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1 | P a g e S c h o o l o f D i p l o m a S t u d i e s
SCHOOL OF DIPLOMA STUDIES PROGRAM: DIPLOMA – CIVIL ENGINEERINGACADEMIC YEAR - 2019-20 SEMESTER – V BATCH YEAR: 2017-20DEFINITION OF ONE CREDIT:
1. Lecture(L): 1 hour / week / semester, 2. Practical(P): 2 hour / week / semester3. Tutorial(T): 2 hour / week / semester
CourseCode Course Name Teaching Hours Credits Audit
course CIE PSEETheory Tutorial PracticalDCV522 SOIL ENGINEERING 3 0 2 4 N Y YDCV523 WATER SUPPLY AND SANITARY
ENGINEERING3 0 2 4 N Y Y
DCV516 QUANTITY SURVEY &VALUATION
4 2 0 5 N Y N
DCV517 DESIGN OF STEEL STRUCTURES 4 2 0 5 N Y NDCV519 CONSTRUCTION SAFETY
ENGINEERING3 0 0 3 N Y N
DCV521 MINI PROJECT 0 0 2 1 N N YELECTIVE COURSE -IV 3 0 0 3 N Y N
DCV518 ADVANCE TRANSPORTATIONENGINEERING
DCV520 ADVANCE CONSTRUCTIONTECHNOLOGY
Total 20 4 6 25Total Hours 30
N- No CIE – Continuous internal evaluationY – Yes PSEE – Practical semester end examination including ITD, Dissertation, Industrial project,
Industrial training etc…
2 | P a g e S c h o o l o f D i p l o m a S t u d i e s
COURSE TITLE SOIL ENGINEERING
Course Code DCV522
Course Credit
Lecture : 3
Practical : 2
Tutorial : 0
Total : 4
Course Learning Outcomes
After Successful completion of the above course, students will be able to:
Explain soil formation and types of soils found in various parts of India
Determine the basic soil properties and Apply properties for classification of various soil.
Classify of the different types of soil systems.
Evaluate soil parameters like permeability, compaction, shear strength etc. Experimentally
Apply the knowledge of different soil properties to Calculate consolidation settlement.
Detailed Syllabus
SECITION ISr. No. Course content Hrs
1 INTRODUCTION:History, Definition, soil formation, Failure of structures due to soil, Limitation ofsoil mechanics, Foundation as branch of civil engineering
2
2 INDEX PROPERTIES OF SOIL:Soil as three phase system, related properties, Index properties, Inter relationshipbetween index properties. Numerical Problems based on index properties.
7
3 CLASSIFICATION OF SOILNeed of classification, Different system for soil classification, MechanicalAnalysis of soils, sedimentation analysis, Soil classification curve, FieldIdentification of soil Atterberg’s Limits, Plasticity chart
6
4 PERMEABILITYPermeability, Factors affecting permeability, flow of water through pipe andthrough soils, measurements of coefficient of permeability.
6
TOTAL - I 21
3 | P a g e S c h o o l o f D i p l o m a S t u d i e s
SECTION II5 COMPACTION
Definition, Compaction methods, standard and modified compaction tests,Factors affecting compaction, Equipment for compaction in field. Differencebetween compaction and consolidation.
4
6 SHEAR STRENGTHDefinition, Different shear test, Box shear test, Triaxial compression test Mohrcoulomb theory types of soil based on C and Φ, shear strength of cohesive & non-cohesive soils
5
7 EARTH PRESSUREdefinition, types of Lateral earth pressure, Rankine earth pressure theory.
4
8 BEARING CAPACITY:Basic definition of bearing capacity, types of foundation, selection of foundation,types of failure, method of improving bearing capacity of soil, allowablesettlement of foundation
6
10 SUBSURFACE INVESTIGATION:Introduction - Objectives of soil exploration, soil samples and soil sampler’s,Methods of exploration - Borings.
2
TOTAL - II 21TOTAL – I + II 42
Term work
Term work shall be based on the above-mentioned course content
Reference Books:
1. Venkat Ramaiah, C., Geotechnical Engineering, 3rd Edition, New Delhi: New AgeInternational (P) Ltd, Publishers, 2006
2. B.C. Punamia; Soil Mechanics & Foundation Engineering; Laxmi Pub. Pvt. Ltd., Delhi.3. Arora, K. R. Soil Mechanics and Foundation Engineering, 7th Edition, New Delhi: Standard
Publishers Distributors, 2009.4. Ranjan Gopal, and A. S. Rao, 2nd Edition, Basic and Applied Soil Mechanics. New Delhi:
New Age International, 2007.
List of Experiments1 To study Sieve analysis of soil.2 Determination of field moisture content of soil.3 Determination of bulk density and dry density of soil by core cutter method.4 Determination of specific gravity of sand by pycnometer5 Determination of bulk density and dry density of soil by sand replacement method6 Determination of consistency limits i.e. Liquid limit, Plastic limit, Shrinkage limit.7 Determination of shear parameters of soil by box shear test.8 Proctor tests to determine OMC and MDD. Field identification of soil9 Prepare site investigation Report
4 | P a g e S c h o o l o f D i p l o m a S t u d i e s
COURSE TITLE WATER SUPPLY AND SEWAGE ENGINEERING
Course Code DCV523
Course Credit
Lecture : 3
Practical : 2
Tutorial : 0
Total : 4
Course Learning Outcomes:
After successful completion of the course, student will be able to: Classify the sources of water and various water demands. Realize water quality with BIS & WHO standards. Understand collection & conveyance of water in city. Identify the water treatment concept and methods Identify sources of air pollution and operate air pollution monitoring equipments. Determine the sewage characteristics Apply environmental wastewater treatment technologies
Detailed Syllabus
SECITION ISr.
NO. Course content Hrs.
1WATER SUPPLY:Introduction, Importance and necessity, Sources of water, Suitability of water,Choice of source
3
2
QUANTITY AND QUALITY OF WATER:Types of demand, Population forecast, Computation of quantity of water,Fluctuation in demand, Factors affecting demand, Impurities in water, Collectionof water sample, Physical Chemical and Biological tests, Standards of water quality
6
3 Conveyance of Water:Conduit, Types of pipes, Pipe materials, Pipe joints, laying of pipe lines. 3
4
Purification of Water:Treatment of water: Objectives of water treatment, Basic considerations oftreatment of water, Methods of purification of water.Operations involved in water treatment: Screening, Plain sedimentation,Sedimentation aided with coagulation, Filtration, Disinfection, Water softening.
5
5 AIR POLLUTIONIntroduction to air pollution; Sources of air pollution and its classification, ill – 4
5 | P a g e S c h o o l o f D i p l o m a S t u d i e s
effects of air pollutants on man, animal and materials, Methods and equipment’sused for air pollution monitoring and control
SECTION-I 21SECTIN II
6SANITATION SYSTEMDefinitions, Objective of sewage disposal, Methods of sewage collection,Conservancy system, Water carriage system
4
7SEWER DISPOSAL
Characteristics of sewage, Sampling of sewage, Natural processes of treatment ofsewage, BOD test, Methods of sewage disposal
8
8
PRIMARY TREATMENT OF WASTEWATER:Flow diagram of municipal wastewater treatment plant. Preliminary & Primarytreatment: Screening, grit chambers, skimming tanks, primary sedimentationtanks – Design criteria & Design examples.
5
9
Solid Waste Management:Classification of solid wastes, Functional elements of solid waste management,Waste generation and composition, Waste characteristics, Effects solid waste onpublic health and environment, Waste collection, storage, transport and disposal,
4
TOTAL-II 21TOTAL-I+II 42
Reference Books :1. “Water Supply & Sanitary engineering”, by G.S. & J.S. Birdie, 9thedition DhanpatRai
Publishing Company.2. “Water supply engineering”, by S.K. Garg, 6th edition, Khanna publishers.3. “Water supply and sanitary engineering”, by Bhavinkumar R. Patel & Pradipkumar R. Patel,
2nd edition, Charotar publishing house pvt. ltd4. “Water supply & Sanitary engineering”, by S. K. Hussain, 3rd Edition, Oxford & IBH Engg.5. “Elements of Public Health Engineering”, by K. N. Duggal, 4th Edition, S.Chand & Co.6. “Water supply & Sanitary engineering”, by Vazirani & Khanna, 3rd Edition, Chandola
Publisher.
List of Experiments1. 1. To determine pH value of different water samples.2. To measure the Hardness of potable water.3. To measure Residual chlorine in drinking water.4. To determine Turbidity of water sample.5. To determine B.O.D. of wastewater sample.6. To measure C.O.D. of wastewater sample.7. To draw a sketches of Layout of Water treatment plant, layout of Sewage treatment
plant.8. To work on mini project on analyse different types of water samples in different area of
Rajkot.
6 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course Title Quantity Survey and Valuation
Course Code DCV516
Course Credit
Lecture : 4
Practical : 0
Tutorial : 2
Total : 5
Course Learning Objective
At the end of this course students will be able to Understand the fundamentals of quantity survey and valuation, Rate analysis Prepare rate analysis. Cost estimation of construction site. Understand the material required for construction site
Detailed Syllabus
Sr.No
Contents HoursAllotted
SECTION - I
1INTRODUCTION (CONSIDERING RESIDENTIAL BUILDING)Meaning & objectives of estimating & costing, Skills required for a good
estimator. Interpretation of drawing3
2MODE OF MEASUREMENT (CONSIDERING RESIDENTIAL BUILDING)Purpose, accuracy, units, rulesMode of measurements for content related items (as per I.S.) 3
3
SPECIFICATIONS (CONSIDERING RESIDENTIAL BUILDING)Definition, purpose & importance of specifications, Types of specificationsDesign and drafting of specifications , Specification writing for some usefulitems viz. Brick masonry, Excavation, Concrete etc.
8
4 Schedule TechniqueBar chart method, Critical path method, Pert method and its examples 5
5
RATE ANALYSIS (CONSIDERING RESIDENTIAL BUILDING)Definitions, importance, purpose & factors affecting the rate analysis, Taskwork, Rate of materials and Labours, water charges etc., and importantitems from Definitions, importance, purpose & factors affecting the rateanalysis, Task work, Rate of materials and Labours, water charges etc., andimportant items from excavation to completion of work of Civil Engineering
9
7 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Structure,Study of S.O.R. and market rates
Total Section - I 28SECTION - II
6
ESTIMATING (CONSIDERING RESIDENTIAL BUILDING)Types of estimates, purpose, Methods of computing the quantities (I)Centerline method, (II) Long wall and short wall method Detail estimate ofRCC , Beam, column with footing, slab.
14
7
VALUATIONTerms: Cost, Price, Value, Real estate, Personal estate, Objects of valuationMortgage, freehold property, lease-hold property, Property income, grossincome, net income, outgoing, Depreciation and obsolescence,Characteristics of good valuer, Sinking fund: Its computation andapplication, Valuation table and their use.Valuation methods for property & land. (i) Rental Method (ii) Land andBuilding Method (iii) Profit and Loss Method (iv) DevelopmentalMethod Installments for repayment of loan, Valuation report- case study,Types of rent, Procedure of fixing standard rent
14
Total Section - II 28Total Section - I + II 56
REFERENCE BOOKS:
1. I. S. 1200 Part I to XXV (Revised), B.I.S. Publication2. “Estimating & Costing in Civil engineering”, by B.N. DUTTA, 27thRevised Edition, UBSPD3. “Estimating, Costing and Valuation”, by Rangwala, 15thEdition, Charotar Publication
House4. “Civil Estimating, Costing and Valuation” by V. N. Vazirani, 4thEdition, Khanna
Publishers-Delhi5. “Estimating, Costing, Specification and Valuation in Civil engineering”, by M. Chakraborti,
24thEdition, Various India Publication6. “Valuation of Real Properties”, by S. C. Rangwala, 7th Revised Edition, Charotar
Publication House
LIST OF TUTORIAL:
1. General introduction2. Mode of measurement3. Specifications4. Rate Analysis5. Estimate : Building Estimate , Beam Estimate ,Column Estimate6. Valuation and its examples
8 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course Title DESIGN OF STEEL STRUCTURES
Course Code DCV517
Course Credit
Lecture : 4
Practical : 0
Tutorial : 2
Total : 5
Course Objective
At the end of the course, student will be able to Understand limit state and working stress methods. Understand the concepts of steel connections and their applications. Calculate tension member and compression member of column and strut. Evaluate different types of column base, Analyze different types of loads on roof.
Detailed Syllabus
Sr.No
Contents HoursAllotted
SECTION - I
1.
INTRODUCTION TO IS: 800 – 2007Structural steel and properties of structural steelLimit state design for strength & serviceability, Action (loads)Design strength, Partial safety factor for materials and Loads, Loadcombination, Maximum effective slenderness ratio
3
2.
BOLTED AND WELDED CONNECTIONSRiveted connection ,Bolted connection, Classification of boltsPitch of bolts, gauge distance, edge distance, end distance tacking
fasteners.IS: 800 – 2007 Provisions for clearance for holes, spacing, edge and end
distance, and tacking fasteners.Type of bolted joints and failures of bolted joint.Design strength of bolt and efficiency of joints.Design of bolted joint for truss membersAdvantages and disadvantages of welded joints.Type of welded joints.
Explain terms: Size of weld, throat, thickness, effective length, designstresses.
Design of fillet welds for truss members
13
9 | P a g e S c h o o l o f D i p l o m a S t u d i e s
3.
TENSION MEMBERStandard Sections used as a tension memberDesign Strength of a tension member, due to yielding of grows section,rupture of critical section, block shear, Design of tension members forangle sections.
12
Total Section - I 28SECTION - II
4.
COMPRESSION MEMBERSlender sections used as compression member, Buckling class of crosssection, Effective length and slenderness ratioDesign compressive stress and strength, Find design strength of strut,Introduction about strut, simple column and built up column.
12
5.
BEAMClassification of cross sectionLaterally supported beamAnalysis of beam in flexure and shear, Deflection limits.
9
6.
ROOF TRUSSTypes of roof truss, Elements of roof truss, Load on roof truss, Loadcombinations, Find load per panel point for DL, LL, WL,Design of thetrusses.
7
Total Section - II 28Total Section - I + II 56
Text books:Design of Steel Structure”, by B.C Punmia, 2nd Edition, A. K Jain, Laxmi Publication“Design of Steel Structure”, by S. Ramanugutham, 6th Edition,Dhanpat Rai Publishing Co.“Design of Steel Structure”, by N. Subramaniam, 12th Edition, Oxford University Press“Design of Steel Structure”, by S. S. Bhavikatti, 3rd Edition, I.K. International Pub. House
IS CODES :
IS: 800-2007 Code of practice for general construction in steelIS: 875-1987 (Part – I to III)SP: 6(1) steel structural hand book / Steel tableLIST OF TUTORIAL :
1. Introduction to IS-800:2007 & it’s general requirement2. Bolt connection3. Weld connection4. Tension member5. Compression member6. Introduction of beam7. Design of beam8. Roof truss
10 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course Title CONSTRUCTION SAFETY ENGINEERING
Course Code DCV519
Course Credit
Theory : 3
Practical : 0
Tutorial : 0
Credits : 3
Course Learning Outcomes:
● Explain key framework conditions for safety management in the industry● Categorize different organizational perspectives on accidents● Classify and give examples on different types of accidents in the industry● Analyze and evaluate the standard of corporate safety management systems
based on principles for experience feedback and learning.● Apply methods for accident investigation at different levels and recommend
efficient preventive measures● Assess risk for different tasks and systems
Detailed Syllabus
Sr.No. Content Hours
Allotted
SECTION-I
1. Introduction to Construction Industry and Safety:Basic concepts accident, injury, lost time accidents, reportable accident, frequencyrate, severity rate, incidence rate. Technological, Organisation and BehaviouralAspects of safety in construction. Human factors that are Impediments to safety inconstruction. Roles of different groups in ensuring safety, health, welfare andsocial security. Steps to be taken in construction sites in case of accidents.Introduction to ergonomics and its relevance to construction.
11
2. Safety in various construction operations:Safety such as soil excavation, rock blasting, dewatering, piling, demolition,working at heights-ladders and scaffolds, working in confined spaces. Safety in theoperation of construction equipment’s- excavators, trucks, tower cranes, mobilecranes, lifting tackles, chain and pulley. Personal protective equipment’s forconstruction.
10
11 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Total-I 21
SECTION-II
3. Classification of fire damage and Repair techniques:
Classification of fire. Effect of high temperature on the properties of concrete,steel, masonry, wood. Fire damage to concrete, steel, masonry and timber. Repairtechniques to the fire damaged reinforced concrete columns, beams, slabs and tothe steel structural members.
12
4. General requirements for safety of different occupancy:Design principles of fire resistant walls. Classification of buildings based onoccupancy, types of construction as per National Building code of India; Firezones; General Requirements of fire protection for all individual occupancies. Lifesafety aspects of building fires – Exit Requirements as per NBC of India.Requirements other than general requirements for buildings of differentoccupancy classification.
09
Total-I 21
Total-I+II 42
Instructional method and Pedagogy:
1. Lectures will be conducted with the aid of multi-media projector, black board, OHP etc.2. Assignments based on course content will be given to the students at the end of each
unit/topic and will be evaluated at regular interval.
Reference Books:
1. K N Vaid :Construction Safety Management2. Smith & Harmathy : Design of Buildings for Fire Safety3. National Building Code of India, Part –IV and VII4. Linger L. :Modern Methods of Material Hand ling.5. E.W. Merchant :A Complete Guide to Fire & Buildings6. V K Jain : Fire Safety in Buildings , New Age International (p) Ltd , New Delhi
12 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course TitleMINI PROJECT
Course Code DCV521
Course Credit
Lecture : 0
Practical : 2
Tutorial : 0
Total : 1
Course Learning Outcome
At the end of the session student will be able: Identify, formulate and analyses an engineering problem. Acquire the knowledge of the techniques, skills, and modern engineering tools necessary
for engineering practice. Design the solution of identified problem and Implement the same. Contribute in a team in development of technical project. Analyze and interpret the data. Develop professional abilities such as persuasion, confidence, and communication skill. Develop presentation skill and enhance creative thinking.
13 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Project DefinitionProject work shall be based on the following points:
Civil engineering project based on various demands during their work life. Besides technical knowledge in the different subjects, a more competence-oriented way
of education could be could be an answer to this challenge. Students learn more method, social and self-competences. Learning collection, analyzing, question information and data and demand which is a key
factor in their following work life. Decide and collect data for project. Read and interpret the drawing data. Design the components. Apply the principles rules regulation and byelaw sand plan for different phases of a task. Prepare drawing for project and work in group for given task.
14 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Interdisciplinary Design Engineering and Service program supports and promotescommunity-based projects with real-world experience working with clients to solve need-based problems.
supports senior design projects, an interdisciplinary course on community-based projects,as well as extra-curricular projects through various student organizations.
A complete description of the course, common projects and challenges is provided. Course provides engineering design experience and soft skills as well as professional
sense of the positive societal impact of engineering projects.
LIST OF CIVIL ENGINEERNG PROJECTS: 1) Planning for city roads/planning for roads for congested
area/parking studies etc. 2) Water shed development of small catchments. 3) Rain water harvesting for domestic or public building. 4) Concrete mix design. 5) Bridge design. 6) Solid waste management. 7) Hospital waste disposal. 8) Prestressed concrete. 9) Non-conventional sources of energy. 10) Planning and design of water treatment plant for given data. 11) Planning and design of water supply scheme for given lay out. 12) Planning and design of sewage treatment plant for given data.
Any other similar project can be selected.Term Work: Shall consist of ----Detailed project report in above format.Separate drawing sheets covering details of the project shall also be prepared.Learning Resources:1) Civil Engineering Hand Books / Reference books.2) Civil Engineering Magazines3) Relevant IS / International codes.4) PWD Handbooks / M.I.Manuals5) Material / Machinery / Product Catalogue.6) E- journal available at library
Instructional Method and Pedagogy:
15 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Project work is carried out in 5th semester. Preliminary work of project should be completed within project work like Finalization of
topic, literature study, methodology etc. Each student should maintain log book for the progress of project work. In this book you
will keep a log of your weekly work. You must get this signed (and dated) by yoursupervisor every week. It will be handed in with your final report, and should cover thefollowing headings:
Progress (from previous week) Problems & Queries, Objectives (for next week) Date of Meeting and Sign of Supervisor Each student has to prepare and submit the Report with CD-R which will consists of doc &
.pdf format of report and .ppt format of presentation at the time of final presentation ofproject.
One copy of the report should be submitted to Institute/ Department, one copy to Guideand one copy should remain with each student of the project group. The project termwork shall be evaluated based on reviews.
Oral examination shall be conducted along with final presentation of the project.
Report Layout
1. Cover Page & Title Page2. Declaration3. Certificate4. Project work Approval5. Acknowledgement6. Table of Contents7. Abstract8. List of Table9. List of Figures10. List of Symbols, Abbreviations and Nomenclature11. Chapters12. Appendices13.References
16 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Project Report Preparation Guideline
Paper must be White Royal Executive Bond, not less than 85 gsm Paper of A4 size. Font size type and margins
Details Font Type Font size Spacing
Facing page (cover and firstpage) – see sample page fordetails
Times NewRoman
14pt boldcapitals
Centered(Adjustable spacing)
Chapter headings withchapter number on top
Times NewRoman
14pt boldcapitals
Centered
Section headings Times NewRoman
12pt boldcapitals
Left adjusted
Subsection headings Times NewRoman
12pt. sentencecase
Left adjusted
Paragraph headings Times NewRoman
12pt.boldsentence case
Left adjusted
Body of Project report Times NewRoman
12 pt. Justified and with1.5spacing for text andequations
Margins
Left Margin 1.5 inch To accommodatebinding area
Right Margin 1.25 inch
Right Margin 1.25 inch On pages on whichchapter begins
Bottom 1.25 inch
17 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course Title Advanced Construction Technology
Course Code DCV520
Course Credit
Lecture : 3
Practical : 1
Tutorial : 0
Total : 4
Course Objective
At the end of the course, students will be able to:• Understand the mechanism of different type of equipments used in
construction work, Safety measures while handling the equipments, RMCplants.
• Calculate the efficiencies of different types of equipments.• Maintain the equipments, Plant and Equipment, Substructure, repair and
rehabilitation of structures.• Draw the sketches of the equipments used in construction work.
Detailed Syllabus
Sr.No
Contents HoursAllotted
SECTION - I
1.
COMPACTION AND STABILIZATION OF SOILNeed of compaction of soil and rock Important terms used incompaction like backfill, binder, sub base and subgrade,Types of compacting equipment, compaction by applyingimpact ,pressure ,vibration, kneading , Types of rollersSoil stabilization: lime stabilization, cement stabilization
4
2.
DOZERS, SCRAPERS AND GRADERComponent parts of dozer: blades, C– frame, Function of dozer stripping,backfilling, spreading
crawler and wheel type dozer and their functionDozers crawler type and wheel type, Differentiate betweenScrapper, pusher loaded, self-loading Working of Grader, Working ofscrapper
4
18 | P a g e S c h o o l o f D i p l o m a S t u d i e s
3.
EXCAVATORSHydraulic excavators: Hoe andshovel , Safety measures inhydraulic excavators, General information: size of bucket , fillfactor, basic parts and operation, Shovel production, Factorsaffecting shovel production: Angle of swing, Calculating Hoeproduction, Wheel loader, Trenching machine, Backhoe loaders, Draglineand Clamshells.
4
4.
TRUCKS AND HAULING EQUIPMENTRigid frame, Articulated frame, Tractors with bottom dump trailers,Capacities of trucks and hauling equipment,Factors affecting Productivity,Truck Production.
4.
5.
DRILLING ROCK AND EARTHDrilling terms: Bit, Burden, Burden distance, Drills, Core,Percussion, Drilling bits, Rockdrills, Drilling soil, Trenchless technology: Directional Drilling, Horizontal Drilling, Micro,tunnelling, Pipe Bursting/Splitting, Pipejacking, Pipe ramming. Blasting Rock, Blasting Terms: Bench,Bench height, Blast hole, shot, Blasting agent, Burden, TNTCommercial Explosives: Dynamite, slurries, ANFO, DetonatorsRDX Safety inrock blasting
5.
Total Section - I 21SECTION - II
6
AGGREGATE PRODUCTIONAggregate processing steps,Selection & Types of Crushers: Jaw crusher,Gyratory crushers, Roll crushers, Impact crushersScreening Aggregate, Log washer, Safety.
4
7
ASPHALT MIX PRODUCTION AND PAVINGEQUIPMENTAsphalt terms: asphaltic concrete, automatic screed control,binder, prime coat, RAP, screed, tack coat, Structure of asphaltpavements: sub base, base, surface,Flexible pavement, asphalt, asphalt concrete,Asphaltplant: batch plant, general arrangement andcomponent parts Primary components: cold feed system, drumdryer, hot elevator, hot screens,Drum mix plants and its components,Paving equipment:Sweeper or Broom, Trucks, Asphalt distributors, Pavers. Compaction of Pavement and rollingsteps.
5
8
CRANES AND ERECTIONCrane type, mobile and tower crane, gentry crane crawler cranes,telescopic, boom, lattice boom, rough terrain, all terrain crane, and Craneselection, Erection of steel structure, Lift planning, slings, wire rope, chain,safety.
4
9
FORMING SYSTEMSClassification: Conventional, Industrial, Vertical load and lateral pressure,Vertical systems, wall forms type, Slip forming or self-climbing forms,Shoring towers and safety. Pre-stress girder launching.
4
10
RMC AND SPECIAL REPAIRS TECHNIQUESTypes of repair and techniques: Repairing, Rehabilitation andRetrofitting of, RCC structure like beam column slab, Sealing ofcracks by injection of epoxy, Resins , cement grouting, and
4
19 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Repairing concrete with epoxy mortar. RCC, beam jacketingcolumn jacketing and restoration, Propping, underpinning,
Demolition of buildings-methods and care to be taken off.Thermal insulation and acoustics insulation of building.
Total Section - II 21Total Section - I + II 42
Text books:1. Construction Equipment & Management, McGraw-Hill2. M. S. Setty, Concrete Technology, S. Chand Publication.3. R. S. Khurmi, Concrete Technology, S. Chand Publication.4. M. L. Gambhir, Concrete Technology, Tata McGraw Hill.
LIST OF TUTORIAL :
1. To draw Types of compacting equipment and roller.2. To draw Dozer, scraper, and grader.3. To draw Types of excavators equipments (Visit to a site where heavy equipments
are in use).4. To draw Trucks and hauling equipments.5. To evaluate Drilling rock and earth.6. To demonstrate Blasting rock.7. To draw Aggregate production (Visit to the crusher site. Draw layout & prepare
brief report).8. To draw Asphalt mix production and paving equipment.9. To analyse Concrete equipment (Visit to the hot mix plant. Prepare brief
report).10. To demonstrate Crane and erection.11. To demonstrate Pile driving equipment.12. To demonstrate the Forming system.13. To study the Special repairs techniques
20 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Course Title ADVANCED TRANSPORTATION ENGINEERING
Course Code DCV518
Course Credit
Lecture : 3
Practical : 0
Tutorial : 0
Total : 3
Course Learning Outcomes
At the end of this course, students will be able to: Understand principles of pavement markings, limitations of traffic forecasting. Apply standards for street parking facilities, harbor planning. Analyze need for traffic forecasting, types of traffic and period of forecasting. Identify traffic signal designs. Design airport planning, criteria for runway, taxiway and apron.
Detailed Syllabus
Sr. no. Content HoursAllotted
SECTION I(A) TRAFFIC ENGINEERING
1INTRODUCTIONScope of traffic engineering, Vehicular characteristics, Road userscharacteristics
3
2
TRAFFIC STUDIESNecessity of traffic studies, Origin and destiny survey (O.D. Survey), VolumeStudy, Explain travel time and delay study, Accidents studies, Parkingstudies, Traffic signal design studies
5
3
ROAD MARKINGSFunction, Types of road marking, General principle of pavement markings,Material and Colour, Center lines, stop lines, traffic lane lines, Noovertaking zone marking
5
4
PARKINGTraffic and parking problem, effects of parking, Zoning and parking spacerequirement standards, Design standards for on street parking facilities,Different types of parking
5
5 TRAFFIC FORECASTINGNeed for traffic forecasting, Limitations of traffic forecastinTypes of traffic, 3
21 | P a g e S c h o o l o f D i p l o m a S t u d i e s
Period of forecastingTOTAL-I 21
SECTION II(B) AIRPORT ENGINEERING
6INTRODUCTIONHistory of aviation, Air transportation in India, International airportauthority in India. Airport terminology, Component parts of aero plane
3
7
AIRCRAFT CHARACTERISTICSSignificance and importance of aircraft characteristics, Explanation of (Typeof propulsion, Size of Aircraft, Weights of Aircraft.), Capacity of aircraft,Speed characteristics, Turning radius, Fuel spillage, Heat blast and noise,Aircraft circling radius
4
8
AIRPORT PLANNINGSite selection, Airport in regional planning, Airport in city planning,Elements of airport planning, Facilities of passengers and baggage, Airportcapacity
4
9INTRODUCTION FOR RUNWAY, TAXIWAY AND APRONNecessity, Explain wind rose diagram, Geometric design of runway andtaxiway, Classification of apron according to use
3
(C) DOCKS AND HARBOR ENGINEERING
10 Natural phenomenonWind, Tide, Current 2
11Harbor planning & site investigationsTypes of harbor, Choice of site for harbor, Master plan for port planning,Hydrographic and topographic survey
2
12
FENDERS AND MOORINGSNecessities for fenders during berthing, Types of fender system, MooringsystemBERTHING STRUCTURESGeneral aspect of selection, Piers, Wharf, Quarry, Walls, Jettie, Dolphins,trestles, moles and moving accessories
3
Total - II 21Total - I+II 42
Text books
1. “Traffic engineering and Transportation planning”, by Dr. L. R. Kadiyali, 7th edition, KhannaPublishers
2. “Roads, Railways, Bridges, Tunnels & Harbour Dock Enginnering”, by B. L. Gupta & AmitGupta, 5th edition, Standard Publishers
3. “Dock and Harbour Engineering”, by H. P. Oza & G.H. Oza, 5th edition, Charotar Publisher4. “Airport Engineering”, by Rangwala, 11th edition, Charotar Publisher