual and fiscal framework of upstream projects 4 d

Module 2 – upstream project economics

f Economic analysis of E&P projects 4 d

f Risk analysis of e&p projects 1 d

Module 3 – upstream accounting and finance

f upstream accounting and financial management 5 d

purpose

To provide participants with an in-depth understanding of the concepts and mechanisms of Production Sharing and Joint Operating Agreement

audience

Exploration and production professionals, legal personnel entering the E&P scene, service companies managers and government employees

learning objectives

upon completion of the course, participants will be able: - to identify the main concepts, principles and rules of a Production Sharing Agreement which contractually binds petroleum companies with a ministry and/or a state oil company

- to evaluate the management of Petroleum Exploration and Production partnerships to successfully find and produce hydrocarbons

- to discuss the practical aspect of contracts: identifying key issues, understanding constraints and deadlines, getting familiar with the document

Ways & means

Case studiesExercises on Production Sharing ContractsAnalysis of Joint Operating AgreementsExamples of petroleum laws & fiscal regimes around the world (North West Europe, North Africa, West Africa, Middle East, Asia-Pacific, etc.)

agenda 3 days

f Production Sharing Agreements (PSA) 2 d

f Joint Operating Agreements (JOA) 1 d

purpose

The participants will participate actively as well in the various lectures they will have to cover the economics of the oil and gas chain as well as the management tools used in the industry; putting everything back in perspective with their company’s business

audience

The course is designed for high potential executives with minimum of two years experience. It is suitable to both technical and non-technical professionals who seek to develop good business awareness and understanding of the oil and gas industry

learning objectives

upon completion of the course, participants will have: - seen the main economic, market, physical, environmental and political forces driving energy demand, supply, and prices

- connected the key links and terms of the oil and gas industry, from the exploration well to the final products

- understood the fundamental management tools and decision processes in an international oil and gas company

- applied practical decisions and experienced the risk of doing business in the oil and gas industry on a worldwide scale through a computer “Strategic Management Game”

Ways & means

This course is built on interactive presentations, exercises and team gamesWorking in competing teams, participants have to:Evaluate and anticipate the driving factors of oil prices through the “Oil price game”Rebuild the E&P chain of an offshore projectTake a quiz on natural gas businessPrice a cargo of crude oilCalculate refining margins and the main economic indicatorsEvaluate the economic profitability of an oil field development, gas pipeline & LNG projectsImplement business decisions & evaluate its impact through the use of an Excel simulator “Strategic Management Game”

agenda 5 days

f International oil environment 0.5 d

f upstream economics 0.5 d

f Natural gas economics 0.5 d

f Transport and international oil markets 0.5 d

f Refining economics & petrochemicals 0.5 d

f Project economics & decision analysis tools 1.5 d

f Strategic management game 1 d

e-06

0

Upstream Economics & Management

e-06

4 Production Sharing & Joint Operating Agreements e-

082 Strategic Management in International

Oil & Gas BusinessEssential Business Management Skills

for Oil & Gas Professionals

foundation

Reference: EAM / UEM Reference: EAM / PSA

proficiency

Reference: ENE / SBA

foundation

IN-H

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Tra

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232

In-house TraInIng

purpose

To provide a thorough understanding of seismic reflection and its useTo acquire concept in imaging subsurface for geological interpretation purposes

audience

E&P professionals with no or weak experience in seismic

learning objectives

- To assess main steps of seismic reflection workflow, from acquisition to interpretation

- To understand fundamentals of seismic wave propagation with relation to petrophysical properties of subsurface

- To grasp methodology of surface and borehole seismic acquisition, processing and interpretation

Ways & means

Interactive presentations, exercises, document analysis and videos

agenda 5 days

fWelcome - Introduction to seismic reflection

f Seismic waves propagation and signal processing

f Seismic acquisition

f Seismic processing and imaging

f Borehole seismic

f Seismic interpretation

f Seismic for reservoir analysis

f Conclusion and synthesis

purpose

To provide a thorough introduction to concepts and mathematical tools of signal processing used in seismic surveys, from acquisition, processing to interpretation

audience

E&P Geoscientists with experience in Signal Processing

learning objectives

- To understand fundamentals of signal processing algorithms (Fourier, etc.), and their application in geophysics

- To use appropriate sampling and filtering techniques, with correlation and deconvolution processes to improve geophysical data

- To assess application constraints and limits of the methods

prerequisite

It is highly recommended to have a good knowledge of fundamentals in mathematics and signal processing

Ways & means

Interactive presentations, exercises and document analysis90% of the training duration is devoted to workshop on PC, using Signal Processing Software

agenda 5 days

f Overview on seismic acquisition and processing

f The Fourier transform

f Common functions in spectral analysis

f Time and spatial sampling

f Correlation

f Filters

fWave separation

f Deconvolution and filter estimation

note

Number of seats limited to 14Tuition fees include deliverables on DVD

purpose

To provide a comprehensive understanding of borehole seismic: bridge between borehole and surface dataultimately, to improve knowledge of reservoir characteristics

audience

E&P geoscientists with no or weak experience in borehole seismic

learning objectives

- To understand fundamental concepts of borehole seismic and different borehole seismic technologies

- To follow or supervise design and operations of standard borehole seismic acquisition and/or processing

- To ensure a reliable surface seismic calibration

prerequisite

It is highly recommended to have a good knowledge of fundamentals in seismic wave propagation, acquisition and processing, as well as in structural geology

Ways & means


agenda 5 days

f Introduction to borehole seismic

f Borehole seismic acquisition

f Borehole seismic processing

f Borehole seismic 2D and 3D imaging

f Special products from borehole seismic

f Borehole seismic applications and interpretation

f Advanced features

e-10

0

Seismic Reflection Fundamentals

e-10

1 Signal ProcessingA tool for experienced Geoscientists e-

110

Borehole Seismic

geosciences

foundation

Reference: GEP / SEISREF Reference: GEP / SIGNAL

advanced

Reference: GEP / BORESEIS

proficiency


[email protected]

233

purpose

To provide a comprehensive understanding of how to monitor and use geological data acquired while drilling in order to characterize geological formations and reservoirs

audience

Geologists, technicians involved with geological well-site control and/or supervisionGeoscientists using well geological reports

learning objectives

- To understand the role of a well site geologist - To grasp various techniques applied in wellsite geology and coring operations

- To learn about various aspects of geological logging

Ways & means

Interactive presentations, applications on case studies, team work

agenda 5 days

f Drilling parameters

f Geological parameters

f Hydrocarbon gases

f Geological logging

fWorkshop session: case study

purpose

To provide a comprehensive knowledge of cased-hole logging techniques and production log interpretation, along with the industry’s best practices and procedures

audience

Production engineers and supervisors, drilling and workover engineers and supervisors, wellsite geologists and witnesses

learning objectives

- To acquire an insight into well cementation control, corrosion

- To determine characteristics of formations behind the casing and reservoir saturation

- To carry out a quick interpretation of production logs

Ways & means

Short lectures and videos completed with practical exercises and case studies

agenda 5 days

f Cement evaluation

f Corrosion evaluation

f Formation evaluation in cased hole (saturation)

f Production logging

purpose

To provide a practical understanding of production log interpretation in vertical, deviated or horizontal wells using a dedicated software

audience

Production, reservoir or workover engineers, field production managers, and supervisors

learning objectives

- To carry out a basic interpretation of PLT data using the software program Emeraude™

- To learn the interpretation technique for horizontal wells

- To practice on multi-probe analysis with data gathered from Multi Array Production sondes and Flow Scan Imager

prerequisite

Knowledge of PLT calibrations, holdups measurements and flow-rates calculations is recommended

Ways & means

Hands-on sessions with use of production log interpretation software Emeraude™ of KAPPA Engineering

agenda 5 days

f Basic features and software practice

f PL interpretation of diphasic flows

f Horizontal wells

f PL interpretation with multiple probes tools

f Single phase gas well

e-15

0

Wellsite Geology (Geological Logging)

e-18

0

Cased-Hole & Production Logging

e-18

1

Production Log Interpretation

foundation

Reference: LOG / WSGEOL Reference: LOG / LOGPROD

foundation

Reference: LOG / LPEMR

foundation

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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Basin Assessment & Modeling Ready-to-use skills

Determining exploration targets using basin modeling techniques & assessing related risks

Integrating basin assessment concepts & techniques

Understanding exploration project workflows

Building a structural, stratigraphic & sedimentological model

With the GRADUATE CERTIFICATEin Basin Assessment & Modeling

235

traInIng on exploratIon geology dIscIplInesLectures, hands-on activities and case studies are distributed in several modules of one- to two-week longTraining content presents a clear operational orientation in order for participants to get familiar with specific techniques via an extensive exposure to simulations on real cases allowing them to anticipate the problems they will have to cope with later in their own projects

- Introduction to petroleum exploration: techniques and methods - Petroleum system processes analysis - Seismic and well data interpretation to determine basin infilling and architecture, and trap geometry

- Sequence stratigraphy analysis - Basin analysis and modeling, prospect generation - Analysis of risks and uncertainties related to prospect definition - Introduction geological characterization of reservoirs

evaluatIon of acquIred knoWledgeWeekly quiz at the end of each moduleInitial evaluation test on training start and final assessment test at the end of the program to assess participants’ learning curve and knowledge acquisition

project report defence and juryThe training program ends with a project on a real case. Participants are involved in a simulated situation and their mission is to summarize, integrate and apply acquired knowledge. Each team will present final results of project to a jury

purposeTo provide a comprehensive, practical knowledge of basin exploration, analysis & modeling workflow, and to develop competencies and know-how via hands-on activities, case studies and simulations based on state-of-the-art techniques and methods for play assessment and prospect definition

audIenceGeologists, geophysicists and reservoir engineers involved in basin analysis and prospect generation, and in the evaluation of exploration-related risks

learnIng objectIves - To acquire a clear comprehension of analysis methods and techniques applied to basin exploration and related challenges

- To be able to analyze and interpret a dataset from a specific basin, and to integrate the data in order to elaborate a reliable petroleum system model

- To build a structural, stratigraphic and sedimentological model, and to track back basin evolution in order to understand play concept and define related prospects

- To characterize the evolution of a basin, and build the corresponding stratigraphic and thermal model

- To contribute to the reduction of uncertainty and risks, and optimize investments

prerequIsIteThis training program suits candidates with an engineering degree, a master degree in geosciences or an equivalent diploma, technicians involved in an upgrade process or who wish to validate their know-how in covered disciplinesA previous experience is not mandatory but can facilitate the learning process

Ways & meansan important part of the formation is dedicated to hands-on activities and simulations on real casesemphasis is put on practical work to develop participants’ autonomy and their capacity to make appropriate decisionsboth personal and group work will contribute to team-building, stimulate debating and communicating about resultscase studies are carried out on most popular software tools used in the petroleum industry

Basin Assessment & Modeling Certification

e-20

1c



60 days

Reference: GEO / BASMODCER



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Basin Assessment & Modeling Ready-to-use skills

Determining exploration targets using basin modeling techniques & assessing related risks

Integrating basin assessment concepts & techniques

Understanding exploration project workflows

Building a structural, stratigraphic & sedimentological model

With the GRADUATE CERTIFICATEin Basin Assessment & Modeling

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236

In-house TraInIng

purpose

To provide a practical knowledge of petroleum exploration and develop competency needed to participate actively in multidisciplinary project teams

audience

Geologists, geophysicists, young professionals interested in petroleum exploration techniques

learning objectives

- To review most common exploration techniques, via an integrated multidisciplinary approach

- To understand standard workflows used in exploration for multidisciplinary teams integration

- To acquire both skills in basin structural & sedimentological analysis, and related know-how in assessing hydrocarbon potential and identifying prospects

Ways & means

Short daily lectures followed by hands-on sessionsThe workshop includes both individual work (exercises) and team work (case studies)

agenda 5 days

f Basin analysis

f Petroleum systems

f Seismic interpretation

fWell log analysis

f Basin potential evaluation

purpose

To provide an in-depth knowledge of key elements that characterizes the structural style of a sedimentary basin

audience

Petroleum exploration geoscientists, multidisciplinary-team managers

learning objectives

- To identify the structural style of a petroleum area - To grasp issues of tectonic evolution versus petroleum system

Ways & means

Interactive courseWorkshop on real case studies

agenda 5 days

f Plate tectonics and coeval structural styles

f Extensional and compressional deformations and coeval structural traps

f Relationship between geological structure and sedimentary processes

f Exploration and development problems associated with structural styles

f Synthesis and conclusion

purpose

The main objective is to gain a greater understanding of important geological processes in a petroleum basinTo provide an understanding of various geochemical techniques, leading to sedimentary basins’ hydrocarbon potential evaluation and to the identification of hydrocarbon migration pathways

audience

Geologists, geophysicists or geochemists involved in petroleum potential evaluation or in reservoir management

learning objectives

- To review the petroleum system concept and associated processes

- To get practical insights of basic analysis of geochemical data and reports

- To assess and analyze geochemical data in order to evaluate source rock potential and maturity

Ways & means

Several exercises and case studies

agenda 5 days

f Introduction to petroleum systems

f Source rocks: formation and distribution

f From source rock to accumulation

fMolecular fossils, biomarkers

f Alteration in reservoirs

f The petroleum system of South Atlantic

fWorkshop on a petroleum system

f Conclusion – Synthesis

e-20

0 Fundamental Basin Exploration Workshop e-

211 Structural Analysis

& Associated Traps e-21

3 Petroleum Systems: from Source Rock to Reservoir

foundation

Reference: GEO / INFO Reference: GEO / STRUCT

proficiency

Reference: GEO / GEOCHIM

foundation

geosciences

237

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[email protected]

238

In-house TraInIng

purpose

To provide the knowledge and skills required to assess and move forward with field studies; from discovery, through appraisal, and on to development, always looking for the best scenario of all

audience

Geologists, geophysicists, reservoir engineers

learning objectives

- To acquire state-of-the-art exploration methodology and workflow for prospect definition and to evaluate related probability of success

- To identify the link between exploration workflow (leading to the discovery well) and field development stages, while evaluating field potential (at each step of the process)

- To acquire practical knowledge of both appraisal and development workflows using a real case study

Ways & means

Exercises and case studies on real examplesGroup workshop on development case histories

agenda 10 days

Week 1: Basin analysis to prospect evaluation - From play to prospect ...................................... 5 d

f Introduction to petroleum system & basin analysis

f Risk analysis

f Basin assessment and prospect evaluation

Week 2: Oil field development - From discovery to production start ........................................... 5 d

f Introduction to E&P workflow

f Discovery

f Appraisal phase

f Engineering studies

purpose

To provide an in-depth and practical understanding of stratigraphic modeling following a comprehensive workflow

audience

Junior exploration geoscientists, multidisciplinary-team managers

learning objectives

- To grasp methodology of sequence stratigraphy and concepts of stratigraphic evolution

- To model stratigraphic evolution of a basin using the software program Dionisos™

- To predict reservoir distribution and geometry and assess efficiently the stratigraphic architecture of a sedimentary basin

Ways & means

Hands-on training sessions on workstationuse of the software program DIONISOS™Exercises and reports to launch questions and discussions at the end of the course

agenda 5 days

f Sequence stratigraphy analysis

f Stratigraphic parameters

f Accommodation and shoreline shifts

f Seismic and wells analysis

fModeling loop

purpose

To provide an in-depth and practical understanding of thermal basin modeling in a comprehensive workflow; including modeling of oil maturation and hydrocarbon migration, and leading to the assessment of hydrocarbon potential of an exploration block or a prospect

audience

Junior petroleum exploration geoscientists, multidisciplinary-team managers

learning objectives

- To understand source rock maturation and hydrocarbons generation

- To assess most significant basin modeling parameters for regional basin model construction (with TEMIS1D™)

- To understand hydrocarbon migration processes (with TEMIS2D™) and to evaluate the hydrocarbon potential of a given area

Ways & means

Afternoon sessions are devoted to case studies based on non-proprietary data provided by IFPuse of the software programs TEMIS1D™ and TEMIS2D™, maximum 2 participants per workstationBy the end of each afternoon, participants generate short reports which are assessed the following dayParticipants have the alternative of using their own dataupon request, the course can make use of a company’s regional dataset, provided the latter is made available in advance

agenda 5 days

f Sedimentary basin modeling through out time

f Thermal history

fMaturation and expulsion

f Hydrocarbons migration

e-21

7 From Prospect to Development: an Integrated Approach e-

218 Stratigraphic Modeling: Basin

Architecture & Sediment Distribution e-21

9 Basin Modeling: Thermicity, Maturation & Migration

geosciences

proficiency

Reference: BAS / PROSPECT Reference: BAS / DIONISOS

proficiency

Reference: BAS / TEMIS

proficiency


[email protected]

239

purpose

To provide, through daily practical exercises and an integrated project, a thorough and very practical understanding of seismic and sequence stratigraphy for oil and gas exploration

audience

Geologists, geophysicists, production managers and engineers involved in exploration or reservoir characterization

learning objectives

- To understand the use of sequence stratigraphy as a tool in basin exploration, and describe related workflow structure

- To ensure accurate stratigraphic breakdown of well data

- To manipulate and use a full dataset in an integrated project: well logs, biostrat information, and 2D lines

Ways & means

The most important elements in this process are: accurate stratigraphic breakdown of well database and stratigraphic data loading both into the well and the seismic databases

agenda 10 days

f Sequence stratigraphy concepts and method

fWell log and seismic responses of lowstand systems tracts

fWell log/seismic responses of neritic systems tracts

fWell log/seismic responses of neritic systems tracts (alluvial plain to delta front)

fWell log/seismic responses of neritic systems tracts (siliciclastic shelf)

f Data integration

e-22

0 Seismic & Sequence Stratigraphy for Oil & Gas Exploration

advanced

Reference: BAS / STRATADV

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Key benefits:

Building the bridge between geological characterization & dynamic behavior

With the GRADUATE CERTIFICATEin Reservoir Characterization& Modeling

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Reservoir Characterization & Modeling Ready-to-use skills

Building a reliable geological model with heterogeneities affecting production

Developing advanced skills in reservoir characterization & modeling

Analyzing methods applied to reservoir modeling

241

traInIng on reservoIr geology dIscIplInesLectures, hands-on activities and case studies are distributed in several modules of one- to two-week longTraining content presents a clear operational orientation in order for participants to get familiar with specific techniques via an extensive exposure to simulations on real cases allowing them to anticipate the problems they will have to cope with later in their own projects

- Introduction to reservoir characterization & modeling objectives and workflow - Stratigraphic and sedimentological reservoir analysis - Seismic and well data analysis and interpretation, to identify reservoir geometry and evaluate in-place volumes of hydrocarbons

- Rock type analysis and propagation with geostatistical tools - Reservoir characterization and static modeling (both fractured and non-fractured) - Introduction to reservoir engineering, dynamic modeling and uncertainty assessment

evaluatIon of acquIred knoWledgeWeekly quiz at the end of each moduleInitial evaluation test on training start and final assessment test at the end of the program to assess participants’ learning curve and knowledge acquisition

project report defence and juryThe training program ends with a project on a real case. Participants are involved in a simulated situation and their mission is to summarize, integrate and apply acquired knowledge. Each team will present final results of project to a jury

purposeTo provide a comprehensive, practical knowledge of reservoir characterization & modeling workflow, and to develop competencies and know-how via hands-on activities, case studies and simulations based on state-of-the-art techniques and methods with the aim of bridging the gap between the geological characterization and the dynamic behavior of the reservoir

audIenceGeologists, geophysicists and reservoir engineers involved in (or wishing to) reservoir characterization and modeling integrated studies

learnIng objectIves - To acquire a clear comprehension of analysis methods and techniques applied to reservoir modeling and related challenges

- To be able to analyze and interpret a dataset from a specific basin, and to integrate the data in order to elaborate a reliable static model

- To build a consistent geological static model which takes into account and integrates all heterogeneities that might affect fluid flow and production

- To know how to model a clastic, carbonate and/or a fractured reservoir

- To contribute to reducing uncertainty and risks, and thus optimize investments

prerequIsIteThis training program suits candidates with an engineering degree, a master degree in geosciences or an equivalent diploma, technicians involved in an upgrade process or who wish to validate their know-how in covered disciplinesA previous experience is not mandatory but can facilitate the learning process

Ways & meansan important part of the formation is dedicated to hands-on activities and simulations on real casesemphasis is put on practical work to develop participants’ autonomy and their capacity to make appropriate decisionsboth personal and group work will contribute to team-building, to stimulate debating and communicating about resultscase studies are carried out on most popular software tools used in the petroleum industry

Reservoir Characterization & Modeling Certification

e-25

0c



60 days

Reference: RES / RCMCER



Key benefits:

Building the bridge between geological characterization & dynamic behavior

With the GRADUATE CERTIFICATEin Reservoir Characterization& Modeling

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Reservoir Characterization & Modeling Ready-to-use skills

Building a reliable geological model with heterogeneities affecting production

Developing advanced skills in reservoir characterization & modeling

Analyzing methods applied to reservoir modeling

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242

In-house TraInIng

purpose

To deepen understanding of Ways & means for describing carbonates from cores/outcrop analogues, logs, and seismics; and, ultimately, integrating data efficiently for reservoir characterization and static modeling

audience

Experienced geologists, geophysicists, petrophysicists, reservoir engineers involved in carbonate reservoir characterization

learning objectives

- To assess steps followed to characterize carbonate reservoirs and build a static geological and petrophysical model

- To appreciate the contribution of carbonate sedimentology and sequence stratigraphy to the model

- To assess the significant impact of carbonate diagenesis on pore-space

- To understand the complexity of carbonates’ Phi-K properties and link geological observations and petrophysics

- To review about rock-typing processes integrating sedimentology and petrophysics data

- To develop skills in building efficient workflows for carbonates reservoir characterization

Ways & means

Several practical exercises and workshops with core photos, thin section photos, log data, Phi/K data, seismic data

agenda 5 days

f Review of carbonates

f Remind of carbonate systems

f Carbonate facies analysis

f Sequence stratigraphy

f Diagenesis

f Carbonate reservoir characterization

f Real integrated case study: illustration of a complete workflow

purpose

To deepen understanding of methods used to measure reservoir petrophysical properties from cores, logs and well tests data and, ultimately, correlate and integrate results for reservoir characterization and modeling

audience

Experienced petrophysicists, reservoir engineers, geologists, geophysicists

learning objectives

- To deduce reservoir properties from log interpretation and compare results to core measurements

- To define rock-types, determine electrofacies and derive K-Phi relationship

- To integrate cores, logs and well tests data for reservoir modeling

Ways & means

Real case study with cores, logs and well tests data

agenda 5 days

f Reservoir properties from conventional and special core analysis

f Reservoir properties from log evaluation

f Rock-typing

fWell testing

f Data integration for reservoir modeling

e-26

3 Advanced Carbonate Reservoir Characterization

Organized in collaboration with Cambridge Carbonate Ltd

e-26

7 Petrophysical Properties: Core, Log & Test Data

Integration for Reservoir Modeling

geosciences

advanced

Reference: RES / ADVCARB Reference: RES / ROCKTYP

proficiency


[email protected]

243

purpose

To provide a comprehensive and practical knowledge in interpretation of sedimentary structures and seismic attributes

audience

Geologists and geophysicists with experience, who wish to improve their theoretical and practical knowledge in Seismic stratigraphy interpretation and seismic attributes analysis

learning objectives

- To perform seismic interpretation in a fluvio-deltaic sequence and carry out picking of associated sedimentary figures

- To identify and pick associated sedimentary figures

- To identify traps and seismic characters, analyze seismic attributes, and characterize potential reservoirs

prerequisite

Course requires a good grasp of fundamentals in the following fields - Geology in sedimentary process - Seismic wave propagation and rock physics - Seismic acquisition and processing - Seismic reservoir characterization

Ways & means

Interactive presentations, exercises, document analysis…Workshop on case study using dedicated seismic interpretation software

agenda 10 days

f Introduction

f Interpretation of sedimentary structures and seismic attributes analysis

f Synthesis and conclusions

purpose

This program offers a wide range of dedicated tools for seismic analysis of porous media in reservoirs. It provides a necessary and easy approach background theory, a broad set of tools for seismic interpretation highlighted by a large overview of applications in reservoir monitoring

audience

E&P geoscientists involved in seismic reservoir characterization who wish to widen their knowledge on the impact of porous media on seismic interpretation

learning objectives

- To fully address the relationships between geophysical observations and the underlying physical properties of reservoirs

- To master the numerous rheological models to obtain the most suitable link between seismic and rock physics in a given reservoir situation

- To provide practical solutions to problems in seismic data interpretation making the right decision in close collaboration with reservoir engineers

prerequisite

It is highly recommended to have some knowledge of fundamentals in seismic wave propagation as well as in reservoir characterization

Ways & means


agenda 5 days

f Introduction - Wave propagation in porous media

f Seismic wave propagation - Advanced information

f Advanced mechanical modeling - Viscoelastic models

f Scale factor between cores - Logs - Seismic

f Heterogeneous media - Advanced characterization

f Advanced characterization

f Role of fluid in porous media - Advanced issues

f Empirical relations and some applications

purpose

To provide an understanding of microseismic data acquisition and processingTo give a quicklook method based on simple tools available to analyze and interpret microseismic data, acquired in different situations like passive monitoring or hydraulic fracturing of reservoirs

audience

E&P geoscientists involved in reservoir characterization with no or weak experience in microseismic

learning objectives

- To understand the basic concepts on which microseismicity relies on

- To design, follow and supervise microseismic surveys to reliably achieving the intended objectives

- To reduce risk by learning more about your evolving reservoir geomechanism during and after hydraulic fracturing and/or passive monitoring

prerequisite

It is highly recommended to have a good knowledge of fundamentals in seismic wave propagation, acquisition and processing, as well as in reservoir characterization

Ways & means


agenda 5 days

f Fundamentals in microseismicity and microseismic waves

f Radiation pattern and focal mechanism

f Acquisition and processing

f Application and interpretation

e-30

1 Seismic Interpretation & Attributes Analysis Workshop e-

310 Seismic Characterization

New insights on reservoirs e-33

5 Microseismic: New Insights on Reservoirs

proficiency

Reference: GEP / SEISINT Reference: GEP / WAVEPOR

advanced

Reference: GEP / MICROSEIS

proficiency

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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Reservoir Engineering Ready-to-use skills

Estimating reserves while taking into account uncertainties

Building simulation models for history matching & production forecasts

Understanding reservoir drive mechanisms

Integrating data from PVT, well tests, petrophysics, etc.

With the GRADUATE CERTIFICATEin Reservoir Engineering

245

traInIng for careers In reservoIr engIneerIngFormal lectures, practical work, case studies are organized into modules lasting one to two weeks. The modules are designed to enable participants to confront scenarios allowing them to anticipate the problems they will face in their future activities

- Characterization and static reservoir modeling; reservoir geology; petrophysics; logs

- Drilling and completion; well testing and well test interpretation - Study of reservoir fluids properties; thermodynamic modeling - Drive mechanisms; enhanced oil recovery - Reserves assessment, reservoir management and uncertainties - Case study: evaluation of accumulation, identification of reservoir drive mechanisms, work out a development plan and evaluation of reserves

- Dynamic Reservoir Simulation: building a model, history matching and optimization of a simple production scheme

Weekly continuous assessmentTest at the entrance and at the end of the training in order to map the progression of the course attendee

fInal oral & juryThe program ends with a teamwork project on a real case study. Participants are put in situation of integration of the knowledge and skills acquired throughout the program. The project results are the subject of an oral presentation in front of a jury

purposeTo provide theoretical knowledge and practical skills needed to quickly integrate as a reservoir engineer the multidisciplinary teams involved in oil and gas reservoirs development and management projects

audIenceReservoir engineers and experienced technicians wishing to deepen their knowledge and skills in reservoir engineering; young engineers hired as reservoir engineers; geologists, geophysicists, reservoir geologists, production engineers moving towards reservoir engineering or involved in integrated reservoir studies and wishing to acquire a thorough knowledge of reservoir engineering

learnIng objectIves - To understand and apply reservoir engineering techniques to draw up a reservoir development plan and to building a reservoir model

- To understand and apply the techniques of reservoir modeling and to understand its relationship with reservoir engineering

- To understand and apply the techniques used to build and operate a dynamic reservoir simulation model; to be able to perform a simple history match; to be able to forecast production and optimize a simple production scheme

- To understand and apply the techniques for assessing the reserves while taking into account static and dynamic uncertainty; to be able to assess the impact of uncertainties on the evaluation of reserves and propose solutions to reduce them

- To understand and apply mature reservoir management techniques

prerequIsIteThe training is open to applicants who can justify an engineer or master graduate diploma in geosciences, a cadration procedure or a validation of prior learning in the disciplines of the program. A first experience is not required but can facilitate learning

Ways & meansan important part of the training is dedicated to scenario-based activities on real casesthe practical work is preferred in order to develop one’s autonomy and capacity to choose and make decisionthis personal work is accompanied by teamwork to discuss, to argue, to be able to communicate the resultsthe case studies are treated on software commonly used in the oil industry

Reservoir Engineering Certification

e-36

0c



65 days

Reference: GIS / RESENGCER

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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Reservoir Engineering Ready-to-use skills

Estimating reserves while taking into account uncertainties

Building simulation models for history matching & production forecasts

Understanding reservoir drive mechanisms

Integrating data from PVT, well tests, petrophysics, etc.

With the GRADUATE CERTIFICATEin Reservoir Engineering

246

In-house TraInIng

purpose

To provide a comprehensive overview of techniques used in the management of an asset, throughout its lifetime, from the discovery of a reservoir till the end of production

audience

Experienced geoscientists, reservoir engineers and petroleum engineers actively involved in production engineering related activitiesManagers in various E&P disciplines involved with interface activitiesField development engineers who need to broaden their technical experience

learning objectives

- To know and understand the fundamental concepts of Reservoir Management, from geology to hydrocarbons recovery

- To learn about best techniques and practices in oil and gas fields development

- To acquire some know-how through field case studies providing an exposure to a range of reservoir conditions

Ways & means

Interactive courses and exercisesReal field case workshop

agenda 5 days

f Introduction to reservoir management

f Reservoir monitoring: introduction

f Fluid characterization and sampling

f Drainage mechanisms

fWell testing

fMonitoring: data acquisition

f Decision processes & business aspects

f Field cases

f Reserves

f Risks & uncertainties

note

This course has a significant practical content and is therefore recommended for participants with an industrial experience and a scientific background

e-35

5 Reservoir ManagementField development, monitoring, reserves,

risks & uncertainties

reservoir engineering

proficiency

Reference: GIS / ARM


[email protected]

247

purpose

To provide a comprehensive information on core analysis and the importance of rock properties for reservoir description and fluid-flow dynamics

audience

Reservoir engineers an experienced technicians willing to deepen their knowledge in core analysis; young scientists, geoscientists and production engineers moving towards reservoir engineering

learning objectives

- To know and understand rock properties used in reservoir modeling and reservoir simulation models

- To know how to interpret and validate a SCAL report and review a quality control process

- To know how to design a SCAL program with regard to given objectives

Ways & means

Interactive lectures and exercisesInterpreting a two-phase flow experimentHands-on practices using dedicated software for SCAL data interpretation

agenda 5 days

f Introduction

f Coring

f Generalities on two-phase flow properties

f Conventional core analysis

f Design of SCAL program

fMeasurements of scal properties

f Quality control of available data

f Averaging petrophysical properties

purpose

To provide an extensive and practical knowledge for designing and analyzing complex well tests in an efficient way

audience

Geoscientists and reservoir engineers with experience

learning objectives

- To devise or recommend a well test design - To learn about the various well test analysis models

- To perform a well test interpretation using an up-to-date software package

prerequisite

Some practical knowledge of well testing operations and basic interpretation theory are recommended

Ways & means

Interactive courses and exercisesHands-on practice using state-of-the-art softwareWorkshop using real field case data

agenda 5 days

fWell testing: objectives and hardware review

f Basic equations and methods

fWellbore conditions

f Reservoir models

f Boundary models

f Test design - Practical session

f Gas wells: theoretical review and applications

f Numerical simulation of well tests using reservoir simulation programs

fWorkshop

f R&d recent developments

purpose

To enhance practical experience and skills in reservoir simulation through an experiential, hands-on simulation based on a real-field case study

audience

Reservoir engineers with industrial experience willing to acquire advanced knowledge in dynamic reservoir simulation

learning objectives

- To deepen understanding of main reservoir simulation issues

- To improve practical experience in reservoir simulation

- To acquire best practices through hands-on experience

prerequisite

Basic knowledge in dynamic reservoir simulation

Ways & means

Basic and advanced reminders in reservoir simulationIntensive hands-on practice using state-of-the-art ECLIPSE reservoir simulatorReal-field case study with data review, history matching, and production forecast

agenda 5 days

f Introduction

f Reservoir model data review

f History match objectives & methodology

f History match for pressure

f History match for saturation

f Production forecast objectives & methodology

f Production forecast (“do nothing” case)

f Production forecast (new investments)

e-36

3 Core Analysis for Reservoir Characterization e-

388

Advanced Well Test Analysis

e-38

9 Dynamic Reservoir Simulation: Best Practices

advanced

Reference: GIS / CONSCAL Reference: GIS / ADVWTA

advanced

Reference: GIS / ADVSIMU

advanced

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Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Reservoir Simulation Ready-to-use skills

Production forecasting & optimizing a simpleproduction scheme

Performing simple history matching study

Building a simulation model integrating data from PVT, petrophysics, etc.

Understanding fundamental concepts of dynamic reservoir simulation

With the ADVANCED CERTIFICATEin Reservoir Simulation Workshop

249

traInIng for careers In reservoIr sImulatIonFormal lectures, practical work, and case studies are organized into two weeks covering the major aspects of dynamic reservoir simulation:

- Introduction - Basic reminders of reservoir simulation - Space and Time Discretization : Grid properties (Cartesian grid, Radial grid, corner point grid, etc.) - Time Step Management

- Petrophysics - Data review & petrophysical upscaling - Reservoir fluids description - Initial state - Flow representation - Aquifer representation - Wells representation - History matching - Production Forecast - Development scenarios

fInal oral & juryThe program ends with a short teamwork project on a real case study. Participants are put in situation of integration of knowledge and skills acquired throughout the program. An oral presentation will end the project’s results

purposeTo provide a thorough understanding of basic dynamic reservoir simulation; governing principles as well as data reviewing and formatting

audIenceReservoir engineers, geologists, geophysicists, development project engineers and managers willing to deepen their knowledge in black-oil dynamic reservoir simulation; young scientists, geoscientists and production engineers moving towards reservoir engineering

learnIng objectIves - To understand and apply fundamental concepts of Dynamic Reservoir Simulation

- To understand and apply how to build of a reservoir simulation model (data gathering, data QC)

- To understand and apply how to carry out a simple dynamic reservoir simulation study (data input, history matching and production forecast with a black-oil model)

prerequIsIteThe training is open to applicants who can justify an engineer or master graduate diploma in geosciences or reservoir engineering, a cadration procedure or a validation of prior learning in the disciplines of the program. Some basic knowledge in dynamic reservoir simulation is not required but would facilitate learning

Ways & meansbasic and advanced reminders in reservoir simulationreal-field case study with data review, history matching, and production forecastan important part of the training is dedicated to hands-on practice using state-of-the-art eclIpse reservoir simulator


Reservoir Simulation Workshop Certification

e-39

0c


advanced certificate

10 days

Reference: GIS / RESSIMUCER



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Reservoir Simulation Ready-to-use skills

Production forecasting & optimizing a simpleproduction scheme

Performing simple history matching study

Building a simulation model integrating data from PVT, petrophysics, etc.

Understanding fundamental concepts of dynamic reservoir simulation

With the ADVANCED CERTIFICATEin Reservoir Simulation Workshop

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250

In-house TraInIng reservoir engineering


[email protected]

251

purpose

To enhance skills for designing and interpreting lab experiments that will provide relative permeability to input in reservoir engineering studies

audience

Engineers interested in measuring relative permeability

learning objectives

- To understand the theory underlying the methods for assessing relative permeability in a lab

- To learn how to select the most appropriate method

- To acquire hands-on experience through a real lab experiment carried out during the training

- To use a software program for experiment design and interpretation

Ways & means

Exercises and case studies using the software program CYDAR™Real experiment is prepared, performed and interpreted

agenda 5 days

f Basics on two-phase flow in porous media

f Principle of kr determination

f unsteady state

f Steady state

f Centrifuge

f Experimental considerations

purpose

To provide a comprehensive and practical knowledge of how to carry out and interpret SCAL lab experiments

audience

Engineers and technicians involved in core analysis

learning objectives

- To deepen knowledge of lab experiments - To select methods for conventional and special core analysis

- To understand the physical mechanisms and experimental conditions

Ways & means

Exercises and case studies using CYDAR™ simulation & modeling software

agenda 5 days

f Introduction - Theory

f Experiments

f Practical hand-on experiments

purpose

To provide a comprehensive and practical understanding of gas condensate reservoirs behavior; from gas PVT properties to gas flow

audience

Geoscientists, reservoir engineers and petroleum engineers with industrial experience willing to acquire additional knowledge in gas condensate fields development

learning objectives

- To know main concepts of gas condensate field developments

- To learn about evaluating productivity and reservoir performance

- To learn about main issues regarding surface facilities design and operation

Ways & means

Interactive courses and exercisesField case studies

agenda 5 days

f Properties of natural gases: dry gas and gas condensate

fWell test analysis

fWell performance

f Reservoir performance

f Field development - Case study

f Surface facilities - Infrastructure

f Tight and shale gas reservoir performance

e-39

1 Laboratory Determination of Relative Permeabilities e-

392 Experimental Training for Core Analysis

Laboratory experiments - Two-phase flow - Interpretation e-

394

Development of Gas Condensate Fields

advanced

Reference: GIS / CYDAR Reference: GIS / CARC

advanced

Reference: GIS / GAS

proficiency

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252

In-house TraInIng geosciences field trips


[email protected]

253

purpose

To provide a comprehensive overview of petroleum geology processes (emphasizing basin geometry, deposition, hydrocarbons’ origin, migration, and accumulation) with an introduction to the Ways & means of oil and gas exploration

audience

Oil and gas professionals, with little or no knowledge in geology

learning objectives

- To learn about exploration methods and tools, such as geophysics and well logging

- To understand the factors required for the existence of an accumulation of hydrocarbons

- To grasp the methodology used to assess the hydrocarbons potential of sedimentary basins

Ways & means

Field trip to Dorset (uK)Outcrops

agenda 5 days

Introduction

f General introduction to petroleum geology

fMechanisms of sedimentary basins formation

f Infilling and deformation of sedimentary basins

Field trip

f Basin analysis (Weld and Channel Basin) from Permian and Tertiary times and building

f Petroleum system of the neighboring Wytch Farm oil field

f Continental to shallow marine deposits outcrops

f Tectonic outcrops: horst, graben and synsedimentary faults

note

Course fees include accommodation and transportation during the field trip

purpose

The Jurassic outcrops of Eastern Paris Basin are exceptional quality analogues for several producing oil fields, especially regarding sequence stratigraphy features and typical carbonate platforms architecture. Recent diagenetic and petrophysical investigation performed on selected outcrops and in equivalent subsurface provide a unique opportunity of proposing an updated, complete and integrated overview of shallow marine carbonates

audience

Geologists, geophysicists, petrophysicists or reservoir engineers

learning objectives

This 5-day field course proposes: - an excellent review of the constraints to the static model in the field

- an integration of outcrop observation with subsurface data: sedimentary architectures

- a distribution and evolution of petrophysical properties through diagenesis

A geological and petrophysical static model was performed over a large area centered on the main zone of interest, along an extended stratigraphic interval (Bajocian to Kimmeridgian)

prerequisite

Fundamentals of carbonate sedimentology may be a useful prerequisite, but a quick reminder can be organized in the field

Ways & means

Outcrop sections (quarries), cores, well logs, thin section photographs, RCA data, NMR logs

agenda 5 days

f Introduction to stratigraphic & carbonate sedimentology - Integration with 3D seismic

f Carbonate platform: local petrophysics and reservoir problematic in outcrops

f 3D geological reservoir model: integration & discussion

f Visit of Research Laboratory + core with examples of subsurface equivalent

f Visit of quarries: discussion about the evolution of the architecture of the platform, and of distribution of depositional environments distribution

f Second integration and discussion of the 3D geological and reservoir model

note

Field trip: Lorraine region (North-Eastern France) along the main outcrops of Middle and Late Jurassic carbonates Meeting point: on field trip location (Lorraine region)

e-90

0

Introduction to Petroleum Systems

e-91

0

Static Model Construction: Field Constraints & Integration

with Subsurface DataOrganized in collaboration

with Cambridge Carbonate Ltd

foundation

Reference: GEOT / PETBAS Reference: GEOT / CARBFT

proficiency

IN-H

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s Fi

eld

Trip



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Well Operations & Completion Engineering Ready-to-use skills

Well Intervention & Pressure Control with IWCF Certification

Knowledge of completion techniques & equipment

Managing of completion & maintenance operations

Completion operation techniques

With the GRADUATE CERTIFICATEin Well Operations & CompletionEngineering

255

module 1 - common fundamentals for drIllIng and completIon (cf. e-419)

5 d

module 2 - Well productIvIty & reservoIr - Wellbore Interface (cf. e-451)

5 d

module 3 - Well completIon equIpment and procedures (for flowing wells) (cf. e-453)

5 d

module 4 - Wellbore treatments (cf. e-455) 5 d

module 5 - artIfIcIal lIft & Well InterventIon fundamentals (cf. e-458) 5 d

module 6 - coIled tubIng & nItrogen operatIons (cf. e-461) 5 d

module 7 - Well InterventIon and pressure control (cf. e-473) 5 d

module 8 - project on completIon program 5 dCompletion designTubing calculationsFluids designChronology of operationsPresentation to a jury

purposeTo provide an in-depth, practical understanding of completion techniques, operations, equipment and procedures

audIenceYoung engineers involved in drilling and completion, supervisors, tool pushers

learnIng objectIves - To assist in completion operations on site; and, with some experience, manage those operations

- To define a completion program; and, with some on-site experience, design and implement such a program

- To pass the IWCF “Well Intervention and Pressure Control” Test

Ways & meansequipment and cutaway tools display exercises, role-playing sessions, and case studies summary notes prepared and presented by the participants 5-day completion project, ending with a presentation to a jury knowledge assessment on a weekly basis upon successful completion of a knowledge test, the IWcf Well Intervention and pressure control certificate is delivered

Well Operations & Completion Engineering Certification

e-40

5c



40 days

Reference: FOR / CE

IN-H

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Com

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Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Well Operations & Completion Engineering Ready-to-use skills

Well Intervention & Pressure Control with IWCF Certification

Knowledge of completion techniques & equipment

Managing of completion & maintenance operations

Completion operation techniques

With the GRADUATE CERTIFICATEin Well Operations & CompletionEngineering

256

In-house TraInIng

purpose

To provide an understanding of Geomechanics solutions for mitigating and solving drilling problems

audience

Engineers and supervisors involved in drilling and completion operations

learning objectives

- To acquire some knowledge on Geomechanics applied to drilling and completion operations

- To grasp through case studies some important drilling and wellbore issues with regard to Geomechanics

agenda 3 days

f Scope of rock mechanics 0.25 d

f Introduction to rock mechanics 0.75 d

f Stress distribution around the wellbore: case of compact rocks 1 d

f Pore and fracturation determination 0.5 d

f Application 0.5 d

purpose

To provide thorough information on wellhead, BOP stack characteristics and well control equipment

audience

Engineers, technicians interested in well control

learning objectives

- To choose the equipment (wellhead, BOP, ancillary equipment) to design a well

- To detect operating problems - To check the equipment used

Ways & means

Videos and animations showing how equipment works

agenda 3 days

f Onshore wellhead and blowout preventers 1.5 d

f Auxiliary equipment 1 d

f Subsea equipment 0.5 d

purpose

To deepen the understanding and develop the skills needed to design efficiently a cementing program

audience

Engineers, supervisors involved in cementing programs

learning objectives

- To acquire a detailed knowledge of the different cementing techniques

- To address special cases: liner, highly deviated wells, gas zones

- To design a full cementing program for a real typical case

- To assess the quality of a cementing job

prerequisite

Course E-443 “Cementing Practices”, or equivalent practical experience, is highly recommended

Ways & means

ExercisesTeamwork on a project

agenda 5 days

f Techniques and job procedures 1.5 d

f Cement and slurries 1 d

f Special cases 0.5 d

f Cementing project 1 d

f Evaluation of the cementing job 1 d

e-42

6

Geomechanics for Drilling Operations

e-42

9

Wellhead & Blowout Preventers

e-44

4

Advanced Cementing Practices

drilling & completion

proficiency

Reference: FOR / GEOME Reference: FOR / WHEADE

proficiency

Reference: FLU / CIM2E

proficiency


[email protected]

257

purpose

To provide a thorough understanding of tubing movement and forces

audience

Completion engineers or technicians

learning objectives

- To analyze data and decide which element(s) or parameter(s) of a completion equipment must be modified to solve problems related to tubing movement

- To write a completion program taking tubing behavior into account

- To analyze correctly a tubing behavior-related problem encountered during operation and provide an adequate solution

Ways & means

Exercises and a large case study

agenda 3 days

f General principles 0.5 d

f Case of a downhole binding device permitting free tubing movement 1 d

f Case of a downhole binding device permitting no tubing movement 0.5 d

f Case study 1 d

purpose

To provide knowledge and skills needed to identify well damage issues in sandstone and carbonate reservoirs, and design acidizing programs

audience

Drilling or completion engineers, supervisors, lab or production professionals, non-specialists in wellbore treatment

learning objectives

- To identify the nature and the origins of well damage

- To design an acidizing program - To select the additives needed - To set up the acid treatment program

Ways & means

Exercises - TeamworkVisit of a reservoir-wellbore interface laboratory

agenda 5 days

f Introduction to reservoir treatments 0.5 d

f Formation damage 1 d

fMatrix treatment: acidizing carbonates 1 d

fMatrix treatment: acidizing sandstones 1 d

f Acidizing additives 0.5 d

fMatrix treatment design 0.5 d

f Summary note 0.5 d

note

Kindly refer to the following complementary course which might be of interest: “Welbore Treatments” (E-455)

purpose

To provide a comprehensive overview of hydraulic fracturing operations

audience

Drilling, completion or production engineers, supervisors, laboratory staff, not specialized in wellbore treatment

learning objectives

- To identify the impact of fracturing parameters on well productivity

- To grasp the essence of hydraulic fracturing - To learn about materials, equipment and procedures used for fracturing

- To design hydraulic fracturing operations - To measure the success of these operations

Ways & means

MovieExercises

agenda 5 days

f Introduction to hydraulic fracturing 0.5 d

f Description of the process 0.5 d

f Fracturing fluids, proppants and fracture conductivity 1 d

f Input and fracture design 1 d

f Equipment and placement techniques 1 d

f Flow back, fracture mapping and post-job analysis 0.5 d

f Quiz, assessment and feedback 0.5 d

note

See also the course “Wellbore Treatments” (E-455)

e-45

4

Tubing movement & forces

e-45

6

Matrix Acidizing

e-45

7

Basic Hydraulic Fracturing

proficiency

Reference: PRO / TUBMFE Reference: PRO / ACIDIFE

proficiency

Reference: PRO / HYDFRACE

foundation

IN-H

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258

In-house TraInIng

purpose

To provide a comprehensive, practical knowledge of gas lift concepts, operations, equipment, and potential problems

audience

E&P professionals involved in operating wells using gas lift

learning objectives

- To analyze gas lift operating conditions - To improve well performance

Ways & means

Practical exercises to grasp physical phenomena

agenda 5 days

f Flowing gradients - Tubing performance curves 1 d

f Introducing gas lift systems 1 d

f Gas lift down hole equipment 0.5 d

f Continuous gas lift down hole equipment design 1.25 d

f Continuous gas lift operation 1 d

f Introduction to PROSPER™ 0.25 d

note

Kindly refer to the following complementary course which might be of interest: “Artificial Lift: Pumping” (E-460)

purpose

To provide a comprehensive, practical knowledge of rod and centrifugal pumping concepts, design, operations, and potential problems

audience

E&P professionals involved in operating wells using rod or centrifugal pumping

learning objectives

- To choose the most-suited pumping method - To analyze operating conditions - To improve well performance and manage equipment lifetime

Ways & means

Exercises on equipment calculation

agenda 5 days

fWhy artificial lift? 0.5 d

f Sucker rod pumping 1.5 d

f Electrical Submersible centrifugal Pumping (ESP) 2.5 d

f Other methods and process selection 0.5 d

note

Kindly refer to the following complementary course which might be of interest: “Artificial Lift: Gas Lift” (E-459)

purpose

To provide a comprehensive, practical knowledge of coiled tubing equipment and operations on a producing well

audience

Engineers, supervisors, technicians from operating or service companies, involved in completion, workover and stimulation

learning objectives

- To learn about coiled tubing applications in completion and workover

- To design coiled tubing programs (wellbore treatment, logging, cementing, lifting and drilling)

Ways & means

Exercises - Animations

agenda 5 days

f Introduction to coiled tubing 0.25 d

f Pipe characteristics and behavior 0.5 d

f Coiled tubing equipment (technology, dimension, weight) 1.25 d

f Coiled tubing applications 1.75 d

f Cementing operations with nitrogen or coiled tubing 0.25 d

f Nitrogen - Nitrified acid - Foamed acid 1 d

e-45

9

Artificial Lift: Gas Lift

e-46

0

Artificial Lift: Pumping

e-46

1 Nitrogen & Coiled Tubing Operations in Completion & Workover


proficiency

Reference: PRO / GLIFTE Reference: PRO / APOMPE

proficiency

Reference: PRO / CTAE

proficiency


[email protected]

259

purpose

To provide the required comprehensive knowledge and skills for well servicing and workover

audience

Completion, well servicing or workover engineers and supervisors, with client or service companies, familiar with well control operations

learning objectives

- To select the right means for well intervention - To write well servicing or workover programs - To supervise well servicing or workover operations

Ways & means

Two case studies are worked out: one for well servicing, and the other for workover

agenda 5 days

f Reasons and well intervention means on production well 1 d

f Review of completion, wellhead & BOP stack set up 0.5 d

fWell servicing 1.5 d

fWorkover 2 d

note

This course can be delivered in French, with documentation in English

purpose

To provide a comprehensive understanding of well lift optimization

audience

E&P technical staff involved in well operationsReservoir engineers involved in field studies with productivity and artificial lift issuesDevelopment engineers involved in conceptual design with well architecture and artificial lift

learning objectives

- To understand fundamentals of reservoir characteristics and fluid properties

- To understand main artificial lift concepts and methods

- To discover the relationship between these phenomena and well performance

- To analyze the impact of well completion and equipment on well performance

- To understand the crucial parameters in well performance

agenda 5 days

f PVT and reservoir fundamentals 0.5 d

f Reservoir-wellbore interface fundamentals 0.25 d

f Inflow performance 0.75 d

f Outflow performance 0.75 d

fWell performance 1 d

f Artificial lift 1.5 d

f Introduction to PROSPER™ 0.25 d

note


purpose

To provide the practical, comprehensive understanding and skills needed to master well performance and make significant contributions to field productivity studies and well performance monitoring

audience

Reservoir, well performance or production engineers and technicians

learning objectives

- To acquire a practical understanding of reservoir, fluid properties, near-wellbore zone, well completion and facilities

- To understand main remediation/stimulation and artificial lift methods

- To model, forecast, assess, troubleshoot and optimize well performance

Ways & means

use of the software program PROSPER™ (training license provided for the duration of the course)Short lectures alternating with hands-on sessionsCourse ends with a 2-day integrated case study

agenda 10 days

f Introduction to production system 0.5 d

f PVT data / PVT modeling 0.5 d

f Reservoir properties & reservoir-wellbore interface 0.5 d

f Inflow performance / IPR modeling 1.5 d

fWellbore flow, outflow performance / VLP modeling 1 d

fWell performance 1 d

f Artificial lift 3 d

f PROSPER™ case study 2 d

e-46

2

Well Servicing & Workover

e-46

3

Well Performance

e-46

4

Advanced Well Performance

foundation

Reference: PRO / WSWOE Reference: PRO / WELLPERFE

foundation

Reference: PRO / WELLPERF2E

proficiency

IN-H

OuSE

TRA

ININ

GDr

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Com

plet

ion

260

In-house TraInIng

purpose

To raise trainees’ awareness of well control issues and consequences of a blowout and also to understand the outcome of a kick and learn the methods of control

audience

All drilling and completion employees from the operator, contractor or services company involved in the operations or the detection and control of a kick: engineers, supervisors, tool pushers, drillers, assistant drillers, derrick man, mud tester, etc.

learning objectives

- To understand the impacts of a blowout - To identify the causes of a kick - To learn about well control equipment and how to secure the well

- To know the well control methods to circulate a kick and kill the well

- To pass the IWCF level 2 in order to access to level 3 and 4

Ways & means

Exercise bookDemonstration and exercises on a simulator if availableIntervention of a second instructor if necessary

agenda 5 days

f Pressures in the well 0.75 d

f Pore pressure, frac pressure 0.25 d

f Kick detection 0.75 d

fWell control methods introductory 0.5 d

f Equipments 0.75 d

f Subsea specifities 0.5 d

f Simulator 0.5 d

f IWCF certification 1 d

note

This level 2 is compulsory if it is a first IWCF certification before to attend the level 3 and 4 and also if the certificate is issued for more than 4 years

e-47

0 Well Control - Level 2IWCF Certification “Surface BOP”

or “Combined Surface/Subsea BOP” IWCF certified training center

Reference: WEL / FPESME2

foundation

purpose

To deepen knowledge of well lift optimization and master use of the software program Prosper

audience

Reservoir or well performance engineers and technicians

learning objectives

- To build a PVT model which will be used in a well performance study

- To analyze the link between reservoir characteristics and production

- To understand how wells can produce naturally - To understand the main artificial lift methods and their use

- To model and understand crucial parameters of well performance

- To identify reasons for poor well performance

Ways & means

Multimedia online learning with personal coachingBefore training starts, 2 hours are dedicated to introduce the training agenda, methods and toolsThe exact needs and expectations of each participant are also assessed and discussed (MCQ and phone interview with the tutor)During the training, individual phone contact with the tutor and web conferences with other participantsuse of the software program PROSPER™ (license not provided)

agenda 32 hours over 8 Weeks

f Introduction 2.5 h

f Characterization of reservoir fluids - PVT 2 h

f Inflow performance relationship 6.5 h

f Natural flowing wells 7 h

f Artificial lifted wells 4.5 h

fWell performance diagnosis 2.5 h

f Conclusion / Case study 7 h

note

Total duration of the training is 32 hours, spread over an 8-week period

purpose

To provide a complete overview of the techniques, achievements, challenges of the development of shale gas wells as well as stimulation technics

audience

All professionals within the Petroleum and Energy industry or related sectors, who need a general knowledge and understanding of the Oil & Gas unconventional production and development techniques

learning objectives

- To understand the specificities of the unconventional reservoirs, the techniques and challenges of their development and their production

- To know drilling and completion of shale gas wells - To learn about the stimulation techniques of shale gas wells

Ways & means

Interactive animations by experienced lecturersuse of several illustrations: videos, field cases…

agenda 5 days

f Shale gas & oil production issues: from resources to technically producible reserves 1 d

f Production issues for low permeability formations 0.5 d

f Drilling completion 0.5 d

f Completion 1 d

f Stimulation 2 d

note

Kindly refer also to complementary courses which might be of interest: “unconventional Resources - Shale Gas Fundamentals” (E-395), “Hydrocarbons in unconventional Settings” (E-221) and “unconventional Resources Production Overview” (E-040)

e-46

5 Well Inflow & Outflow PerformanceE-learning with remote personal coaching e-

468 Unconventional Reservoirs

Completion & Stimulation


proficiency

Reference: PRO / BLPROSPER Reference: PRO / URCS

foundation

261

purpose

To provide the practical knowledge and skills required for stripping operations

audience

Drilling and completion engineers, supervisors, and experienced tool pushers

learning objectives

To carry out stripping operations in real conditions through annular preventer alone or rams to rams

prerequisite

To have a valid well control certificate and to correctly know the basics on well control equipment

Ways & means

Exercises either on a real rig or on a simulator

agenda 3 days

f Reminders on well control 0.75 d

f Stripping 2.25 d

e-47

7

Stripping

Reference: WEL / STRIPE

proficiency

IN-H

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[email protected]

262

In-house TraInIng

purpose

To provide a comprehensive technical review of sour gas treatment, sulfur recovery, conditioning processes and storage facilities, including operating and troubleshooting issues

audience

Professionals interested in sour gas: engineers involved in oil and gas field facilities operation or design, managerial staff in gas processing facilities, equipment providers, personnel from engineering companies

learning objectives

- To comprehend all concerns linked to sour gas treatment and sulfur recovery

- To review sulfur and acid pollutants main physical properties, specificities, and induced hazards

- To understand operating principles and conditions of gas sweetening and sulfur recovery / handling processes

- To grasp main operating problems encountered in sour gas processing and sulfur recovery and handling

Ways & means

Highly interactive training by industry-specialist lecturersNumerous applications and illustrations

agenda 5 days

f Overview of gas sweetening processes 0.25 d

f Amine sweetening processes 1.5 d

f Other gas sweetening processes 0.75 d

f Recovering sulfur from acid gases 0.25 d

f Sulfur recovery units (Claus) 1.25 d

f Tail Gas Treatment 0.75 d

f Sulfur conditioning & storage 0.25 d

purpose

To provide an overview of the technical issues of various natural gas storage facilities

audience

Professionals interested in natural gas storage

learning objectives

- To review features and operating conditions of natural gas storage facilities

- To learn about gas storage equipment specificities: wells, manifolds, compression, auxiliary equipment, etc.

- To understand gas treatment techniques applied to extraction from storage in order to conform to specifications

- To grasp fundamental issues of natural gas storage economics and third-party access

Ways & means


agenda 2 days

f Natural gas: as a storable energy 0.25 d

f Storage types 0.5 d

f Storage equipment 0.25 d

f Compression 0.25 d

f Gas treatment 0.25 d

f Economical aspect of gas storage 0.5 d

purpose

To provide an overview of the technical and economic issues of natural gas transport by pipeline

audience

Professionals interested in natural gas transport by pipeline, including equipment and services suppliers to gas transport companies

learning objectives

- To gain an overview of the world map of natural gas pipeline networks

- To review marketed gas pipeline design: route, sizing, material, compression stations positioning and design, etc.

- To assess pipe laying organization, management, constraints, planning, and techniques

- To understand gas transportation network maintenance and daily operations within the framework of regulations

- To grasp fundamental issues of natural gas transport economics and third-party access

Ways & means


agenda 2 days

f Introduction to natural gas 0.25 d

f Transport network 0.25 d

f Design and construction of a gas pipe 0.5 d

f Compression 0.25 d

f Operation of a network 0.5 d

f Economical aspects of gas transport by pipeline 0.25 d

e-51

4

Gas Sweetening & Sulfur Recovery

e-51

5 Natural Gas StorageTypes - Technology - Operation - Economics e-

516 Natural Gas Transport by Pipeline

Technology - Operation - Economics

field operations & hse

proficiency

Reference: PROD / ACIDGB Reference: PROD / STOCKGB

proficiency

Reference: PROD / TRANSGB

proficiency


[email protected]

263

purpose

To provide the fundamental knowledge for understanding production balance, linking relevant operations and production figures which impact issues such as transfer fee, exchange between fields, field use…

audience

Managers, engineers, non-technical staff involved in production reporting or material-balance handling (assessing fee, value created, etc.)

learning objectives

- To establish production balance from basic data (well tests, process measurements, fiscal data)

- To grasp performance monitoring and production reporting tools

- To assess impact of different operations on material balances

- To know accounting and back allocation rules specific to process or production mode

Ways & means

Highly interactive and applied course by industry specialist lecturersNumerous illustrations and cases studies

agenda 3 days

f The production chain from the reservoir to the export point 0.5 d

fMeasures and metering systems along the chain 0.5 d

f Liquid balances 0.5 d

f Gas balance 0.5 d

f Performance monitoring and production reporting 0.5 d

f Case study & production balances reconstruction: back allocation, satellite fields, main production centers 0.5 d

purpose

To consolidate mathematics, physics, chemistry and mechanics fundamentals required to attend IFP Training’s qualifying training program “Production Field Operator Training”

audience

Newly-hired personnel who need to strengthen their academic fundamentals before attending the training program “Production Field Operator Training”. upon successful completion of the latter, they will be qualified to hold the position of field operator in oil and gas production facilities or terminals

learning objectives

- To reach the prerequisite academic level in mathematics, physics, chemistry and mechanics

- To take advantage of this core knowledge required for Field Production Operator training and for the future training

Ways & means

Numerous application exercises inspired from oil & gas production operations

agenda 25 days

f Overview of oil and gas production 1 d

fMathematics 5 d

f Physics 7 d

f Chemistry 5 d

fMechanics and industrial drawing 7 d

e-52

0 Production Accounting & Material Balance Sheet

Liquid & gas balances - Measures & metering - Production reporting

e-52

9 Preparatory Course to Production Field Operator Training

foundation

Reference: PROD / BALSH Reference: PROD / PC

foundation

IN-H

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Oper

atio

ns &

HSE



Key benefits:

Monitoring facilities, identifying malfunctions & reacting in a rational & safe manner

Performing safe routine operations as well as commissioning operations or equipment shutdowns

Instrumentation & process control, facilities equipment & machinery operation - Managing product quality & environmental protection

Well operations & surface processing, equipment & machinery with a comprehensive approach

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise in Field Operations Ready-to-use skills

With the Field OperatorVOCATIONAL CERTIFICATE

265

classroom traInIng 80 dDownhole production, well equipment and operationFacilities static, rotating and safety equipmentSurface processing of well effluents, storage and exportProcess control and instrumentationSafety in operation and maintenanceEquipment routine surveillance

on the job orIentatIon (ojo) perIods alternatIng WIth classroom 50 dPE: Practical Exercises on equipmentOJO: (On the Job Orientation) Procedures and operations follow up with production team

Identification and study of equipment: routine surveillance and associated operating proceduresOperation follow-up, production team organization, familiarization with field operators job duties

Continuous assessment of the work based learning process: Oral presentations and reports of the OJO periods assignments

on the job traInIng (ojt) 50 dOn-site training, aiming at providing the specific knowledge required for assuming the function of operator: process, circuits, plant equipment, instrumentation and process control, operating conditions, risks specific to facilities and safe operating proceduresAchievement of various tasks as defined in the field operator job description, under the supervision of a mentor and the shift team

fInal assessments & jury 5 dFinal oral examinations aiming at assessing the knowledge of the area of OJT assignment (hazards, details of the installations, operating conditions, equipment characteristics, site specificities…) as well as the capability to assume the field operator duties (routine monitoring, execution of routine and non-routine tasks, knowledge of HSE rules and behavior in the event of accident…)Preparation of a final OJT report, as a support for the final oral examinations

purposeTo provide, through a comprehensive training and assessment system, the required technical knowledge and skills for qualifying to hold the position of Field Operator and contribute to safe and efficient operations in upstream oil and gas facilities. A certificate will be delivered to the trainee if the necessary criterions have been fulfilled

audIenceNewly-hired personnel who are called on to hold position of Field Operators in oil and gas production facilities or terminals. Active production field operators in need of knowledge enhancement and skills development

learnIng objectIves - To understand and explain processes, equipment and machinery

- To adjust equipment operating parameters as required for safe operation and maintain product quality targets

- To safely perform routine operations, surveillance of plant equipment and apply special operating procedures

- To identify and react adequately to plant upsets

- To demonstrate awareness and concern for good safety practices and procedures

- To evolve in a multidisciplinary team and communicate effectively

prerequIsIteTraining requires academic scientific knowledge equivalent to British O levels. If needed, trainees can attend a 5-week introductory course (E-529) to acquire or review the fundamentals required to attend this qualifying training course

Ways & meansthe training program is customized to your assets specifities. It alternates between classroom lectures and practice on operational site. the alternation can be adapted to local constraints

noteTimes mentioned here do not include periods of rest / recovery; training typically extends over one year Training duration: 37 weeks spread over a year

Field Operator Certification

e-53

0c

coordinator: Patrick Steiblé

vocational certificate

185 days

Reference: PROD / BOAGB



Key benefits:

Monitoring facilities, identifying malfunctions & reacting in a rational & safe manner

Performing safe routine operations as well as commissioning operations or equipment shutdowns

Instrumentation & process control, facilities equipment & machinery operation - Managing product quality & environmental protection

Well operations & surface processing, equipment & machinery with a comprehensive approach

An international recognition of your competencies A Vocational Certificate is obtained A confirmed expertise in Field Operations Ready-to-use skills

With the Field OperatorVOCATIONAL CERTIFICATE

IN-H

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TRA

ININ

GFi

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Oper

atio

ns &

HSE



Key benefits:

Optimizing oil, gas & water processing

An international recognition of your competencies An Vocational Certificate is obtained A confirmed expertise in Production Supervision Ready-to-use skills

Well activation techniques

Static equipment & rotating machinery operation


With the Production SupervisorVOCATIONAL CERTIFICATE

267

fundamentals 5 dFundamentals of chemistry: atoms, molecules, atomic weight, molecular weightHydrocarbons types and main characteristicsApplied physics: force, work and energy, temperature, thermal energy and heat transfer, pressure, hydrostatics, hydrodynamics and friction lossesWell effluent: composition, types and characterization parametersLiquid-Vapor equilibrium of pure components and mixturesWell effluents behavior - Need for effluents field processing - Specifications

doWnhole productIon 5 dFundamentals of reservoir engineeringInformation on drilling techniquesCompletion techniques and equipment - Wellhead equipmentArtificial lift by Gas Lift (GL), Electrical Submersible Pumps (ESP), Sucker Rod Pumps (SRP), Progressing Cavity Pumps (PCP): principle, operation, selection criteria

effluent processIng 10 dCrude oil treatment

Stabilization (degassing): principle, process parameters, foaming problemsDehydration (water removal): principle, process parameters, emulsion problemsSweetening (H

2S removal): different techniques, process parametersProduction and injection water treatmentGas treatment

Gas dehydration and hydrate formation inhibitionGas sweeteningNGL extraction/recoveryFundamentals of LNG

Oil and gas meteringTerminals, FSO/FPSO, Offshore development

statIc equIpment 5 dPiping and valves - Metallurgy and corrosionStorage equipmentThermal equipmentInstrumentation, process control - Distributed Control System (DCS) - ElectricitySafety System: HIPS, ESD, EDP, F&G, uSS

rotatIng machInery 5 dPumps: centrifugal and positive displacementCompressors: centrifugal and reciprocatingTurbo-expandersGas turbines

hse 5 dMain HSE risksHazards for personnelHSE in production operationsHSE in construction and maintenance worksRisks inherent to Simultaneous Operations (SIMOPS)HSE management - ResponsibilitiesRisk analysis - Safety Engineering concepts

purposeTo provide the required skills and comprehensive knowledge to hold the position of production supervisor and ensure safe and efficient operations in upstream oil and gas facilities, within the framework of environmental regulations

audIenceCurrent or future production supervisors in oil and gas production, transport or storage facilities

learnIng objectIves - To explain fundamental concepts underlying oil, water and gas processing

- To grasp technical details and operating issues of completion and artificial lift

- To detail typical effluent processions techniques and impact of various operating parameters

- To describe technology and operation of static equipment and rotating machinery used in production facilities

- To identify HSE risks linked to operations, constraints and maintenance activities

- To detect anomalous operating conditions and launch appropriate actions

Ways & meansseveral applications and illustrations

Production Supervisor Certification

e-53

2c


vocational certificate

35 days

Reference: PROD / PRODSUP



Key benefits:

Optimizing oil, gas & water processing

An international recognition of your competencies An Vocational Certificate is obtained A confirmed expertise in Production Supervision Ready-to-use skills

Well activation techniques

Static equipment & rotating machinery operation


With the Production SupervisorVOCATIONAL CERTIFICATE

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Gas & LNG Production Engineering Ready-to-use skills

Project management & HSE in operation

LNG specific safety engineering

LNG facilities static equipment & rotating machinery

Natural gas & LNG process engineering & operation

With the Gas & LNG Production Engineer

GRADUATE CERTIFICATE

269

thermodynamIcs applIed to Well effluent processIng 5 dWell effluent - Ideal gas and real fluid behaviorGas compression and expansionLiquid vapor equilibrium of pure components and mixtures - Mixture separationProII simulation: propane cryogenic loopFundamentals of distillationProII simulation: NGL splitter

gas processIng and condItIonIng 5 dCommercial specifications for natural gas – Need for gas field processingGas hydrates & humidity of natural gasDehydration process: TEG units and molecular sievesSweetening: amines, membranesNGL recovery and fractionation

process sImulatIon 5 dSimulation using ProII: propane loop, NGL recovery and fractionation, distillationGas field treatment: separators, dehydration, compression

lIquefIed natural gas 5 dSpecific propertiesLiquefaction processSpecific cryogenic equipmentThe LNG chain

statIc equIpment 5 dPiping & valves - Storage equipmentMetallurgy - Corrosion - Fundamentals of inspectionSteam generation, boilersThermal equipment - Fundamentals of electricityInstrumentation & process control - Safety system

processes schematIzatIon & pumps 5 dDrawing of a Block Flow Diagram (BFD), of a Process Flow Diagram (PFD) and a Piping & Instrumentation Diagrams (P&ID)Fundamentals and charge lossCentrifugal and volumetric pumps: technology, operationDrivers

compressors 5 dFundamentals of gas compressionCentrifugal and volumetric compressors: technology, operationTurbo-expander: technology, operation

turbInes – electrIcal generatIon 5 dSteam and gas turbines: equipment, operating conditions, performances, operations, selection criteriaElectrical generation and distribution

lng - specIfIc safety engIneerIng 5 dLNG specific hazards: stratification / roll-over, sloshing, LNG clouds ignition, asphyxiation risks, cryogenic liquids jets, piping behaviorLNG spillage control at design stage and in operationLNG clouds control in operationLNG fires control at design stage and in operationHAZID application, HAZOP exercise, plant layout exerciseConsequence analysis methodologySafety instrumented systems, shutdown system, blow-down system, PSV’s and mechanical systems

hse In operatIons and maIntenance Works 5 dHSE in operation: utilities, drains…HSE in construction: lifting, work at height…Safety management, responsibilities

lng project management 5 dIntroduction and preliminary studies of LNG projectsFeed or basic engineeringLNG project control and administration of LNG projectsHSE and quality management in LNG projectsDetail engineering and procurementConstruction

case study based on lng plant p&Ids 5 d

purposeTo provide in-depth technical knowledge of natural gas treatment and liquefaction facilities design and operation necessary to hold rapidly, and very effectively, the position of Field Engineer, Design Engineer, or Project Engineer

audIenceEngineers (particularly recently graduated engineers or engineers in conversion) interested in a specializing in gas treatment and liquefied natural gas

learnIng objectIves - To understand the thermodynamics involved in natural gas treatment and liquefaction, especially cryogenic loops

- To explain natural gas processing & liquefaction process

- To understand in detail operating conditions and basic design of gas treatment


- To understand, explain and modify a PFD or a PID

- To identify the main risks related to gas treatment and liquefaction and review main safety rules

Ways & meanshighly interactive training with industry specialist lecturersmultiple teamwork sessions and industrial case studiespractice on dynamic simulatornumerous process simulation exercises using proII™ software

Gas & LNG Production Engineer Certification

e-53

5c



60 days

Reference: PROD / GASENG



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Gas & LNG Production Engineering Ready-to-use skills

Project management & HSE in operation

LNG specific safety engineering

LNG facilities static equipment & rotating machinery

Natural gas & LNG process engineering & operation

With the Gas & LNG Production Engineer

GRADUATE CERTIFICATE

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Oper

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ns &

HSE



Key benefits:







271

IntroductIon to petroleum geophysIcs 5 dElements & processus of reservoirs. Diagraphy analysis - Seismic acquisition, processing, imaging and interpretation. Prospects evaluation

reservoIrs characterIzatIon 5 dArchitecture of the reservoirs. Petrophysic/properties of the rocks - Reservoirs’ heterogeneities

drIve mechanIsm - enhanced oIl recovery 5 dReservoir engineering workflow. Drive mechanism. Enhanced oil recovery

drIllIng fundamentals 5 dDrilling operations. Architecture of the well & completion

Well productIvIty & reservoIr - Wellbore Interface 5 dWell productivity. Reservoir wellbore interface implementation

artIfIcIal lIft and Well InterventIon fundamentals 5 dArtificial lift: gas lift, ESP. Types and means of intervention on producing wells. General procedure of a workover - Case study

Well control 5 dIntroduction to well control methods. Equipment. Wireline, coiled tubing, snubbing

thermodynamIcs applIed to Well effluent processIng 5 dWell effluent - Ideal gas and real fluid behavior. Gas compression and expansion. Liquid-vapor equilibrium of pure components and mixtures - Mixture separation

oIl & Water treatment 5 dCrude oil treatment: stabilization, dehydration, sweetening. Reject and injection water treatment

gas processIng and condItIonIng 5 dGas processing: dehydration, sweetening, NGL recovery. Fundamentals of Liquefied Natural Gas (LNG) Chain

statIc equIpment & schematIzatIon 5 dPiping & valves. Storage equipment. Thermal equipment. Flow assurance. Schematization

electrIcIty & InstrumentatIon 5 dTypical architecture of an industrial electric distribution network. Instruments and control command. SIS – F&G

meterIng and allocatIon 5 dData treatment. Transactional metering of liquids and gases: fluids dynamics, equipment. Multi-phase metering: operating principle and equipment, alternatives

rotatIng machInery 5 dCentrifugal and positive displacement pumps. Compressors and turbo-expanders. Gas turbines

offshore fIeld developments - floW assurance 5 dOffshlore development architecture. Technology & deep offshore specificities. Pipelines

safety & envIronment In surface processIng facIlItIes 5 dProduct and equipment related risk - Hazards for personnel. Safety in production operations and during construction or repair works. Safety management and responsibilities. Introduction to fundamentals of safety engineering

safety engIneerIng 5 dHAZID application, HAZOP exercise, plant layout exercise. Consequence analysis methodology. Safety Instrumented Systems, shutdown system, blow-down system, PSV’s and mechanical systems

petroleum economIcs and project management 5 dFundamentals of contracts. Project profitability evaluation - Risk analysis of Exploration & Production projects. Project cost estimation and cost control

fIeld development project - jury 10 d

purposeTo provide in-depth technical knowledge of oil and gas production in order to hold rapidly, and very effectively, the position of field engineer, design engineer, or project engineer

audIenceEngineers (particularly recently graduated engineers or engineers in conversion) looking to acquire in-depth knowledge and best practices of oil and gas production

learnIng objectIves - To grasp fundamentals of reservoir engineering and drilling

- To explain well completion and servicing, well performance and artificial lift





- To identify main risks related to O&G production operations and review safety engineering best practices


Ways & meanshighly interactive training with industry specialist lecturersmultiple teamwork sessions and industrial case studiesnumerous process simulation exercises using proII™ software

Petroleum Engineering Certification

e-53

7c



100 days

Reference: PROD / PETROLENG



Key benefits:







IN-H

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272

In-house TraInIng

purpose

To provide, through a comprehensive training, an advanced knowledge on the use of the most frequently used chemicals encountered in Oil & Gas production from safety aspects, purpose, handling, to treatment monitoring

audience

Production operators and field operations personnel looking for comprehensive technical information on production chemicals use and handling

learning objectives

- To know where and why chemicals are used - To know the purpose of each production chemical, its specificity and limits

- To apply the best treating chemicals safely - To calculate chemical dosages - To adjust injection pumps and check the flow rates

- To trouble shoot a chemical pump skid - To monitor chemical treatments and report dysfunctions

Ways & means

Numerous applications, illustrations and team work exercises

agenda 5 days

f Introduction to chemical treatments in production field 0.5 d

f Safety applied to chemicals handling 0.5 d

f Calculation of dosing rates 0.25 d

f Chemical feed system 0.5 d

f Chemicals for oil treatment 1.5 d

f Chemicals for gas treatment 0.75 d

f Chemicals for water treatment 0.5 d

f Special operations 0.5 d

purpose

To provide a comprehensive knowledge for the monitoring of eruptive and activated wells, as well as the monitoring and validation of well tests

audience

Experienced Method Engineers, Technicians and Operators involved in well monitoring in oil & gas production facilities

learning objectives

- To describe equipment comprising eruptive and activated wells, including surface equipment for gas lift

- To analyze well behavior and well material balance - To efficiently identify abnormal conditions on eruptive and activated wells

- To efficiently operate and monitor gas lifted wells - To monitor wells safety test - To troubleshoot activated wells instabilities for tests validation

Ways & means

Highly interactive training by industry specialist lecturersSeveral applications on eruptive and activated well dynamicsSeveral exercises on well material balance following well test

agenda 3 days

f Essentials of reservoirs and well equipment 0.5 d

f Artificial lift 1 d

fWell interventions - Workover, wireline, metrology - Safety 0.5 d

fWell monitoring and testing - Test separator 1 d

purpose

To provide a comprehensive knowledge and know-how of gas lift wells operation. To identify and troubleshoot most common operations issues

audience

Control room operators and field operators involved in gas lift wells monitoring and operation

learning objectives

To explain eruptive and assisted well dynamicsTo identify gas potential available to ensure gas lift activationTo describe downhole and surface equipment of gas lift wellsTo implement and monitor gas lift wells start-up sequenceTo operate and start-up gas lift wellsTo identify and troubleshoot gas lift wells instabilities

Ways & means

Very interactive training by industry specialistsNumerous teamwork exercises on operation and troubleshooting

agenda 3 days

f Hydrostatics and well dynamics 0.75 d

f Gas lift operating principle and associated equipment 0.75 d

f Gas lift well start-up method and sequence 0.5 d

f Pros and Cons of gas lift 0.25 d

f Teamwork exercises – Operations troubleshooting 0.5 d

e-54

0 Production Chemicals: Use & Handling e-

541

Well Operation & Testing

e-54

2

Operation of Gas Lift Wells


foundation

Reference: PROD / CHEMICAL Reference: PROD / WELLTEST

proficiency

Reference: PROD / GASLIFTGB

proficiency


[email protected]

273

IntroductIon to oIl & gas productIon systems 1 dIntroduction to Exploration & Production activities in the Oil & Gas sectorProduction Systems general description: Reservoir, wells, transport, surface facilities, storage, metering and allocationProperties of Reservoir FluidsDescription of Reservoir input data

Well drIllIng & completIon, Well test basIcs 1 d

subsurface productIon operatIon optImIzatIon 1 dOptimization Objectives and ConstraintsWell Performance (part 1): Nodal Analysis PrinciplesWell Performance (part 2): Artificial Lift Design and TroubleshootingOptimizing Wells productivity: case study with PROSPERTM simulation application

effluents transport 1 dFlow Assurance Issues: deposits, pipeline design considerations, multiphase flowTransport Optimization Strategies (Design & Operation)

global productIon optImIzatIon 1 dSurface Facilities Design and integration with subsurface systemWell production combinationIntegrated applications through case studiesApplications for future offshore developmentsPerspectives of optimization tools

purposeTo provide an overall view of key factors affecting the productivity of O&G production sites, from the reservoir to the delivery point, and to present the actual approaches and tools aiming to maximize the output of present and future fields

audIenceEngineers (particularly reservoir & production specialists, design or project engineers) and Production technicians interested in having a broader view of global production constraints and key factor to increase fields productivity

learnIng objectIves - To learn about the different notions of Exploration & Production chain in the Oil & Gas Sector and introducing the main notions of Reservoir Engineering and Production Systems

- To acquire pertinent notions of subsurface systems relating well performance, by understanding how wells are designed and produced

- To perform case studies aiming at optimizing well productivity, including the use of specialized software (PROSPER™)

- To analyze well effluents Transport phenomena and issues, including notions of Flow Assurance

- To learn about the main strategies of global production optimization, including practical case studies of integrated optimization

- To be informed of the actual trends and future perspectives of Production Optimization, offering a glance at new production systems technologies and architectures

Ways & meanshighly interactive training with industry specialist lecturersclassroom topics are introduced by means of several applications and illustrations (videos, demonstrations, etc.)comprehensive and practical examples of actual applications implying the concepts of oil & gas production optimizationtrainees go through most relevant applications related to oil and gas field production optimization following live-simulations (prosper™) carried-out with the instructor

notePROSPER™ is a well performance, design and optimization program for modelling most types of well configurations found in the worldwide oil and gas industry today

Production Optimization e-

543

coordinator: Gonzalo Tovar

proficiency

5 days

Reference: PROD / PRODOPTGB

IN-H

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TRA

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GFi

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HSE

274

In-house TraInIng

purpose

Provide technical and operational knowledge related to Natural Gas treatment and transportation

audience

Any person wishing to improve its technical and operational knowledge on gas treatment and transportationParticularly operating personnel (from operator to engineer) requiring a better understanding of the issues related to Natural gas processing and transportation

learning objectives

- To understand the basic concepts and operational principle related to gas processing

- To know the specification in terms of water content of gas and issues related to the presence of water in this gas

- To analyze the operating conditions to detect problems more quickly at the production level

- To improve the existing processes performances - To understand the operation and the detailed equipment technology of compressors (reciprocating and centrifugal) used for gas compression

- To analyze the operating parameters associated to those rotating machines and their auxiliary circuits

- To operate compressors properly

Ways & means

Highly interactive training by industry specialist lecturersFeedback, cases studies and illustration (possibility to adapt according client assets specificities)

agenda 5 days

f Vapor liquid equilibrium, elements of distillation and absorption 0.5 d

f Specifications & water content of gas - Hydrates 0.5 d

f Gas dehydration: TEG absorption, molecular sieves 0.75 d

f Gas treatment (if applicable): sweetening, condensate extraction & fractionation 0.75 d

f Technology and operation of centrifugal and reciprocating compressors 1 d

f Compressors operation (case studies) 0.75 d

f Feedback and case studies – Troubleshooting specific to client assets 0.75 d

purpose

To acquire best practices of production facilities control room operation through role-play situations on integrated oil & gas production plant dynamic simulator

audience

Experienced control room operators and production supervisors looking to advance their know-how in control room operation

learning objectives

- To analyze and anticipate behavior of main control loop structures

- To describe DCS and SIS systems architecture and functionalities

- To explain production equipment and processes operating parameters and perform troubleshooting

- To implement proactive and anticipatory control room operation and acquire a safety mindset

- To react and act in a structured manner to anomalies and plant upsets

- To enforce safety guidelines during downgraded and critical situations

Ways & means

Extensive practice on integrated oil & gas production plant dynamic simulatorNumerous case studies and role-play situations

agenda 10 days

f PID controllers and control loops structures 1 d

f DCS & SIS 1.5 d

fWells and production lines operation 1 d

f Surface production processes operation 1.5 d

f Control room normal operation best practices 1.5 d

f Rotating machinery operation 1 d

f Anomalies and plant upsets management 1 d

f Safety in control room operations 1.5 d

purpose

To provide a comprehensive knowledge of and develop practical skills in conducting reliable and safe laboratory analyzes for the oil and gas industry

audience

Laboratory personnel, operational staff and other professionals interested in lab analyzes dedicated to oil and gas operations

learning objectives

- To grasp the physical and chemical concepts involved in various analyzes

- To comprehend issues requiring special attention in various analyzes

- To assess the results of an analysis and decide whether to carry out the analysis over again

- To review main Occupational Health and Safety rules within the framework of lab activities

Ways & means

Several applications and illustrationsLab visit

agenda 5 days

f Role and responsibilities of laboratory staff 0.5 d

f Analyzes specific to crude oil 1 d

f Analyzes specific to gas 0.5 d

f Analyzes for the follow-up of effluent treatment operations 1 d

f Laboratory visit 1 d

f Analyzes done to optimize anti-corrosion treatments 0.5 d

f HSE in laboratory activities 0.5 d

e-54

4 Gas Treatment & CompressionTechnology - Operation e-

547 Production Facilities

Control Room Operation e-54

8 Laboratory Analyzes for Oil & Gas Production

Methodology - Results analysis - HSE


proficiency

Reference: PROD / GASCHAINGB Reference: PROD / ADVCCRGB

proficiency

Reference: PROD / LABOGB

proficiency

275

purpose

To improve awareness regarding risks in laboratories and pilot plants and develop the right skills to mitigate those risks

audience

Technicians with responsibilities in various laboratories (control, R&D, application), pilot plant technicians, security guards

learning objectives

- To assess the risks linked to products, testing material and industrial environment

- To mitigate risks by adopting appropriate prevention policies

- To become fully involved in safety matters - To adopt the best industry practices

agenda 4 days

f Risks related to products 1.25 d

f Hazards to humans 0.5 d

f Hazard materials 0.5 d

f Design and development laboratory management products 1 d

f Individual behavior 0.25 d

f Behavior health and safety 0.5 d

purpose

To provide a thorough understanding of expectations and mandatory requirements regarding occupational safetyTo give insight regarding operational implementation of a safe workplace within oil & gas facilities

audience

Safety officers, HSE supervisors, offshore installation manager, field manager

learning objectives

- To deepen knowledge of codes and regulations relative to occupational safety

- To comprehend Job Safety Analysis (JSA) - To asses an activity in order to promote a safe workplace

- To understand regulations relative to dangerous goods transportation

Ways & means

Several applications and illustrationsSeveral case studies and teamwork sessions

agenda 5 days

f Introduction to occupational safety 0.5 d

f Roles and responsibilities 0.5 d

fMandatory requirements of companies 1 d

fWorkplace accident and occupational diseases 1 d

f Job hazard analysis 1 d

f Dangerous goods transportation 1 d

e-54

9

Safety in Laboratory

e-55

1 Occupational SafetyEnsure a safe workplace

proficiency

Reference: PROD / SAFELABGB Reference: HSE / OCCSAFGB

foundation

IN-H

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HSE


[email protected]

276

In-house TraInIng

purpose

To provide the knowledge required to implement and follow-up on a HSE management system, in order to ensure a higher level of safety and more environmentally-friendly business activities

audience

Engineers (in particular field engineers, project engineers) expected to assume a HSE- or Safety-Engineer positon, Business Managers seeking to acquire comprehensive HSE management knowledge

learning objectives

- To suggest a relevant HSE organization in order to fulfil local needs

- To prepare the Company to emergency situations - To follow adequately local HSE rules and regulations and contribute to their improvement

- To promote HSE principles within their organization - To contribute to building an HSE culture within their organization, which will allow avoiding incidents and accidents

- To prepare HSE audits and be familiar with continuous improvement processes

- To participate efficiently to a crisis organization

Ways & means


agenda 5 days

f Human error and human factor 0.5 d

f HSE management systems 2 d

f Safety culture and safety leadership 1 d

f Accidents/incidents investigation 0.25 d

f Crisis management - Various emergency plans 0.75 d

f Audits & continuous improvement 0.5 d

purpose

To provide the knowledge necessary to assess and mitigate risks involved in designing, constructing and operating oil and gas processing facilities

audience

Engineers, technicians, and staff (environment, project, process, instrument, and operations) involved in operating oil and gas field processing facilities or in designing oil and gas projects architecture

learning objectives

- To learn HSE standards, process hazards analysis methods, and key safety management rules

- To learn the contents of standard hazard studies - To define, forecast and measure possible outcomes and effects

- To select safety systems including firewater, fire and gas detection, and over-pressure relief

- To ensure safe operation of oil and gas facilities - To take part in risk assessment and project evaluation for offshore and onshore facilities

Ways & means

Highly interactive and participative training methodWorkshop sessions with a number of exercises, applications, real case studies, illustrations (videos and pictures), PIDBrainstorming sessions in small groups, with reportingPlenary sessions to consolidate fundamental knowledge and discuss results of workshop sessions

agenda 5 days

f Hazard identification

f Hazid/Hazop

fMajor hazard assessment

f QRA

f Layout

f Consequences analysis

f Fire and gas detection systems

f Evacuation

f Emergency response

purpose

To provide a thorough understanding of risks related to products, equipment, and different operations, involved in the execution of construction/maintenance works

audience

Engineers and staff involved in the supervision of construction and maintenance of oil and gas field processing facilities

learning objectives

- To gain a deeper insight into hazard analyses during the preparation of construction/maintenance works

- To assess risks linked to various activities, and adopt best industry practices

- To grasp typical HSE management rules for prevention and protection

- To lead a team carrying out a safety audit of construction/maintenance works

Ways & means


agenda 4 days

f Introduction: occupational safety 0.25 d

f Product related hazards 0.25 d

f Occupational health hazards 0.25 d

f Hazards relative to construction and maintenance works 1.5 d

f Hazards related to simultaneous operations 0.25 d

f Safety management in construction activities 0.5 d

f Audits - Means of improving the HSE performance 1 d

e-55

5

HSE Management

e-56

5

Safety Engineering Workshop

e-57

0 HSE in Construction/ Maintenance Works

Hazards - Works - SIMOPS - Management - Audits


foundation

Reference: HSE / HSEMGT Reference: HSE / SEWGB

proficiency

Reference: HSE / WORKGB

foundation


[email protected]

277

purpose

To provide a thorough and applied knowledge of best industry standards and practices for appraising environmental matters throughout the life cycle of a field development; to implement the management of impact and risks throughout the life cycle of a Project from exploration up to production

audience

Managers, advisors, engineers, and operations staff involved in management of environmental issues all along the lifetime of a field development

learning objectives

- To understand the stakes for the oil and gas industry in terms of risks and environmental impacts

- To understand techniques, fundamentals and contents of environmental impact assessments

- To grasp legal requirements and standards with respect to impact on local environment

- To identify mitigation measures - To select key performance indicators, and set up environmental management plans

- To create an Oil Spill Contingency Plan, including the combating strategy

- To learn about minimum requirements for restoration and remediation of operational sites

Ways & means

Highly interactive training by industry specialist lecturerNumerous applications, illustrations, case studies and teamwork sessions

agenda 5 days

f Environmental stakes & issues related to E&P activities 1 d

f Environmental risk assessment – Standards & regulations 0.25 d

f Environmental impact assessment – Projects 0.5 d

f Environmental risk management – Production activities 0.5 d

fMonitoring & reporting 0.5 d

f Introduction to oil spill response at sea 0.25 d

f Oil spill response technologies 0.5 d

fWaste management: disposal options of oil-spill waste 0.5 d

f E.u. directive on Integrated Pollution Prevention and Control (IPPC) 0.5 d

f Contaminated site management 0.5 d

purpose

To shed light on societal issues related to oil and gas activities based on the practice and case studies (BTC pipeline, Nigeria, Chad-Cameroon pipeline, Yemen, Ecuador, etc. ) and on future trends (new territories, challenges and risks)To provide knowledge about societal standards (Equator principles, IFC performance standards, Extractive Industry Transparency Initiative (EITI), Voluntary Principles on Security and Human Rights, ISO 26000, uN human rights, etc.)To give a professional insight into the tools used by the industry in the societal field, their scope and limitations: social impact assessment, stakeholder mapping, stakeholder engagement, Social impact management plans (RAP, etc.)

audience

Managers, advisors, engineers, and operations staff involved in oversight or management of operational, environmental and social issues throughout the lifetime of an upstream project

learning objectives

Identify and understand what constitutes a social risk (non-technical risks), an impact assessment and managementunderstand public policy and due diligence contexts for SIA including legal and international requirementsunderstand key concepts related to SIA and social impact management plans (SIMPs)understand social management methodologies and their appropriate uses (including methodological traps/pitfalls)Design and implementation of a stakeholder engagement strategy and planunderstand the main components of a Social Impact Management Plan (RAP, local content, etc.), including design and implementationunderstand Key Performance Indicators (KPIs) for monitoring the implementation of the SIMPs

Ways & means

The training will have an interactive format providing room for practice and discussion. It will involve multimedia presentations, case studies and teamwork sessions

agenda 5 days

f Social issues related to O&G activities: risks, stakes and strategies 1 d

f Stakeholder engagement 1 d

f Participative social impact assessment as a risk management tool 1 d

f Social impact management plans and monitoring: tools & processes 0.5 d

f Social impact management plans and monitoring: focus on special topics and issues 1 d

f Case study: social screening of an oil and gas project 0.5 d

purpose

To provide a thorough and applied knowledge and efficient techniques with the best industry standards and practices for Air Pollution control and treatment, waste water control and treatment, oil spill treatment, hazardous waste control and treatment, soil pollution assessment & remediation and monitoring equipment to evaluate ambient conditions and the level of treatment

audience

Managers, advisors, engineers, and operations staff involved in the management of environmental issues all along the lifetime of a field development: from design to operation

learning objectives

- To understand the stakes for the oil and gas industry for Environmental Management

- To understand contents of environmental impact assessments and mitigations (treatments)

- To identify mitigation measures, air treatment techniques, waste water treatment, wastes treatment, soil remediation

- To implement an Oil Spill Contingency Plan, including the combating strategy

- To learn about requirements and technique for remediation of operational sites

- To select key performance indicators, and set up monitoring with environmental management plans, including monitoring techniques and analysis of all emissions and environment

Ways & means

Highly interactive training by industry-specialist lecturersNumerous applications and illustrations, case studies and teamwork sessions

agenda 5 days

f Environmental issues related to E&P activities 0.25 d

f Atmospheric pollution & treatment 0.75 d

fWaste water pollution & treatment 0.75 d

f Oil spill response at sea – Technologies 1 d

f Solid waste disposal 0.75 d

f Soil pollution & remediation 0.75 d

fMonitoring & reporting 0.75 d

e-58

1 Oil & Gas Facilities Environmental Impact Management e-

582

Social Risk Management

e-58

3 Environmental Management of Spills & Emissions: Air, Water, Wastes, Soils

proficiency

Reference: HSE / ENVMGTGB Reference: HSE / SOCIALGB

proficiency

Reference: HSE / POLLUTIONGB

proficiency

IN-H

OuSE

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GFi

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Oper

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HSE



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in HSE Engineering Ready-to-use skills


HSE Management systems, investigations & reporting

HSE in operations & safety engineering activities

Oil & Gas production chain & equipment

With the HSE EngineerGraduatE CErtifiCatE

279

doWnhole productIon and surface processIng 10 dFundamentals of Reservoir Engineering, Drilling, Completion and Well ServicingOil, Water & Gas treatments

floW assurance – productIon facIlItIes equIpment – corrosIon & InspectIon

10 d

Overview of static and rotating equipmentFlow assurance, hydrates, wax, asphaltenes, depositsCorrosion & inspection, chemicals use & management

safety engIneerIng 10 dPreliminary Hazard analysis - HAZID studies, HAZOP studies - Consequence analysis methodologyMajor hazard assessment & quantitative risk assessmentEmergency escape and rescue - Human Factor & Safety Dossier

safety durIng project phases 10 dDescription of project phases and associated safety issuesSafety rules and organization on projectSafety audits, lessons-learnt sessions

hse In drIllIng/completIon operatIons 5 dHSE in drilling, completion, rig move operations, well maintenance operationsTraining exercises: well control, fire drill, rig evacuation etc.

hse In operatIon and maIntenance actIvItIes 10 dHSE main hazards and risks: dangerous products, flammability, fluid behavior hazardsutilities, flares & drains, installation preparation for work (LOTO; degassing-inerting; ventilation…)Inventory of risks in maintenance worksWork Permit System, SIMOPS

hse management systems – responsIbIlItIes – reportIng 10 dHSE management systemsManagement of change, downgraded situationsHuman factors and Responsibilities - Safety Culture & Safety Leadership

envIronment and pollutIon management 5 dEnvironmental issues to E&P activitiesEnvironmental impact assessment - ProjectsEnvironmental risk management - Production activitiesOil Spill Management & Waste Management

emergency plans – oIl spIll response – fIrefIghtIng practIce 5 d

communIcatIon skIlls – fInal oral assessment 5 d

purposeTo provide an in-depth knowledge of safety and environment issues in oil & gas production activities: from design to facilities operation

audIenceEngineers (in particularly field-, project- engineers) called on to take the position of HSE or Safety Engineer

learnIng objectIves - To describe the overall production chain and explain main techniques and equipment used in the Oil & Gas facilities

- To detail HSE concerns in production operations, construction, maintenance works, projects/logistics

- To describe HSE management roles and responsibilities, set-up and implement HSE management system

- To contribute to Safety Engineering studies, incident analysis and investigation reporting, HSE monitoring

- To adopt good work methods and communication skills

Ways & meanshighly interactive training by industry specialist lecturers, with numerous teamwork sessionsnumerous application, case studies and experience feedback

HSE Engineer Certification

e-59

1c



80 days

Reference: HSE / HSEENG



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in HSE Engineering Ready-to-use skills


HSE Management systems, investigations & reporting

HSE in operations & safety engineering activities

Oil & Gas production chain & equipment

With the HSE EngineerGraduatE CErtifiCatE

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Instrumentation & Instrumented Systems Ready-to-use skills

Automation: DCS & PLC

Safety integrated levels

Process control & safety systems

Process instrumentation

With the ADVANCED CERTIFICATE

in Advanced Instrumentation & Instrumented Systems

281

process InstrumentatIon 1.25 dField instrumentation refresher: 4-20 mA standard and HART instruments, digital instrumentsInstruments scales and calibration methodsIntroduction to control valves calculationCalibrated orifice calculation according to ISO 5167 standard, approach for measurement error calculationFlow-rate calculation corrected for pressure and temperatureInstrument cables and junction boxes definitionIntroduction to on-site industrial analyzers

process control 1 dOil & gas surface processes identificationPID controllers study: series, parallel and mix structures – Impact of controller parameters on process control – Controllers tuningStudy and adjustment of control loops: simple closed loop, cascade, split-range, ratioApplications on dynamic simulator: case of a {well – separator} process section

safety Instrumented systems (sIs) 1 dRefresher on safety instrumented systems (SIS): PSS, ESD, HIPPS, EDPImpact on HAZID and HAZOP studies on designDefinition and implementation of Safety Integrated Levels (SIL) on instruments loops: oil and gas companies approach to IEC 61508 and 61511 standards – application exercisesApplications on dynamic simulator: Implementation of PSS and ESD systems – Case of a {well – separator} process section

automatIon (dcs/plc) 1.75 dDistributed control system (DCS) architecture

Equipment architecture: controller, input/output cards, software architectureMan – machine interface: views management (mimics, alarms, historian, trends), plant control strategy (overview, tree structure) and functionalities of the various types of viewsAlarm management: alarm types, hierarchy, processingDCS simulator: Man – Machine interface analysis – Case study

DCS and PLC implementation projectsApproach to quantification and allocation of system input/outputNotion of system life cycle and integrity (IEC 61508) / implementation of SILStudy of e DCS or PLC implementation project: Engineering documents (functional analysis) and project phases: Factory Acceptance Test (FAT), Site Acceptance Test (SAT) and commissioning

purposeTo provide a comprehensive and practical knowledge of process control and safety systems, necessary for designing and implementing instrumented systems

audIenceEngineers and technicians involved in designing, setting-up and commissioning instrumented systems or operating oil and gas surface production facilities

learnIng objectIves - To understand and analyze field instruments design

- To implement Safety Integrated Levels (SIL) on instruments loops

- To anticipate the impact of PID controllers parameters and structures on process control

- To analyze main control structures and perform basic tuning of controllers

- To learn about ICSS equipment architecture

- To understand man-machine interface functionalities

- To comprehend ICSS design and oversight of implementation projects

Ways & meanspractical training with real-life case studiesuse of dynamic simulations

Advanced Instrumentation & Instrumented Systems Certificatione-

609c



5 days

Reference: I-R / INST2GB



Key benefits:

An international recognition of your competencies An Advanced Certificate is obtained A confirmed expertise in Instrumentation & Instrumented Systems Ready-to-use skills

Automation: DCS & PLC

Safety integrated levels

Process control & safety systems

Process instrumentation

With the ADVANCED CERTIFICATE

in Advanced Instrumentation & Instrumented Systems

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE

282

In-house TraInIng

purpose

To provide a comprehensive knowledge for the control and maintenance of instrumented systems enforced in production facilities

audience

Engineers and technicians involved in hook-up and control of instrumented systems enforced in the Oil & Gas industry

learning objectives

- To understand the importance of measurements quality, calibration methods and associated preventive actions

- To optimize process control loop – PID controllers - To know the typical architecture of a DCS – I/O interfaces, communication protocols

- To describe process safety systems and fire and gas detection systems

- To master instrument calibration procedures, process control and safety loops synchronization

Ways & means

Highly interactive training by industry specialist lecturersProcess control practice on dynamic simulatorNumerous applications and illustrations on calibration, process control and safety instrumented systems

agenda 5 days

f Process instrumentation 1.25 d

f Process control 1.25 d

f Automation of production processes 0.5 d

f Safety instrumented system 1 d

fMaintenance and calibration standards 1 d

e-61

1

Instrumentation Maintenance

proficiency

Reference: I-R / INSTMAINTGB

purpose

To provide an advanced, practical knowledge of multivariable predictive control

audience

Engineers, technicians and operation supervisors involved in the design, implementation and maintenance of Advanced Predictive Control (APC) projects

learning objectives

- To learn the fundamentals of multivariable predictive control: setting time, step response, prediction, dynamic control and optimization

- To use a software for dynamic model identification, controller design, off-line closed loop simulation, robust tuning

- To experiment the design of an on-line application on a process unit

- To enhance the skills required to specify, execute and maintain an APC application

Ways & means

About 30% of the course devoted to workshops using advanced process control software solutions

agenda 4 days

f Introduction topics 0.5 d

fModel identification 1 d

f Dynamic simulation 1 d

f Automated step test 1 d

f APC project methodology and overview of on-line tools 0.5 d

e-61

0c

Multivariable Predictive Control Certification

Developed with the assistance of AXENS - IFP Group Technologies



Reference: I-R / MVPCGB


[email protected]

283

purpose

To acquire a basic knowledge of the world of electricity

audience

Operators, interested in basic electrical sciences and their various applications in oil and gas industry

learning objectives

- To know the basic norms, symbols and drawings - To know the basic of electricity generation and distribution

- To know the functions of main electrical users - To know and apply the electrical safety rules - To know the basic of ATEX and applications

Ways & means

Several applications and illustrations

agenda 5 days

f Generalities, main formulas, norms & symbols, drawings 1 d

f Earthing & neutral systems, distribution network, HV & LV switchboards 1 d

f Batteries, charger & uPS, measures & measuring devices, electrical protections 1 d

f Cables & accessories, electrical motors, transformers, lighting systems 1 d

f Electrical safety, hazardous areas & ATEX 1 d

e-61

8 Production Facilities Power Network & Electrical Equipment

Reference: I-R / ELEC1GB

foundation

purpose

To provide thorough understanding of the role and functions of the electrical equipment in oil and gas facilities, maintenance of installed electrical equipment, electrical protection, electrical safety and ATEX equipment

audience

Engineers and technicians interested in electrical installations and equipment used in the oil and gas industry and more specifically the maintenance teams

learning objectives

To provide a thorough understanding of: - the role and functions of the electrical equipment in oil and gas environment

- the maintenance of installed electrical equipment - the electrical protection - the electrical generation and distribution - the rotating machinery and static equipment - the electrical safety and ATEX equipment

Ways & means

Very interactive animation by instructors with extensive experienceMany applications and industrial case studies

agenda 5 days

f Role and functions of electrical consumers, standards, maintenance 1 d

f Protection, electrical generation and distribution 1 d

f Rotating equipment: alternators - motors 1 d

f Static equipments 1 d

f Protection against the electrical hazards 1 d

e-62

0

Electrical Maintenance

proficiency

Reference: I-R / ELECMAINTGB

purpose

To provide a thorough understanding of Role & Functions of Plant Electrical Equipment, Electrical Technology, Generation and Distribution of Electrical Power and Rotating Equipment’s

audience

Engineers and technicians interested in electrical installations and equipment used in the oil and gas industry

learning objectives

- To provide understanding, concepts of Plant Electrical Equipment

- To understand equipment operating principles within a typical electrical network

- To understand the basic maintenance curative and preventive principles

- To understand and apply the electrical safety rules in oil and gas industries

Ways & means

Several applications and illustrations

agenda 5 days

f Role & functions of plant electrical equipment 0.75 d

f Electrical power generation and distribution 0.75 d

f Rotating equipment – Motors 0.75 d

f Static equipment’s 0.75 d

f Small power and lighting 0.25 d

f Electrical protection 0.25 d

f Electrical safety 0.75 d

f Hazardous areas and materials 0.75 d

e-61

9 Production Facilities Power Network & Electrical Equipment (Advanced)

Reference: I-R / ELEC2GB

proficiency

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE

284

In-house TraInIng

purpose

To provide the basic techniques of the various aspects and practices related with piping for the gas and oil industry so much for the extraction, the processing and the storage of products while respecting the current safety regulations of the industry

audience

Technicians for general mechanical maintenance in the oil and gas industry

learning objectives

- To describe the mechanical strength, the chemical resistance and the thermal resistance

- To describe the different types of flexible hoses - To describe the types of fitting for tubing and piping

- To recognize the different types of gasket - To understand how bolted assemblies are working - To identify the lifting equipment and accessories

Ways & means

Highly interactive training by industry specialist lecturersNumerous teamwork exercisesPractice in workshops (according to availability)

agenda 5 days

f Piping 1 d

f Joints 0.5 d

f Flanges and gaskets 0.75 d

f Torqueing 1 d

f Clearances and air gap 0.75 d

f Rigging and slinging 1 d

purpose

To provide a better understanding of centrifugal and displacement volumetric pumps technology and operating principles

audience

Engineers and technicians involved in centrifugal and positive displacement pumps operation or engineeringEmployees in charge of running and checking pumping systems

learning objectives

- To describe the behavior and the operation of pumps

- To analyze the technical solutions applied in their units

- To establish a diagnosis of the incidents, and participate in the troubleshooting meetings

- To identify essential elements in pump selection

Ways & means

Functional approach for a better understandingNumerous examples and cases studies from the oil & gas production industry and analysis of manufacturer file

agenda 5 days

f Pumping prerequisites 0.5 d

f Centrifugal and positive displacement pumps technology and performance 2 d

f Pumping systems operation 1.5 d

f Pumping systems troubleshooting 0.75 d

f Safety in pumping operation 0.25 d

purpose

To provide a better understanding of centrifugal and displacement volumetric pumps technology and maintenance principles

audience

Engineers and technicians involved in centrifugal and positive displacement pump operation, maintenance or engineeringEmployees in charge of maintenance running of the pumping systems

learning objectives

To describe the behavior and the technology of pumpsTo provide the maintaining solutions applied in their pumping unitsTo establish a diagnosis of the incidents, and participate in the troubleshooting meetings

Ways & means


agenda 5 days

f Centrifugal and positive displacement pumps technology and operation 2 d

f Pumping systems troubleshooting 0.5 d

f Pumps maintenance (preventive, conditional and corrective) 2 d

f Analysis of a manufacturer databook 0.5 d

e-62

1

General Mechanical Maintenance

e-62

2 Centrifugal & Positive Displacement Pumps Operation e-

623 Centrifugal & Positive Displacement

Pumps Maintenance


foundation

Reference: MAT / GENMAINTGB Reference: MAT / PUMPOPGB

proficiency

Reference: MAT / PUMPMAINTGB

proficiency


[email protected]

285

purpose

To provide a better understanding of the technology, performance and operation of centrifugal and volumetric compressors

audience

Operation and technical department staff involved in the operation of centrifugal and volumetric compressorsEmployees in charge of running and checking compression systems

learning objectives

- To describe the technology of centrifugal and volumetric compressors

- To select the adequate operating conditions - To explain the main operating problems - To be involved in a troubleshooting process

Ways & means

Study of actual cases based on industrial situationsVarious illustrations of actual systems

agenda 5 days

f Compression prerequisites 0.5 d

f Centrifugal and volumetric compressor technology and performance 2 d

f Centrifugal and volumetric compressor operation 1.5 d

f Compression systems troubleshooting 0.5 d

f Safety in compressors operation 0.5 d

purpose

To provide a better understanding of the technology, performance and maintenance of centrifugal and volumetric compressors

audience

Engineers and technicians involved in centrifugal and volumetric compressors maintenance or engineeringEmployees in charge of maintenance running of the compression systems

learning objectives

- To describe the behavior and the technology of compressors

- To provide the maintaining solutions applied in their compression units

- To establish a diagnosis of the incidents, and participate in the troubleshooting meetings

Ways & means


agenda 5 days

f Centrifugal and volumetric compressors technology and operation 2 d

f Compression systems troubleshooting 0.5 d

f Compressors maintenance (preventive, conditional, corrective) 2 d

f Analysis of a manufacturer databook 0.5 d

purpose

To provide knowledge about gas turbine technology and in the selection, operating principles, operation and maintenance of gas turbines

audience

Engineers and technical staff involved in gas turbine operation, maintenance, engineering

learning objectives

- To understand gas turbine operation - To understand selection criteria based on process and on-site conditions

- To participate in gas turbine troubleshooting

Ways & means

Study of actual cases based on industrial situationsVarious illustrations of actual systems

agenda 5 days

f Gas turbine equipment 2 d

f Functioning and performance 1.5 d

f Operation and maintenance 1.5 d

e-62

6 Centrifugal & Volumetric Compressors Operation e-

627 Centrifugal & Volumetric

Compressors Maintenance e-63

0

Gas Turbines

proficiency

Reference: MAT / COMPGB Reference: MAT / COMPMAINTGB

proficiency

Reference: MAT / GT

proficiency

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE

286

In-house TraInIng

purpose

This training provides an understanding of how machines work, the mechanical aspects, wear and rupture, lubrication, and troubleshooting by knowledge of the general technology of the rotating machinery and auxiliaries (introduction to vibration analysis and other techniques)It provides requisite knowledge to realize inspection and diagnosis of the rotating machinery

audience

Engineers, supervisors and technical staff involved in rotating machinery maintenance, inspection, method, construction

learning objectives

- To explain how the machines and their components work

- To list the mechanical effects of a change in operating conditions

- To describe the failure modes of each component - To participate in the machinery reliability improvement process

Ways & means

Functional and practical approach of the rotating machineryStandard and rules remind in mounting, dismantling, geometrical and clearance controls

agenda 10 days

f Technology and operation of main rotating machines 4 d

f Technology and maintenance of machine components 3.5 d

f Forecasting breakdowns 2.5 d

purpose

To provide the tools for evaluating machinery operating problemsTo impart the knowledge and methods necessary for the organization and implementation of an efficient predictive maintenance program

audience

Supervisors and technical staff involved in the inspection and maintenance of rotating equipment

learning objectives

- To explain the capacity and limitations of different types of measurement devices: sensors, analyzers, software, etc.

- To recognize typical signatures of the most common mechanical defects

- To decide the kind of signal treatments to apply in order to produce evidence of a specific defect and evaluate its severity

- To implement a maintenance schedule for each machine, based on the type of machine and its importance in the production process

Ways & means

Study of industrial situationsVarious illustrations of actual systemsuse of professional measurement software and/or test benches (when available)The practical approach makes the course suitable for full-time vibration specialists

agenda 4 days

f Basic definitions - Overall measurements 0.75 d

f Resonance 0.5 d

f Tools for diagnosis 0.5 d

fMachinery defects and vibration signature 2 d

f Practical machinery vibration monitoring 0.25 d

e-64

1 Operation, Maintenance & Inspection of Rotating Machinery e-

643 Machinery Vibration

Signature Analysis

proficiency

Reference: MAI / ROTMAINT Reference: MTM / PAVIB-E

advanced


287

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE


[email protected]

288

In-house TraInIng

purpose

To provide a comprehensive knowledge of the technology and operation of oil terminals in general, and of FPSO/FSO in particular

audience

Managers, staff, and technicians whose activities are related to oil terminals (production, marine maintenance, operation, design, manufacturing, trading, control, regulations…)

learning objectives

- To review all loading/unloading operations on oil terminals, FPSO’s and FSO’s

- To understand technical characteristics of onshore or floating storage facilities

- To understand metering and sampling techniques used to measure volume of marketed oil

- To grasp technology of oil tanker loading facilities (jetty, loading buoy, tandem point…)

- To learn about mooring crew activities, pilotage, port regulations

- To assess oil terminals HSE hazards and operational constraints

Ways & means

Highly interactive training by industry specialist lecturersSeveral applications and illustrations

agenda 5 days

f Overview of oil terminals 0.5 d

f Onshore storage tanks 0.5 d

fMetering of oil quantities: received, stored and exported 1 d

f Floating storage facilities (FSO/FPSO) 1 d

f Export and marine operations 1 d

f Tankers technology and tanker loading installations 1 d

purpose

To provide a practical understanding of pipeline hydraulics, flow simulation, and pipe friction loss calculations

audience

Engineers involved in designing, constructing or operating oil and gas production facilities

learning objectives

- To assess friction losses in a pipeline and fittings for a single-phase flow

- To understand multiphase flow patterns and main perturbing factors

- To grasp multiphase flow hydrodynamics for wet gas streams and crude oil streams

- To understand operational constraints of single and multi-phase flow lines

- To deal with pipeline flow assurance issues - To simulate a pipeline using the software program OLGA™

Ways & means

Highly interactive training by industry-specialist lecturersSeveral applications and illustrationsuse of simulation software programs OLGA™ and Multiflash™

agenda 5 days

f Fundamentals of fluid mechanics friction losses in single-phase flow 1.5 d

fMulti-phase flow in oil & gas production 0.5 d

f Flow assurance 1 d

fWell gas streams 1 d

f Crude oil streams 1 d

purpose

To provide in-depth understanding of corrosion phenomena specific to Oil & Gas production facilities, and the main corrosion prevention techniques

audience

Engineers and technicians working for the Design, Construction, Operation, Inspection or Maintenance of Oil & Gas upstream production facilities

learning objectives

- To list the main characteristics and types of corrosion of metallic materials used in the Oil & Gas industries

- To describe the means of protection against each type of corrosion

- To select the most appropriated material for a given Oil & Gas application

- To explain the available ways of monitoring the state of corrosion of a metallic equipment

Ways & means

Highly interactive teaching by experienced lecturersSeveral applications and illustrations

agenda 5 days

f Definition and mechanisms of corrosion 1 d

f Common types of corrosion 1 d

f Types of corrosion encountered in the oil & gas industry 1 d

f Corrosion prevention 1 d

f Corrosion monitoring - fundamentals of inspection 1 d

e-66

0 FPSO/FSO & Oil TerminalsTechnology - Construction -

Operation - Regulations e-67

0 Pipeline Hydraulics & Multiphase Flow

Simulation using OLGA™ & Multiflash™ e-67

5 Corrosion Prevention in Production Facilities


proficiency

Reference: DEV / TERMGB Reference: DEV / HYDRGB

proficiency

Reference: DEV / CORGB

proficiency

289

purpose

To provide the knowledge, methodology and tools to orchestrate work and integrate contributions of engineers from all disciplines working in a project team with the purpose of devising field development schemes

audience

Engineers from all upstream oil and gas disciplines: reservoir, drilling and well completion, treatment facilities, cost estimation, design…

learning objectives

- To consolidate the fundamentals to lead a field development study

- To acquire world class methodology in oil and gas field development

- To assess and assemble contributions of all technical disciplines involved in mapping out a field development scheme

- To outline the design of flow-lines, processing facilities, and export facilities

- To make an efficient contribution to field development multidisciplinary project teams

Ways & means

Intensive 10-day work on a full field development project, with deliverables presented to a jury in a plenary sessionCoaching throughout the training by industry experts for a highly interactive learning experienceSeveral teamwork sessions with practical exercisesuse of several professional software programs for designing facilities and sizing equipment

agenda 15 days

f Fundamentals of reservoir, drilling and completion 0.5 d

fWell effluents behavior - Need for effluent field processing 0.5 d

f Crude oil treatment 0.5 d

f Production and injection water treatment 0.5 d

f Gas processing and conditioning 0.5 d

f Simulation of oil & gas field treatment 1 d

f Case of offshore developments - Flow assurance 0.25 d

f Safety and environment 0.25 d

f Project management 0.5 d

f Petroleum economics 0.5 d

f Field development project (teamwork project with experienced coach) 10 d

e-69

5 Field Development ProjectScheme selection - Design - Schedule -

Project profitability

foundation

Reference: DEV / FDEVGB

IN-H

OuSE

TRA

ININ

GFi

eld

Oper

atio

ns &

HSE


[email protected]



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Project Management Ready-to-use skills

Pre-construction & construction phases

Practical project planning

Oil & Gas dynamics

Project management

With the Project Management PathGRADUATE CERTIFICATE

291

part 1 - e&p technologIes overvIeW 5 dGeosciencesDrilling and well completionField processing - Surface facilities - Field development and decision making processE&P challenges and new technologies

part 2 - unconventIonal projects - e&p projects economIcs 5 dContribution of unconventional hydrocarbons to the global sceneunconventional upstream steps, techniques & costsupstream economic and contractual framework, economic analysis & investment decisionEnvironmental impact & issues

part 3 - process 5 dPiping & valvesMain equipmentMetallurgy - Corrosion - Fundamentals of inspectionSchematization

part 4 - logIstIcs 5 dLogisticTransportation issues

part 5a - engIneerIng management 3 dGaining a deep understanding of engineeringEngineering discipline overviewKeys to a successful engineering execution

part 5b - qualIty assurance and rIsks In projects 2 dQuality management system, process and organizationQuality control during execution, feedback and continuous improvementRisk management system

part 6a - constructIon technIques 3 dConstruction techniques

part 6b - hse In constructIon actIvItIes 2 dSafety risk management on the field - HSE

part 7 - pre-commIssIonIng - commIssIonIng 5 dPresentation of Precom/Com in project activitiesPrecommissioning: mechanical completion, commissioning activitiesStart-up

part 8 - plannIng and schedule 5 dProject processBuilding / optimizing the scheduleOnshore case study using MS project and offshore case study using primavera

part 9 - contracts 5 dIntroduction, contracting strategyCall for tender proceduresEPC contract content and core articles, exhibits, contract, liability and insuranceProcurement, expediting, stock management, transportation, customsContract administration

part 10 - project control technIques 5 dGeneral project organization and controlPlanningEstimation & cost controlInformation management

part 11 - project management 5 dIntroduction and preliminary studiesFeed or basic engineeringProject control and administrationHSE and quality managementDetail engineering and procurementConstruction

part 12 - group exercIse or project 10 d

purposeTo acquire knowledge in managing projects, from initial stage to project completion, its purpose is to provide a thorough understanding of: - structure and management of the project phases execution (“what to do and when”)

- project management techniques & know-how (“how to”)

audIenceEngineers who are newly involved in project activities and who need a global understanding of Projects

learnIng objectIves - To discover Oil & Gas activities, vocabulary, economy

- To conduct the preliminary stages: concept, feasibility, economics (notion), FEED

- To appraise project planning: schedule, costs, execution plan

- To strengthen HSE in project Design and Construction

- To choose within the various contract types

- To manage pre-construction phases: basics, calls for tenders, etc.

- To manage construction phases: engineering, procurement, construction and commissioning

Ways & meanseach step of the course is illustrated by numerous examples, drawings, photos and videos taken from actual oil & gas activitiesexercises are proposed to participants for each step of the course

noteThe duration may vary depending on the number of working days per week

Project Management Path Certificationapplication to oil & gas upstream projectse-

702c



65 days

Reference: PL / PROPMGB

IN-H

OuSE

TRA

ININ

GPr

ojec

ts &

Log

istic

s



Key benefits:

An international recognition of your competencies A Graduate Certificate is obtained A confirmed expertise in Project Management Ready-to-use skills

Pre-construction & construction phases

Practical project planning

Oil & Gas dynamics

Project management

With the Project Management PathGRADUATE CERTIFICATE

292

In-house TraInIng

purpose

To provide a thorough understanding of the construction activities up to precommissioning, the associated management challenges and control tools

audience

Young field engineers and supervisors responsible for managing construction activities at site

learning objectives

- To evaluate and manage HSE/Security risks on construction site

- To enhance knowledge of construction activities - To develop Construction management skills - To monitor and control quality/schedule/costs during construction activities

Ways & means

Exercises are proposed to participants for each step of the Construction progressEach step of the course is illustrated by numerous examples taken from actual Oil & Gas construction activitiesMay be validated, on request, as such when all modules have been done

agenda 20 days

fModule 1: Construction Techniques (cf. E-731) 5 d

fModule 2: Site Administration (cf. E-732) 5 d

fModule 3: Safety risk management on the field - HSE (cf. E-733) 5 d

fModule 4: Offshore Installation (cf. E-734) 5 d

note

All the modules are independent and may be done separately. Please refer to the training description for more details This course can be delivered in French, with documentation in English

purpose

To provide a thorough understanding of the construction activities

audience

Young field engineers and supervisors from upstream or Downstream sectors, having the responsibility to manage Construction activities at Site

learning objectives



Ways & means

Exercises are proposed to participants for each step of the Construction progressEach step of the course is illustrated by numerous examples taken from actual Oil & Gas construction activities

agenda 5 days

f Construction techniques 3 d

f Site visit 2 d

note

This module is part of the course E-730 Training E-730 may be validated, on request, as such when all modules have been done This course can be delivered in French, with documentation in English

purpose


audience


learning objectives



Ways & means


agenda 5 days

f Team management

f Site control schedule / Costs / Contracts

f Pre-commissioning / Commissioning / Quality

note


e-73

0 Construction Management TrainingApplication to Oil & Gas Upstream Projects e-

731 Construction Management Training - Module 1

Construction Techniques & Site VisitApplication to Oil & Gas Upstream Projects e-

732 Construction Management Training - Module 2

Construction Site AdministrationApplication to Oil & Gas Upstream Projects

projects & logistics

proficiency

Reference: PL / CONST Reference: PL / CONST1

foundation

Reference: PL / CONST2

proficiency


[email protected]

293

purpose


audience


learning objectives



Ways & means


agenda 5 days

f Safety risk management on the field - HSE

note


purpose


audience


learning objectives



Ways & means


agenda 5 days

f Offshore installation

note

This module is part of the courses E-730 and E-780 Trainings E-730 & E-780 may be validated, on request, as such when all modules have been done This course can be delivered in French, with documentation in English

purpose

To provide transverse Ways & means in terms of experience, know-how and soft skills that are essential to construction supervising positions

audience

Managers, engineers, plant supervisory staff (construction, maintenance, operation) and contractor staff (engineering contractors and constructors) in charge of revamping, small, medium-size or large oil and gas projects

learning objectives

- To apply proven practices within operational situations

- To define a suitable organization and execution plan, adapted to the plant requirements

- To manage critical interfaces with operational staff, at each step of the project implementation

- To identify and manage safety, health and environment issues during project design and execution

Ways & means

Quizz will be used throughout the training course to ensure the trainees have understood the main ideasPhotos and videos will be used to illustrate the subject presential

agenda 5 days

fWorks supervision 1 d

f HSE 1 d

fWork instructions and quality issues 1 d

f Construction supervision 1 d

f Relationships and team work 1 d

note

May vary from 5 to 15 days

e-73

3 Construction Management Training - Module 3Construction HSE Management

Application to Oil & Gas Upstream Projects e-73

4 Construction Management Training - Module 4Construction Offshore Installation

Application to Oil & Gas Upstream Projects e-73

6

Construction Works Supervision

proficiency

Reference: PL / CONST3 Reference: PL / CONST4

proficiency

Reference: PL / CONSTSUPGB

discovery

IN-H

OuSE

TRA

ININ

GPr

ojec

ts &

Log

istic

s

294

In-house TraInIng

purpose

To provide the in-depth technical knowledge of oil and gas processing operations, along with the managerial and communication skills, for qualifying to hold the position of construction superintendentsTo provide the in-depth technical knowledge of oil and gas processing operations, along with the managerial and communication skills, for qualifying to hold the position of construction superintendentsThe required high-level knowledge stretches over a wide range of issues in relation to production, maintenance, intervention on well, construction, site works…

audience

Professionals with a significant experience in oil and gas surface production who are called on to hold position of construction superintendents

learning objectives

- To master all issues of the overall production process, from reservoir to offloading facilities

- To anticipate production and maintenance constraints on works

- To learn about state-of-the-art oil and gas construction techniques

- To learn about on-site HSE management rules and individual responsibilities


- To anticipate anomalous events and react effectively

- To propose well-argued plans to improve construction activities

Ways & means

Several applications and illustrations (videos, samples, tools…)Intensive teamworkuse of dynamic training simulations

agenda 58 days

f Oil, water and gas processing 10 d

f HSE in production operations, construction & maintenance works HSE management and safety engineering 18 d

fMultidisciplinary conferences 3 d

f Project control 4 d

f Construction technics 14 d

f Shut-downs: organization, coordination, management 5 d

fWork methods and communication 2 d

f Revisions - Oral assessment 3 d

note

Modules indicated with (1) are common with production training E-533 Production superintendent, in order to give the trainee the best knowledge of production constraints This course can be delivered in French, with documentation in English

e-73

7

Construction Superintendent

projects & logistics

Reference: PL / SUPTVX

proficiency


[email protected]

295

purpose

To provide technical knowledge on Oil & Gas Subsea facilities

audience

Engineers and technicians whose activity is related to the operation of Oil & Gas subsea facilities

learning objectives

- To fix objectives for inspection campaigns - To write specification for inspection of installation (with ROV, etc.)

Ways & means

Lectures carry numerous examples from ongoing projectsTrainers are specialized engineers currently involved in deep offshore projects

agenda 5 days

f Inspections & their objectives

f Deep water systems inspection activities

f Inspection plan / intervals

f Generic support documents

f Specific support documents

f Inspection management database

f Keys for the successful implementation of an inspection database

f “Initial status” references

f Specific inspections

fMonitoring

f Testing

note


purpose


audience


learning objectives

- To determine integrity characteristics - To evaluate consequences of failures - To plan repairs

Ways & means


agenda 5 days

f Physical / structural integrity issues and their main consequences

f “Functional” integrity issues and their main consequences

f Non conformity management

fMaintenance & repair

note


purpose


audience


learning objectives

- To define roles of operational means - To select intervention means (ROV, vessels, etc.) - To organize contracts and find criteria to select contractors

Ways & means


agenda 5 days

f Normal operation

f Operating philosophy in degraded mode

f Operational challenges

f Barriers philosophy

f Introduction

f Objectives

f Strategy

f “Standard” means (intervention support vessel & remote operated vehicles)

f Contracting resources

f Organization & reporting

f Execution

note


e-78

3 Subsea Integrity Management (I) - Inspections, Monitoring & Testing

Organized in collaboration with StatMarine SAS

e-78

4 Subsea Integrity Management (II) - Non Conformity Management

Organized in collaboration with STAT Marine SAS

e-78

5 Subsea Operations & Interventions - Remote Operated Vehicles (ROV)

Organized in collaboration with STAT Marine SAS

proficiency

Reference: PL / SUBINT1 Reference: PL / SUBINT2

proficiency

Reference: PL / SUBROV

proficiency

IN-H

OuSE

TRA

ININ

GPr

ojec

ts &

Log

istic

s

296

Keyword ListKeyword List2D: 772D seismic: 2323D: 77-783D seismic: 2324D: 774D seismic: 232

AAbsorption: 168Academic fundamentals: 263Accommodation: 238Accounting: 64-65, 69-71, 231Acid components content: 274Acid gas: 170-171Acoustic: 95, 232Actor: 56Additives: 257Advanced: 80Agency: 56Agreement: 70Air transport: 221Alkaline: 111Allocation: 192Allowances: 217Alluvial: 84Amine: 170-171Amortization: 65, 231Amplitude: 77, 232Analysis: 69, 231Anti-surge: 188, 190Appraisal: 231Artificial lift: 130, 135, 156, 177, 180, 258-260, 267Asset management: 67Associated gas: 169ATEX: 181Attribute: 77-78, 232Audit: 64, 70-71, 231Auditor: 71Auxiliary equipment: 140-141, 256AVA: 95AVO: 95-96, 232

BBack allocation: 192Back stripping: 238Back-off: 148Backwardation: 60Basin: 83-84, 238Basin analysis: 237-238Basin assessment: 237-238Basis risk: 60BHA: 136, 140Biogas: 57Bio-Marker: 236

Bits: 133-134, 136, 140Black oil: 108, 247BLEVE: 181-183Blow-by: 182-183Blowout: 182-183Blowout preventer: 256BO Upstream: 265BOA: 265Board: 71Bonuses: 231BOP: 141Borehole: 232Borehole seismic: 232BOT: 69Boundary: 104BSW (Basic Sediment & Water): 169Budget forecast: 205Budget(s): 64, 69, 231Budgeting: 65Business: 231

CCalibration: 232Capillary: 247Capital expenditures: 58Carbonate domain: 137Carbonates: 257Cargo: 56Case study: 256Cased: 233Cased hole logging: 105Cash flow: 69Casing design: 136Casing program: 129, 139Casing string calculation: 139Casings: 139Cathodic protection: 288Cavitation: 188, 190CBL: 150Cement and slurries: 150, 256Cement chemistry: 150, 256Cement job design: 256Cement program: 136, 256Cementing: 258Cementing practices: 133-134Change orders: 205Changes: 207Characterization: 87Chemical additives: 274Chemistry: 263Chlorination: 169Clause: 66CO2: 170-171Coiled tubing: 258Commissioning: 209Commitments: 64Committee: 71

Communication: 231Compaction: 238Company(ies): 56, 71Completion: 62-63, 105, 135, 153, 180Completion design: 63Completion engineering: 138, 177Completion techniques: 267Compression: 168Compressor: 188, 190Concession: 66, 231Conductivity: 104Consolidation: 231Construction: 217, 292-294Construction works: 181Consumer: 56Contango: 60Contingencies: 217Contract lump sum: 205Contract reimbursable: 205Contract(s): 56, 65-68, 70, 205, 211, 213, 221, 231Contractual: 70Contractual framework: 64, 67, 231Control: 71, 292-294Control of the cementing job: 256Conversion: 78Convolution: 232Core: 242, 247, 251Corporate: 69Correlation: 232Corrosion: 165, 177, 188-189, 195, 274, 288Cost: 69-70, 231Cost analysis: 65Cost control: 65, 221Cost estimates: 217Cost management: 231Cost of capital: 68, 231Cost oil: 231Cost recovery: 231Cost reports: 205Costs: 211-212Costs (maintenance - failure): 197Cougar: 107CPA: 71Crude: 56, 231Cryogenic exchanger: 172Cutting: 233

DDEA: 170-171Debt: 69Decision: 231Decision tree: 67-68Deepwater drilling: 133-135Degassing: 181Dehydration: 164-165, 169-171, 267

297

Deltaic: 84Demand: 56De-oiling: 169Deposits: 154, 257, 274Depreciation: 65, 69Derivative approach: 116Derivatives: 60Design: 182-183, 285Development: 53, 69, 101-102, 198, 230Development project: 68Development strategy: 53Deviated wells design: 136Devon: 253Dew point: 274Differential stucking: 148Dionisos: 238Directional drilling: 133-134, 145Discount: 69Discount rate: 65, 67-68, 231Distillation: 168Distributed Control System (DCS): 188-189Distribution: 57, 84Diving operations: 295Dorset: 253Downhole devices: 130Downstream: 56, 231Drainage: 101, 106-107, 181-183Drainage mechanisms: 63Drift: 232Drill collars: 140Drill pipes: 140Drilling: 62-63, 105, 129, 177, 180, 233Drilling engineering: 138Drilling fluids: 133-134, 149Drilling program: 139Drilling string: 133-134, 140Drilling techniques: 267Drive mechanism: 102, 106-107DRIZO: 170-171Duration: 64Dynamic corrections: 232Dynamic simulator: 188-189

EE&P logistic: 221Economic environment: 61Economic(s): 56, 231Economy: 56, 66Effluent behavior: 168, 177Effluents: 168Effluents field processing: 164Elastic: 95, 243Electrical submersible pumping: 155, 258Electricity: 55Electricity engineering: 177Energy: 56Engineering management: 207

Environment: 56, 84, 115, 184EOR: enhanced oil recovery: 69, 101-103, 106-107, 111Equation of state: 168Equilibrium: 56Equipment: 195Equipment availability: 197Equity: 68-69ERD: 145ESP: 258Estimating methods and tools: 217Evaluation: 102, 231, 237-238Excavation: 276Exhibits: 213Expansion: 168Exploitation: 58, 295, 295Exploration: 62, 65, 82, 230-231, 236, 253Exploration and production contracts: 64Expulsion: 236Extension: 231External: 71

FFacies: 77, 84Farm-in: 64, 66-68Farm-out: 64, 66-68Fault: 78, 236FEED: 205FFT analysis: 286Field development: 53Field engineering: 207Field operator: 265Field processing: 165Field trip: 137, 253Filter: 232Filtration: 169Finance: 69, 71Financial analysis: 69Financial management: 69Financial markets: 57Financing: 65Finding cost: 65Fire fighting system: 182-183Fiscal: 231Fiscal environment: 231Fishing: 133-134, 142Fishing job: 148Flammability: 181Flare: 181-183Flash: 168Flexible pipelines: 224Flow: 106-108, 247, 288Flow Assurance: 165, 198, 223, 288Flow capacity: 151Flow meter: 192Fluid: 103, 109, 243Fluid behavior: 168

Fluid injection: 243Fluvial: 84Fold: 236Formation damage: 257Forward: 57, 60, 231FPSO: 177, 198, 223, 267, 288Fractured reservoirs: 87Freight: 56Frequency domain: 232FSO: 177, 267, 288

GGame: 231Gas: 69-70, 170-172, 231, 262, 274Gas and power integration: 57Gas chain: 171Gas conditioning: 170-171Gas economics: 171Gas end-uses: 171Gas field processing: 164Gas lift: 155, 258Gas pipe: 170-171Gas processing: 170-171, 177Gas production: 171Gas shut-off: 154Gas storage: 262Gas test design: 116Gas transport: 262Gas treatment: 164Gas turbine(s): 188, 190, 285Gas zone cementing: 256General Terms and Conditions: 64Geochemistry: 236, 253Geodynamic: 236Geologic traps: 63Geological report: 233Geology: 62, 87-89, 233, 253Geomechanics: 256Geophysics: 62, 77, 232, 253Geostatistics: 87-89, 92, 94Global skin: 151Governance: 71Government take: 231Green muds: 149GTL: 57Gulf of Mexico: 239

HH2S: 170-171H2S content: 274Handling operations: 221Hazards: 181Hazards for personnel: 181Hazards to humans: 275HAZID: 182-183

298

HAZOP: 182-183HC: 237-238Heat: 238Heat exchanger: 188-189Heat flux: 83Hedge: 56Hedging: 56-57, 60Heterogeneities: 87HFO: Hunting For Oil: 230History: 56History match: 108, 247Hole: 79-81, 233Hole cleaning: 149Horda: 239Horizon: 78Horizontal drilling: 133-134Horizontal drilling practices: 145Horizontal well: 105-106Host country: 66HSE: 133-135, 143, 182-183, 195, 274, 276HSE reporting: 205HSE risks: 177Human factors: 181, 221Hydrate: 170-171Hydraulic fracturing: 154, 257Hydrocarbon: 62, 236Hydrofracturation: 243HYSYS: 168-171, 199

IIEA: 56, 231Imbibition: 106-107Impact assessment: 184Impedence: 77Incoterm: 56Indexation: 57-58Industrial drawings: 263Industry: 231Inerting: 181Inflow: 130, 156, 259-260Inflow and outflow performance: 151Initial engineer training: 179Injection: 102, 106-107, 111Injection water: 169Injection water treatment: 164, 169, 177Inspection: 188-189, 195, 286, 295Instrumentation: 165, 177, 188-189Insurances: 231Integration: 239, 242Interface management: 207Interfaces: 207Interference: 104Internal: 71Interpretation: 78-81, 233Intervention: 223Inversion: 95Investment profitability: 69Investment(s): 65, 67, 231IOC: 231ISO 10006: 208

ISO 9000: 208Isochron: 78IWCF certification: 157-158

JJaring: 148JOA: 66Job descriptions: 163Joint: 66, 70Joint operating agreement: 64-65, 231Joint venture: 65, 231JSBA: 66Jumpers: 223JV: 66

KKerogen: 83, 236, 238Kick control: 157Killing procedures: 155Kriging: 94

LLaboratory: 274-275Laboratory analysis (oil & gas): 274Layout: 182-183Legal: 231Legal framework: 61, 64Leverage: 69Liabilities: 231Liberalization: 57-58Lifting operations: 221, 276Liner: 150Liner hanger: 256Liquefaction plants: 58Liquid-vapor equilibrium: 168Liquid-vapor separation: 168LNG: 55, 57-58, 170-172LNG carrier: 170-172LNG chain: 172LNG economics: 172LNG tanker(s): 58, 170-171Loading: 288Log: 79-81, 88-89, 92, 150, 233, 242Logging: 62, 142, 233Logistic base: 221Logistic engineer: 221Long term contracts: 57-58, 60Losses: 149Lowstand: 239

MMachinery vibration monitoring: 286Maintenance: 195, 286Maintenance management: 197Management: 206, 231, 231Management of deposits: 223

Manhours: 217Manifold: 223Map: 78Margin(s): 56, 231Marine: 84Market(s): 56, 58, 60, 231Marketing: 56-57Material balance: 117, 263Math: 263Matrix acidizing: 257Matrix treatment: 154, 257Maturation: 83, 238MDEA: 170-171Mechanical lock-out: 181Mechanics: 263Metallurgy: 188-189Meteorology: 221Metering: 192, 263Metering Allocation: 165, 177, 192Methodology: 71Microseismics: 243Midstream: 56Migration: 77, 83, 232, 236-238Miscible: 106-107Modeling: 68-69, 83, 87, 92, 94-95, 109, 236, 238Monitoring: 102, 295Mud checks: 149Mud logging: 133-134, 142Mud program: 136Mud window: 256Multidisciplinary: 230Multidisciplinary team: 53Multiphase: 192, 288Multiphase flow: 288Multiphase meter: 192Multiple coverage: 232Multi-purpose support vessels: 223

NNational oil companies: 64Natural gas: 55, 57, 262Natural Gas Liquids (NGL) extraction: 164-165Negotiation: 66Neogene: 239Neritic: 239Netback: 57Netback value: 58New muds: 149NGL: 170-171Nitrogen: 258NOC: 231Nodes: 232Noise: 232Noise estimation: 95Non consent: 231Non-conformity: 295Norm: 71North Pyrenean basin: 137NPSH: 188, 190

299

Numerical simulation with petrophysical properties: 247

OOBC: 232Offloading: 288Offshore: 62, 147, 198, 222, 288Offshore developments: 165Offshore operations: 129, 292Offshore wells: 63Offshore works: 222OHIP: 88-89, 92Oil: 56, 69-70, 169, 231Oil base muds: 149Oil companies: 54Oil field processing: 164Oil markets: 54Oil processing: 177Oil treatment: 164-165, 169OJO: 265OJT: 265OLGA: 288On the Job training: 265Onshore wellhead: 256OOIP: 83, 101-102, 230, 237-238OPEC: 56, 231Open: 79-81Operating: 70Operating costs: 58Operation: 163, 195, 285-286Operator: 70, 175, 265Operator Certification: 175, 265Options: 60Organic: 236Organization: 211-212OSP: 232Outflow: 130, 156, 259-260Overview: 231

PPackers: 130Paleoenvironment: 239Paleontology: 239Partner: 70Passive monitoring: 243Passive seismic: 243Patrimonial: 66Patrimonial contracts: 64Payback: 69Perforating: 130, 151Performance: 285Permeability: 247, 251Petro: 79-80, 95, 242Petrochemicals: 231Petroleum: 56Petroleum engineering: 63Petroleum geology: 137Petroleum law: 64Petroleum product: 56

Petroleum system: 82-83, 88-89, 236-238Petrophysics: 81, 87, 89, 101, 247, 251Phase envelop: 168Phase equilibrium: 168Physical trading: 60Physics: 263Picking: 78Pigging: 223-224Pipeline: 170-171, 198, 222Pipeline construction: 224Pipeline integrity: 224Piping: 188-189Planning: 218Plant layout: 207Plate-fin exchanger: 172Platform: 198Platts: 56Play: 83Politic: 56Polymer: 111Pore pressure: 256Porosity: 247, 251Porous: 243Portfolio optimization: 67PPE: 181Practical training: 265Practice: 71Precommissioning: 209Preservation: 223Pressure: 181Pressure - Volume - Temperature: 103Pressure behaviors: 116Pressure control: 158Price: 56, 231Price formulae: 58Pricing: 58Pro II: 168-171, 199Procedure: 71Process: 199Process control: 188-189Processing: 63, 232Procurement: 221Produced water: 169Producer: 56Product: 231, 275Production: 62, 65, 179, 230-231Production accounting: 263Production activities operating patterns: 163Production chain: 163Production engineer: 179Production forecast: 102, 107Production mechanisms: 117Production operator training: 175, 265Production reporting: 263Production sharing contract: 231, 231Production water treatment: 164, 177Production wellhead: 130, 153Productivity: 105Productivity Index (PI): 104, 151, 259Profit oil: 231Profitability: 67, 231

Profitability analysis: 68Profitability of success: 65Progress control: 205Project: 56, 69, 182-183, 206, 209, 231Project control: 211-213Project cost estimates: 217Project engineer: 179Project execution plan: 205Project management: 67, 231Propagation: 243Prospect: 83, 237-238Prospect evaluation: 85PSA: 66PSC: 66, 70PSV: 188-189Pumping: 258Pumps: 188, 190, 258Purchasing: 221PVT: 103, 108-109, 117, 247

QQuality: 208Quality control: 205, 293Quality feedback: 208Quality management system: 208

RRadius of investigation: 104Rate: 69Receiver: 77Recoverable: 70Recovery: 102, 111Refinery: 56Refining: 56, 231Reflection: 232Reflection coefficient: 232Regasification terminals: 58Regimes: 64Regulation: 57Reid Vapor Pressure (RVP): 169Reject water: 169Relative permeability: 251, 251Reliability: 197Rent: 56, 65Rent sharing: 64Repair: 295Repayment: 69Report: 70Reporting: 56Reporting agencies: 60Reserves: 53, 56, 230-231Reservoir: 77, 87, 89, 108, 130, 238, 242-243, 247Reservoir characterization: 62, 94-96, 101-102, 111Reservoir engineering: 62-63Reservoir geology: 89, 92Reservoir management: 53, 246Reservoir monitoring: 243

300

Reservoir wellbore interface: 133-135, 151Resistivity: 247Resonance: 286Responsibilities: 231Ressources: 211-212Return: 69Rheology: 256, 274Rig: 141Rig selection: 136Rights and duties: 231Ringfencing: 68Risers: 224Risk analysis: 65, 67-69, 102, 107, 182-183, 231Risk assessment: 182-183Risk evaluation: 181Risk management: 184, 205, 292Risk mitigation system: 208Risk register: 208Risk service contract: 231Risk(s): 69-70, 83, 221, 231, 233, 237-238, 275, 292-293Road transportation: 221Rock Eval: 236Rock mechanics: 148Rock physics: 96Rock properties: 247, 251Rock types: 92Rock typing: 87Rock velocity: 232Roll cleaning: 148Rotating machinery: 165, 177, 195, 267, 286Round: 66ROV: 223, 295Rule: 71

SSafety: 182-183, 195, 275Safety & environment: 181, 267Safety engineering: 182-183Safety in operations: 181Safety systems: 165, 177, 188-189Sale: 231Sales agreements: 58Salt content: 274Sampling: 232Saturation: 247Scaffolding: 276SCAL: 247, 251Scenario: 56, 231Scheduling: 218Scientific fundamentals: 263Scope of work: 213Sea transport: 221Seal: 236Sealine: 222Sediment: 238Sedimentary basin: 62, 236, 236, 253Sedimentology: 84

Sedimentology study: 137Seismic: 78, 87, 95-96, 232, 239, 243Seismic facies: 95Seismic interpretation: 82, 232Seismic inversion: 232Seismic receivers: 232Seismic reflection: 77Seismic sources: 232Seismic velocity: 232Seismic waves: 232, 243Seismicity: 243Seismogram: 77-78, 232Sensitivity: 69Separation: 168Separator: 169, 188-189Sequence: 238Sequence stratigraphy: 84, 239Sequential analysis: 82Service: 66, 70Service contracts: 231Servicing: 130Shale: 115Sharing: 56Shipping: 60-61, 231Shoe positioning: 139Shore approach: 224Signal: 232SIMOPS: 177, 181, 267Simulation: 66, 94, 101-103, 107-109, 199, 247Simulator: 199Site supervisor: 293Skills: 163Skin: 104, 259Slugs: 223, 288Societal aspects: 184Sole risk: 231Source: 77Source rock: 83, 236, 238Specification: 231Spider: 69Spiral-wound exchanger: 172Spot: 60, 231Spot markets: 57-58SPS: 222-223Stabilization: 164-165, 267Stack: 77, 232Standard: 71Start-up: 209Start-up/Shutdown: 285State: 66, 70State participation: 64Static: 87Static corrections: 232Static equipment: 267Static model: 87, 92Steam: 111Steering committee: 231Stock management: 221Storage: 57, 288Strategic: 56

Strategy(ies): 53, 56, 231Stratigraphy: 82, 238Streamer: 232Stripping: 168-169, 261Structural: 236Stuck pipe: 148Subcontracting: 197Subsea: 198, 222-223, 288Subsea development: 147Subsea equipment: 256Subsea pipelines: 224Subsea production systems: 223Subsea tie-in: 224Subsidence: 238, 238Subsurface safety valve: 130, 153Sucker rod pumping: 155, 258Sucker rods: 258Superintendent: 195, 294Supervisor: 70Supply: 56Surface and subsea positioning: 295Surface production: 267Surface production facilities: 165Surface production superintendent: 177Surrender: 64, 231Surveillance management: 208Swaps: 60SWD: 232Sweep: 106-107Sweetening: 164-165, 169-171System track: 84, 238

TTake or pay: 57, 231Tank: 288Tanker: 288Tariffs: 57Tax: 70Tax holiday: 231Tax regime: 64, 231Tax system: 65Taxation: 65, 68-69, 231Team management: 292-293Technical assistance contract: 231Technical costs: 67Techniques: 294Tectonic: 236TEG (triethylen glycol): 170-171Temis: 238Tendering process: 205Terminal: 288Test: 242Thermal: 106-107Thermal equipment: 165Thermicity: 238Thermodynamics: 103, 109, 168, 177Time domain: 232TLP: 223Tornado: 69Tracking: 78

301

Trading: 56, 60Transfer of rights: 231Transport: 170-172, 262Transport of dangerous goods: 221Transportation issues: 221Trapping: 237-238Treatment: 169, 195Trenching: 224Tubing: 130, 153Tubular: 221Turbo-expander: 188, 190

UUFL: 223UFR: 222Uncertainties: 83, 95, 107Unconventional: 115Unconventional gas: 57-58Upgrading: 69Uplift: 231Upscaling: 94, 108, 230, 247Upstream: 56, 65, 67-68, 70, 230-231USIT: 150

VValue: 69Valves: 188-189Vapor pressure (Reid VP): 274Vapor pressure curve: 168Variogram: 94Velocity: 77Venture: 66, 70Vertical lift: 259Vibration signature: 286Viking Graben: 239VSP: 232

WWalkaway: 232Water: 169Water base muds: 149Water content: 274Water shut-off: 154Water treatment: 165Wave: 243Wave propagation: 77, 232Wavelet: 95, 232WBS: 205Well: 63, 77, 180, 233Well / reservoir model: 116Well architecture: 133-134Well completion: 130Well completion & intervention: 180Well control: 133-135, 157Well control equipment: 141Well design: 63Well effluents: 164-165, 267

Well flow capacity: 130Well intervention: 133, 135, 155, 158, 259Well intervention pressure control: 155Well log: 82Well performance: 105, 156, 177, 259, 259-260Well productivity: 130, 133-135, 151Well report: 233Well servicing: 130Well site: 233Well test: 102, 104, 108, 116, 152, 247Well testing: 152, 247Wellbore interface: 105, 130Wellbore stability: 256Wellbore treatments: 133, 135, 154Well-completion: 153Wellhead: 139Wellhead design: 136Wireline: 177Work at height: 276Work based training: 265Work methods: 177Work permit: 181Work program: 231Workover: 130, 155, 259Works: 276Workshop: 231Workstation: 78Written & oral communications: 177

302

Identify on the course programme the course reference, the price, the location and the dates you are interested in; as well as the contact name for registration.

So that your registration is done in the best conditions, please follow the procedure below:

3 weeks minimum 3 weeks minimum before the beginning of the course Please send the completed registration form

2 weeks minimum2 weeks minimum before the beginning of the course Please make the full payment - By check payable to IFP Training, 232 avenue Napoléon Bonaparte – 92851 RUEIL MALMAISON CEDEX - By bank transfer to IFP Training NATIXIS n° 30007 99999 04165583000 12 IBAN: FR76 3000 7999 9904 1655 8300 012 – BIC: NATXFRPPXXX - Should a sponsoring organization (like OPCA in France) pay for the course, please specify this on the registration form.

Do not hesitate to contact us for a late registration.

Tuition fee includes instruction, documentation; as well as meals and beverage breaks.

IFP Training will send to the authorized person indicated on the registration form: - a written confirmation by mail - one or several invitations for the participants - useful information about the training course (access to the training center, training hours, etc.)

To whom should you send your registration form?You can find the registration form on page 307. It can be sent: - by mail - by email - by fax

You must send it to the entity that will organize the course you have chosen. This entity appears at the bottom of the course program.You need then to turn to the next page to find the corresponding address and phone number.

Any registration means the acknowledgement and the acceptance of IFP Training General Sales Conditions (page 304).

RegistrationRegistration

303

ContactsContactsEXPLORATION & PRODUCTION

Geosciences & Reservoir232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceValérie BERNARD-ESTÉVÈSNadia FERTANITel. + 33 (0)1 41 39 11 70Fax + 33 (0)1 47 08 92 [email protected]

Drilling & CompletionRue Paul et Henri Courteault64000 Pau - FranceRachel DAUGASSandie LASSERRETel. + 33 (0)5 59 30 82 48Fax + 33 (0)5 59 30 68 [email protected]

Exploitation232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceStéphane BORDAT -Angélique JEANNE DIT LEJEUNE Henriette MENDY - Laurent RENAULDTel. + 33 (0)1 41 39 11 60Fax + 33 (0)1 47 08 92 [email protected]

Projects & Logistics232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceManuela JOYAUXTel. + 33 (0)1 41 39 11 80Fax + 33 (0)1 47 08 92 [email protected]

Exploitation PauRue Paul et Henri Courteault64000 Pau - FranceMarie-Élise MIQUEUTel. + 33 (0)5 59 30 82 47Fax + 33 (0)5 59 30 68 [email protected]

REFINING & CHEMICALS

RC LillebonneImmeuble Futura 1Rue A. Desgenetais76170 Lillebonne - FranceAnne BEURIOTAngèle SAINT-LÉGER Tel. + 33 (0)2 35 39 60 77Tel. + 33 (0)2 35 39 60 70 Fax + 33 (0)2 35 38 62 03 [email protected]

RC MartiguesLe Bâteau Blanc – Bât. CChemin de Paradis13500 Martigues - FranceVéronique COUTURIERChristine GRUNERTel. + 33 (0)4 42 44 43 [email protected]

RC Rueil232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceEliane CHU - Nicolas DESMAISONClaudine SAMSONTel. + 33 (0)1 41 39 11 00Fax + 33 (0)1 47 08 92 [email protected]

232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceYamina RIGHI Tel. + 33 (0)1 41 39 12 00Fax + 33 (0)1 47 08 92 [email protected]

IC ENGINES & LUBRICANTS

RC SolaizeRond-point de l’échangeur de Solaize – BP369360 Solaize - FranceFrançoise ANTONTel. + 33 (0)4 37 37 68 [email protected]

CFA LillebonneImmeuble Futura 1Rue A. Desgenetais76170 Lillebonne - FranceAngèle SAINT-LÉGER Tel. + 33 (0)2 35 39 60 70Fax + 33 (0)2 35 38 62 [email protected]

232 avenue Napoléon Bonaparte92852 Rueil-Malmaison Cedex - FranceKarine STROCK - Coralie BOULANGER - Fana DIOUFTel. + 33 (0)1 41 39 10 80Fax + 33 (0)1 47 08 92 [email protected]

ECONOMICS & MANAGEMENT

Tel. + 33 1 41 39 12 12 - [email protected]

304

Terms & ConditionsTerms & Conditions1/ Enrollment

All enrollments are considered as accepted orders as soon as the enrol-

ment confirmation issued by IFP Training has been received and implies

the client’s full commitment to these Terms & Conditions which pre-

vail over all other Customer documents, including general purchasing

conditions.

All inscriptions to training sessions shall be carried out 3 weeks prior

to the session start date. IFP Training reserves itself the right to accept

late enrolment.

The number of participants per session is limited.

Enrolment will be confirmed once the organization center receives a

fully complete enrolment form via email, fax or mail. Incomplete enrol-

ment forms will not be accepted.

Enrolment will be final once payment has been received in full, or once

an acceptance certificate from a sponsoring organization has been

received.

If the entire cost of the session is not paid 2 weeks before the training

session begins, IFP Training reserves itself the right to reopen to regis-

tration the places booked by the customer, after having informed them.

If full payment is received IFP Training will, at least 2 weeks prior to the

start of the session, send a letter to the customer designated on the

form to confirm their enrolment. A personal invitation will be attached to

the letter and which provides all practical information about the session

(schedule, directions, etc.).

2/ Payment

Enrolment fees cover training (teaching, practical activities, simulators

and other IT tools, documentation, supplies) as well as break-time rela-

ted costs (refreshments). And do not cover transport and accommoda-

tion. The price on the order form is indicated in Euros, tax not included.

VAT at the current rate will be added to the indicated price plus any

other withholding taxes. All training sessions, once started, have to be

paid in full. Upon request, IFP Training may decide to apply reduced

enrolment fees for job seekers.

The training session will only be accessible to the customer once that

IFP Training has been paid in full.

By check to the order of: IFP Training - 232, Avenue Napoléon Bona-

parte F-92852 Rueil-Malmaison Cedex.

Via bank transfer to IFP Training beneficiary:

NATIXIS account no. 30007 99999 04165583000 12

IBAN: FR76 3000 7999 9904 1655 8300 012 – BIC: NATXFRPPXXX

Late fees: if IFP Training exceptionally agrees to a payment after the

session begins, any amount not paid on time will result in increased late

fees set at three (3) times the legal interest rate. These late fees can be

requested by right until full payment has been made.

The paid invoice is sent to the Customer at the end of the training ses-

sion. A duplicate is available provided that the customer requested it

on the enrolment form.

3/ Payment by a sponsoring organization

If the customer wishes to pay using a sponsoring organization, the fol-

lowing procedures should be followed:

• before the start of the session, a request for direct billing should

be issued and accepted;

• this shall be indicated explicitly on the enrolment form;

• the customer ensures the completion of payment by the

designated organization.

IFP Training will provide the customer with all documents needed to

make a sponsoring request.

If the sponsoring organization only bears part of the training cost, the

remaining amount will be charged to the customer. Only payments by

sponsoring organizations before the first day of training will ensure en-

rolment and access to the training.

If, for whatever reason, the sponsoring organization doesn’t pay, the

Customer will be charged the full training amount. At the end of the ses-

sion IFP Training will send the sponsoring organization an invoice along

with a copy of the certificate of attendance signed by the participant.

4/ Cancellation

By the Customer:

Cancellation by the customer shall be sent in writing to IFP Training.

In the eventuality of a cancellation, even due to force majeure, less

than 14 calendar days before the beginning of the session, 50% of

the enrolment fee will be charged by IFP Training, except if a partici-

pant from the same company takes the participant’s place. Such a

replacement must be communicated to IFP Training and confirmed

by sending a new enrolment form.

In case of non-cancelled enrolments (including absenteeism or dro-

pout), 100% of the enrolment fee will be charged by IFP Training.

In case of an unforeseen departure, justified by the Customer, the

participant may be authorized to take part in a later session with the

prior consent of IFP Training.

By IFP Training:

IFP Training reserves itself the right to cancel or postpone a ses-

sion, especially if there are an insufficient number of participants.

The customer will be notified by telephone at least 2 weeks before

the session was due to begin. The cancellation will be confirmed in

writing.

The payments received will be fully refunded. No compensation on

behalf of IFP Training will be given to the Customer due to cancella-

tion or postponement of a session.

5/ Concealed work - Subcontracting

According to law No. 91-1406 of December 31, 1991 supplemented by

the June 11, 1992 Decree, IFP Training guarantees that all workers are

employed legally in terms of the provisions stated in the French Labor

Code. IFP Training guarantees compliance with all fiscal and social obli-

gations in terms of its training staff as well as legal and regulatory obli-

gations in terms of concealed work and employment of foreign labor.

IFP Training may consult qualified partners to carry out part of the ser-

vice, who will be subjected to the same obligations mentioned in this

section, as well as confidentiality obligations. In no cases does sub-

contracting relieve IFP Training of its obligations and responsibilities in

regards to these Terms and Conditions.

6/ Force Majeure

The party prevented from carrying out its obligations due to force

majeure, as defined by the French Civil Code, shall inform the other

party in writing via registered mail with acknowledgement of receipt,

providing all relevant justifications, and will do its utmost to reduce any

damage caused to the other party as a result of this situation. This

excludes a party’s internal strikes, methods of payment and payment

capacities of each party.

The obligations of a party affected by a Force Majeure are suspended,

without penalties, until the effects of this cause disappear. Each party

305

will bear the cost of all fees incumbent upon them, as a result of the

Force Majeure.

In case of a Force Majeure lasting over thirty (30) days in a row, the

party which the force majeure is opposed to may terminate the order

immediately, by right and without compensation.

7/ Termination

In case the customer does not comply with the aforementioned obliga-

tions, IFP Training will send a letter of formal notice via registered mail

with acknowledgment of receipt, demanding compliance within thirty

(30) days of the date of dispatch. Past this deadline, if the customer has

not met the requests of the formal notice, IFP Training may terminate

the order and request compensation.

8/ Insurance - Responsibility

The customer will take out and maintain all insurance policies at his

own cost and for the entire duration of the session, covering risks,

responsibilities, direct or indirect damage and any illness contracted

by the participant(s), with reputedly solvent insurance companies. The

customer will compensate IFP Training for any loss, damage or harm

caused by its participants to IFP Training, its instructors or partners.

IFP Training will take out and maintain insurance required, covering

risks which may arise during training sessions.

Each party remains liable for damages made to its property and for

personal injuries suffered by its employees, regardless of the cause or

reason of that damage, during the undertaking of the training session,

except gross negligence or willful misconduct by this aforementioned

party, or one of its employees.

In any case, IFP Training shall not be liable for any indirect or conse-

quential loss as a result of financial, commercial or any type of prejudice

caused directly or indirectly by the use of the information transmitted

within the framework of its training sessions.

9/ Confidentiality and property rights of training documents

The customer is subjected to confidentiality obligations concerning

all documents and information communicated during the session,

regardless of their medium, which are indicated as confidential. The

customer shall ensure that all their staff and more generally speaking all

people in contact with IFP Training comply with this obligation.

More specifically, IFP Training may provide participants with documents

on various formats (e.g. paper, audio, audiovisual, IT or multimedia).

Any direct or indirect reproduction, adaptation, alteration, representa-

tion or distribution by the customer, regardless of the format, of all or

part of the training documents created by IFP Training and/or the infor-

mation contained in them, for staff not taking part in training sessions

or third parties, will require IFP Training’s prior written agreement. Under

no circumstances shall the customer make any copies, in any shape or

form, with the aim to sell, organize or conduct training sessions.

10/ Data Protection

Personal information sent by the customer to IFP Training for the

purpose of a session can be transferred to IFP Training’s contractual

partners to fulfill the needs of the aforementioned session. In accor-

dance with the provisions of the law n° 78-17 of January 6, 1978 on

data protection, the customer may at any time exercise their right to

access, correct and object to personal IFP Training file content.

11/ Miscellaneous provisions - Disputes

The customer is aware of all documents which constitute the order,

including these Terms & Conditions.

After the training session and/or in case of termination, the provisions

of articles 6, 7, 8 and 9 will remain valid.

These Terms & Conditions are subjected to French law. Any dispute

which is not solved amicably within one (1) month and which concerns

the validity, the execution or the interpretation of these Terms & Condi-

tions will be subjected to the jurisdiction of the Commercial Court of

Nanterre.

307

COURSE TiTLE: ..............................................................................................................................................................................................

Course reference: ............................................ / ........................................................................... Program code: E - ............................

Date of session : ................................................................. Location: .....................................................................................................

PURChaSER infORmaTiOn

Mr Ms LAST NAME: ................................................................. First name: ............................................................

Company: ................................................................................. Job title: .....................................................................................................

Address: .........................................................................................................................................................................................................

................................................................................................................................................... Zip code (France): ....................................

City: ............................................................... State: ................................................. Country: ...............................................................

Phone: ............................................................. Email: ..................................................................................................................................

PaRTiCiPanT DETaiLS



Address: .........................................................................................................................................................................................................

................................................................................................................................................... Zip code (France): ....................................


Phone: ............................................................. Email: ..................................................................................................................................

invOiCing DETaiLS



Address: .........................................................................................................................................................................................................

................................................................................................................................................... Zip code (France): ....................................


Phone: ............................................................. Email: ..................................................................................................................................

VAT registration number: ................................................................................................................................................................................

PO number (if necessary): ..............................................................................................................................................................................

To be sent with the invoice:

Attendance sheet

Course assessment by the participant

Duplicate of the invoice

Others (please state): ................................................................................

I acknowledge receipt of IFP Training general sales conditions for public courses and I accept them

Stamp and signature

Registration formRegistration form (to be sent to the training center concerned)


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