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SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: DESIGN & DRAWING OF STEEL STRUCTURES
Subject Code: CE8T01 L-T-P-C: 3-0-2-4
Course Objectives:
UNIT Description Hours
PART – A 04 (T) + 12 (D) 16
I CONNECTIONS: Bolted and welded, beam-beam, Beam-column,
seated, stiffened and un-stiffened.
II COLUMNS: Splices, Column-column of same and different sections.
Lacing and battens.
III COLUMN BASES: Slab base and gusseted base, grillage foundation.
PART – B 20 (T) + 16 (D) 36
IV Design and drawing of Roof Truss (Forces in the members to be given)
V
Design and drawing of
i)Bolted and welded plate girder
ii) Gantry girder
Sl.No Course Objectives
1 This course will enable students to learn basic concepts of steel structures and prepare the
detailed drawings with specifications of steel structures connections
2 This course will enable students to learn basic concepts of steel structures and prepare the
detailed drawings column and column bases.
3 This course will enable students to learn design of roof truss and girders.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Course Outcomes
Text Books:
Sl No Text Book title Author Volume and Year of Edition
1 Limit State Design of Steel
Structures S. K. Duggal, Tata McGraw Hill Education Private
Limited, New Delhi, India, 2015
2 Design of Steel Structures N. Subramanyam
Oxford University Press, New Delhi,
india, 2016. Third Edition
Reference Book:
Sl No Text Book title Author Volume and Year of Edition
1 Design of steel structures Dr N.Rama Chandra
and Virendra Gehlot,
Scientific Publishers,
india , 2009
2 Design of Steel Structures Dr N.Ramachandra. Vol 2 standarad book
house new Delhi
3 Design of Steel Structures P. Dayarathnam Prentice Hall India,
New Delhi, india, 2011
4 IS800-2007, & Steel tables Bureau of Indian
Standards,
General Construction in
Steel Code Practice 3rd
edition
Course
outcome
Descriptions
CO1
Students are able to make drawing to the suitable scale for the beam to
beam connection and beam to column connection, columns splicing both
welded and bolted connections.
CO2 Students are able to make drawing to the suitable scale for the design
given to slab base, gusseted base and grillage foundation.
CO3
Students are able to design and draw to the suitable scale for the roof truss,
And plate girder both welded and bolted.
CO4 Students are able to design and draw to the suitable scale for the gantry
girder.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: BRIDGE ENGINEERING
Subject Code: CE8T02 L-T-P-C: 4-0-0-4
Course Objectives:
UNIT Description Hours
I
Introduction: Classification of Bridges and their components – Masonry,
Arches RCC, Prestressed Concrete, Steel PSC and composite bridges. Brief
description of different types of bridges. Push box. Investigation of Bridge
Site: Selection Sites –Selection of type of bridge, Geotechnical, Hydrological
investigations.
Stability analysis Bridge Sub-Structures & Foundations: Foundations – Depth
of foundation – Types of foundations (Pile, raft, well and caisson – brief
description only) Coffer dams and Sheet piles.
10
II
Basic definitions Afflux Scour depth Economical span, Linear waterway
Loads on Bridges: Introduction to different types of bridge loading (static,
dynamic, and seismic and IRC) on roads and bridges.
Design of culverts: Pipe culvert & SLAB culverts.
10
Sl.No Course Objectives
1 This course will enable students to learn basic design concepts of bridges.
2 This course will enable students to learn design of RCC slab culverts and box culverts.
3 This course will enable students to learn design of PSC bridges
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
III
Design of Box culvert
Design of RCC Bridges: Design of RCC slab bridges using IRC class A and
IRC class AA loading
10
IV Design of RCC T-beams and slab bridge by Courbon‟s method for IRC class
„AA‟ loadings and interior panel of RCC bridges,
11
V
Introduction to segmental PSC Bridges Design of PSC slab bridges.
Introduction to Bridge bearings – Types of bearings & functions of bearing –
Loads on bearings - Design of Neoprane bearings
11
Course Outcomes
Course
outcome
Descriptions
CO1 Students will be made familiar about hydrological data regarding the
bridge site.
CO2 Students will be made familiar about bridge sub structure and IRC loads,
design and maintenance of bridges.
CO3
Students will be made familiar about components of bridge structure and
design Of RC bridge for IRC loads.
CO4
Students will be made familiar about design of PSC bridges and Bridge
bearings.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Text Books:
Sl
No
Text Book title Author Volume and Year of Edition
1 Bridge Engineering S.Ponnuswamy McGraw Hill Book Company, III
Edition, 2016
2 Design of Bridges Jayram &Jagadish Tata McGraw-Hill Publishing Co ltd.,
New Delhi 2016
Reference Book:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Bridge Engineering S.P.Bindra Dhanpat Rai & SonsNew
Delhi
2 Principles and Practice of Bridge
Engineering
S.P.Bindra Dhanpat Rai & SonsNew
Delhi
3 IRC 6 ,18,21–2000 Standard Specifications
and Code of Practice For
Road Bridges
The Indian Road
Congress New Delhi
4 Design of bridge Dr. Krishna Raju Oxford & IBH
Publishing Co New
Delhi
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: ADVANCED PRESTRESSED CONCRETE STRUCTURES
Subject Code: CE8PE311 L-T-P-C: 3-0-0-3
Course Objectives :
UNIT Description Hours
I
Anchorage Zone Stresses In Post-Tensioned Members:
Introduction, stress distribution in end block, investigations on Anchorage
zone stresses, Magnel and Guyon's Methods, Comparative Analysis,
Anchorage zone reinforcement.
8
II
Shear And Torsional Resistance: Shear and principal stresses, ultimate shear
resistance, design of shear reinforcement, Torsion, Design of reinforcement for
torsion.
COMPOSITE BEAMS: Introduction, types of composite beams, analysis for
stresses, differential shrinkage, serviceability limit state. Design for flexural
and shear strength
8
III
Tension Members: Introduction, Ties, Pressure pipes fabrication
process, analysis, design and specifications. Cylindrical containers -
construction techniques, analysis, design and specifications.
Statically Indeterminate Structures: Introduction, Advantages of continuous
members, effect of prestressing in indeterminate structures, methods of
analysis for secondary moments, concordant cable profile, Guyon's theorem,
Ultimate load analysis, Design of continuous beams and portal frames.
8
IV Compression Members: Introduction, Columns, short columns, long
columns, biaxially loaded columns, Design specifications.
8
Sl.No Course Objectives
1
This course will enable students to learn Basic Principles of Pre stressing
elements.
2
This course will enable students to learn design of Pre Stressed Concrete
elements
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
V
Slab and Grid Floors: Types of floor slabs, Design of one way ,two way and
flat slabs. Distribution of prestressing tendons, Analysis and design of grid
floors.
Precast Elements: Introduction, Prestressed concrete poles-manufacturing
techniques, shapes and cross sectional properties, design loads, design
principles. Railway sleepers-classification and Manufacturing techniques,
design loads, analysis and design principles. Prestressed concrete
pavements, slab and wall panels.
7
Course Outcomes
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Pre-stressed Concrete N. Krishna Raju Tata McGraw Hill
Publishing Company,
New Delhi 2016
2 Design of pre-stressed concrete
structures T.Y. Lin and Ned H.
Burns
John Wiley & Sons,
New York.2015
Course outcome
Descriptions
CO1 understand the concept of anchorage zone stresses in post-tensioned
members and shear and Torsional resistance.
CO2 Anslyse PSC member intension and compression.
CO3 Analyse Statically Indeterminate PSC Structures.
CO4 Design of slab and grid floors and precast elements.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Prestressed Concrete Structures P. Dayarathnam Oxford & IBH-Pubs
Company, Delhi, 5th
Edition 2016
2 Pre - stressed Concrete Pundit G S and
Gupta S P
C B S Publishers,
New Delhi 4th
edition
2017
3 IS : 1343 Indian standard 2012
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Advanced Foundation Design Subject Code: CE8PE312 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Bearing Capacity & Settlement: Introduction to bearing capacity and
settlement, Factors affecting bearing capacity. Numerical problems on bearing
capacity of soils. Types and modes of settlement. Computation of settlement
for cohesion and cohesionless soils.
8
II
Shallow Foundations: Principles of Design of foundation, Requirements for
geotechnical and structural aspects of design, Proportioning of Isolated
footing, Combined Footing, Strap footing, Strip footing and Raft foundation. 8
III
Pile Foundation: Necessity of pile foundations, Classification, Load carrying
capacity of piles by Static formula in cohesive and cohesionless soils. Pile
groups, group action of piles in sand and clay, group efficiency of piles and
negative skin friction. Numerical problems on above.
8
IV Well Foundations: Introduction, Classification of well foundation, 8
Sl. No Course Objectives
1
Gain knowledge of about advanced topics of foundation
design and analyses.
2
Develop profound understanding of shallow and deep
foundation analysis.
3
Develop understanding of choice of foundation design
parameters.
4
Learn about cause and effect of dynamic loads on
foundation.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Components of well foundation. Forces acting on well foundation, Sinking of
wells, Causes and remedies for tilts and shifts. Drilled Piers and Caissons-
Construction, advantages and disadvantages of drilled piers. Design concepts
and Advantages and disadvantages of open, pneumatic and floating caissons.
V
Foundations on Expansive Soils: Definition, Identification, Mineral
Structure, Index properties of expansive soils, Swell potential and Swell
pressure, Free swell Tests on expansive soils, foundation treatment for
structures in expansive soil, CNS layer.
7
Course Outcomes
Text Books:
Sl No Text Book title Author Volume and Year of Edition
1 “Pile Foundation Design And
Construction”, CBS Publishers Satyendra Mittal 2
nd Edition, 2019
2
“Soil Mechanics And Foundation
Engineering”, CBS Publishers And
Distributors, New Delhi
V N S Murthy 9th
Edition, 2020
Course outcome
Descriptions
CO1 Student understands the desirable characteristics of pavements, its types,
functions of various layer and fundamentals of design of pavements.
CO2 The student learns various pavement design factors, stresses in flexible
pavements and their design methods.
CO3 Students able to learn about various types of stresses in rigid pavements
and its determination, stresses in reinforcement.
CO4 The students able to learn to design the rigid pavements, joints, types of
joints and design of dowel bars and tie bars and The students are able to
learn flexible pavement failures and rigid pavement failures and their
maintenance and evaluation
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Reference Books:
Sl No Text Book title Author Volume and Year of Edition
1
“Pile Foundations In Engineering”,
Wiley Inter-Science Publications, New
York
Shamsher Prakash
And Hari D Sharma 4
th Edition, 2018
2
“Pile Design And Construction
Practice”, Scitus Academics Publishers Rajashekar Patil, 4
th Edition, 2016
3
“Pile Design, Construction And
Practice”, Taylor And Francis
Publications, New York
Michael Tomlinson
And John Woodward 6
th Edition, 2014
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Pavement Design
Subject Code: CE8PE313 L-T-P-C: 3-0-0-3
Course Objectives :
UNIT Description Hours I Introduction: Desirable characteristics of pavement, types and components,
Difference between Highway pavement and Air field pavement Design
strategies of variables. Functions of sub-grade, sub base, surface course,
comparison between Rigid and flexible pavement.
Fundamentals of Design of Pavements: Design life Traffic factors climatic
factors Road geometry Subgrade strength and drainage, Stresses and
deflections, Boussinesqs theory principle, Assumptions Limitations and
problems on above - Busmister theory Two layered analysis Assumptions
problems on above.
8
II Design Factors: Design wheel load contact pressure ESWL concept
Determination of ESWL by equivalent deflection criteria Stress criteria EWL
concept.
Flexible Pavement Design: Assumptions McLeod Method Kansas method
Tri-axial method - CBR method IRC Method (old) - CSA Method using IRC
37-2001, problems on above.
8
III Stresses in Rigid Pavement: Principle Factors-wheel load and its repetition
properties of sub grade properties of plain cement concrete. External
conditions joints Reinforcement Analysis of stresses Assumptions
Westergaard's Analysis Modified Westergaard equations Critical stresses
Wheel load stresses, Warping stress Frictional stress combined stresses (using
chart / equations) - problems on above.
8
Sl.No Course Objectives
1 This course will enable students to learn the basics of pavements,
and difference between Highway and airfield pavement.
2 This course will enable students in Design of flexible and rigid
pavements
3 This course will enable students in Maintenance and evaluation of
flexible and rigid pavements
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
IV Design of Rigid Pavement: Design of C.C. Pavement by IRC: 57-2002 for
dual and Tandem axle load Reinforcement in pavements Requirements of
joints Types of joints Expansion joint contraction joint warping joint
construction joint longitudinal joint, Design of joints, Design of Dowel bars,
Design of Tie bars and problems on above
Flexible pavement failures, maintenance and evaluation:
Types of failures, causes, remedial/maintenance measures in flexible
pavements Functional Evaluation by visual inspection and unevenness
measurement by using different technics - Structural Evaluation by Benkelman
Beam Deflection Method.
8
V Rigid Pavement Failures, Maintenance And Evaluation:
Types of failures, causes, remedial/maintenance, measures in rigid pavements
Functional Evaluation by visual inspection and unevenness measurements.
7
Course Outcomes
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Highway Engineering
2. - 3. - 4. Relavent IRC codes
Khanna & Justo
Khanna Publishers.
2 Principles & Practices of Highway
Engineering
L R Kadiyalli & N B.
Lal
Nem chand
Course outcome
Descriptions
CO1 Student understands the desirable characteristics of pavements, its types,
functions of various layer and fundamentals of design of pavements.
CO2 The student learns various pavement design factors, stresses in flexible
pavements and their design methods.
CO3 Students able to learn about various types of stresses in rigid pavements
and its determination, stresses in reinforcement.
CO4 The students able to learn to design the rigid pavements, joints, types of
joints and design of dowel bars and tie bars and The students are able to
learn flexible pavement failures and rigid pavement failures and their
maintenance and evaluation
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Principles of Pavement Design Yoder and Witzack -
2nd
edition
John Wileys and
Sons
2 Highway Engineering Dr.Sharma S.Chand
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Earthquake Resistant Design of Structures Subject Code: CE8PE314 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Engineering Seismology: Terminologies-Focus, Focal depth, Epicenter,
Causes of Earthquakes; Elastic rebound theory and Theory of plate tectonics;
Classification of Earthquakes; Types and characteristics of seismic waves;
Magnitude and intensity of earthquakes, Earthquake ground motion
characteristics: Amplitude, frequency and duration; Seismic zoning map of
India.
8
II
Seismic Performance of Buildings: Structural configuration for earthquake
resistant design, Overall Form, Simplicity, Uniformity, and Symmetry. Effect
of Structural Irregularities on seismic performance of RC buildings. Vertical
irregularity, Plan irregularity; mass irregularity; stiffness irregularity.
Architectural aspects of earthquake resistant buildings. Seismo-resistant
building architecture lateral load resistant systems and building characteristics.
8
Sl. No Course Objectives
1 Fundamentals of engineering seismology and seismic performance of buildings.
2 Irregularities in building which are detrimental to its earthquake performance.
3 Different methods of computing the seismic lateral forces for framed and masonry
structures.
4 The requirements of Earthquake resistant design for RCC and Masonry structures.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
III
Design philosophy and Earthquake Effects on Structures: Seismic design
philosophy, Response spectrum-Definition, construction, Characteristics and
application; Elastic design spectrum. Response to ground acceleration,
torsional response of buildings. Determination of Design Lateral Forces:
Procedure for seismic analysis of RC buildings using Equivalent static lateral
force method as per IS 1893:2016.
8
IV
Seismic analysis and ductile detailing: Reinforced Concrete Beams, Seismic
Design of Ductile Reinforced Concrete column, Concept of weak beam-strong
column, Detailing of Beam-Column Joints to enhance ductility, Ductile
Detailing as per IS 13920:2016, Concept of soft and weak storey.
Geotechnical Earthquake Engineering: Geotechnical failure of foundations
during earthquake, Earthquake Resistant design of Shallow foundation,
Liquefaction and Remedial measures.
8
V
Earthquake Resistant Design of Masonry Buildings: Performance of
Unreinforced, Infill Masonry Walls, Box Action, Lintel and sill Bands.
Earthquake resistant design of masonry buildings-elastic properties of
structural masonry, lateral load analysis of masonry buildings as per IS
13827:1993. Base Isolation: Introduction, concept of base isolation, types of
base isolation system-Elastomeric Base Isolation Systems, Sliding Base
Isolation Systems. Earthquake response of and base isolated buildings.
7
Course outcome
Descriptions
CO1 To understand the concept of earthquake and its occurrence.
CO2 To understand the seismic performance of buildings during earthquake and design
philosophy involved.
CO3
To know the concept of ductile detailing and liquefaction analysis of foundations
soil.
CO4 To ascertain the performance of masonry structures and response of buildings
facilitated with base isolation system during earthquake.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Text Books:
Sl No Text Book title Author Volume and Year
of Edition
1 “Earthquake Resistant Design of
Structures”, Oxford University Press S K Duggal 6
th Edition, 2013
2
“Earthquake resistant design of
structures”, Prentice Hall of India, New
Delhi
Pankaj Agarwal and
Manish Shrikande 6
th Edition, 2011
Reference Books:
Sl No Text Book title Author Volume and Year
of Edition
1
“Dynamics of Structures: Theory and
Applications to Earthquake
Engineering”, John Wiley & Sons
Anil K Chopra 4rd Edition, 2011
2
“Seismic Analysis of Structures”, John
Wiley & Sons T K Datta 4
rd Edition, 2011
IS Codes
4 IS 1893:2016, Indian Standard Criteria for Earthquake Resistant Design of Structures
5
IS 13920:2016, Ductile Detailing of Reinforced Concrete Structures Subjected to
Seismic Forces
6
IS13828:1993, Indian Standard Guidelines for Improving Earthquake Resistance of
Low Strength Masonry Buildings
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Industrial wastewater treatment Subject Code: CE8PE315 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Introduction: Difference between Domestic and Industrial Wastewater, Effect
on Streams and on Municipal Sewage Treatment Plants. Stream Sampling,
effluent and stream Standards and Legislation to Control Water Pollution.
Dissolved oxygen Sag Curve in Stream.
8
II
Treatment Methods: Volume Reduction, Strength Reduction, Neutralization,
Equalization and Proportioning. Removal of Inorganic suspended solids,
Removal of Organic Solids, Removal of suspended solids and colloids.
Disposal of Sludge Solids.
8
III
Combined Treatment: Feasibility of combined Treatment of Industrial Raw
Waste with Domestic Waste, Discharge of Raw, Partially Treated and
completely treated Wastes to Streams.
8
IV
Treatment process: Flow sheet showing origin / sources of waste water,
characteristics of waste, alternative treatment methods, disposal, reuse and
recovery along with flow sheet. Effect of waste disposal on water bodies.
8
Sl. No Course Objectives
1 To understand the current environmental issues on effect of industrial wastewater on
water bodies and wastewater treatment plants.
2 To understand the various techniques of industrial wastewater treatment methods.
3 To study the Manufacturing processes, waste water characteristics and treatment
methods of various industries.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
V
Treatment of Selected Industrial Waste: Manufacturing process, waste
water characteristics, treatment and disposal of waste water of following
industries: Dairy, distillery, sugar, textile, paper and pulp, pharmaceutical,
fertilizer.
7
Text Books:
Sl No Text Book title Author Volume and Year
of Edition
1 Industrial Waste Water Treatment Nelsol L. Nemerow.
2 Industrial Waste Water Treatment Rao MN, and Dutta
A.K.
Reference Books:
Sl No Text Book title Author Volume and Year
of Edition
1 “Industrial Wastewater Treatment” Patwardhan A.D.
PHI Learning Private
Ltd., New Delhi,
2009
2 Waste Water Treatment, Disposal and
Reuse Metcalf and Eddy
Tata McGraw Hill
Publications, 2003.
Course outcome
Descriptions
CO1
The students are instructed to know the difference between domestic and industrial
waste water characteristics, disposal standards, importance of dissolved oxygen, O2
sagcurve, streeter phelps equation.
CO2 Students are imparted with knowledge of treatment with volume, strength,
neutralization equalization and proportioning concepts.
CO3 Enable students to use specific method of treatment for cotton, tannery, distillery, papers
pulp, pharmaceutical and food processing industries.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: QUALITY MANAGEMENT SYSTEM IN CIVIL ENGINEERING
Subject Code: CE8PE316 L-T-P-C: 3-0-0-3
Course Objectives:
UNIT Description Hours
I
Quality Management System - QMS: Introduction Evolution of Quality
Management System, Element of Quality, Quality Management System,
Concept of Process, Network of Process in an organization, ISO 9000 Family,
Applying ISO 9000 in practice, Importance of ISO 9000, Benefits of ISO
standards of society, Total Quality Management, Comparison of ISO 9000 and
TQM Quality related definitions Leaders in Quality or Quality Gurus
Customer Orientation Mahatma Gandhi.
Implementing ISO 9001-2000 Quality Management System:
ISO 9000 Quality Management Principles, ISO 9000 Documents Content of
ISO 9001:2000, ISO 9001-2000 Quality Management System
Requirements, General Requirements, Documentation Requirements,
Management Responsibilities, Resource Management, Product
Realization, Measurement, analysis and Improvement Monitoring and
Measurement, Non-conforming Product, Analysis of data, Improvement,
Implementing ISO 9001-2000 Quality Management System.
8
II
Preparing a ISO 9001-200 Quality Management System For Civil
Engineering: Quality Manual, Introduction, Scope of the Quality Manual,
Applicability, Responsibility, Quality Management System, General
Requirements, Management Responsibilities, Management Commitment,
Customer Focus, Indian Construction Company Quality Policy, Planning
Responsibility, Authority and Communication, Management Review,
Resource Management, Provision of Resources, Human Resources Product
Realization, Planning or Product Realization, Customer Related Processes,
Design and Development, Purchasing, Production and Service Provision,
Control of Monitoring and Measuring Devices Measurement, analysis and
Improvement, Monitoring and Measurement, Non-conforming product,
Analysis of data, Improvement.
8
Sl.No Course Objectives
1 To understand the basic concepts in quality management systems for civil engineering
2
To understand the procedures and preparing a iso 9001-200 quality management
system for civil engineering
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
III
Quality Management System Procedures: Introduction, procedure for
management review, Format for writing procedures, procedure for
preparing Quality plans/ work instructions, Contract review, Design control,
Document and data control, Document numbering system, Change request,
procedure for purchasing, procedure for control of
customer supplied product, procedure for product identification and
traceability, procedure for process control, procedure for inspection and
testing, procedure for control of inspection, measuring and test equipments,
procedure for inspection and test status, procedure for the control of non-
conforming product, procedure for corrective and preventive action,
procedure for handling, storage, packaging and delivery, control of quality
records, procedure for internal quality audits.
8
IV
Work Instructions: Introduction Document and Data Control, Material
Procurement, Material Handling, Tendering and Estimating, Planning,
Design, Training, Plant and Equipment, Bar Bending Schedule, Concrete
Works, Earthworks and Compaction, General Soil Investigation works,
Survey works, Concrete Repair Works, Road Works, Painting Works, Water
Proofing works, Drainage Works, Quality Assurance and Control, Patching
and Transportation of Concrete.
Method Statement: Introduction, Concrete Works, Earthworks and
Compaction, General Soil Investigation works, Survey works, Concrete Repair
works, Concrete Demolition works, Road Works, Fencing works etc.
8
v
Job Description: Introduction, Job Description of : Managing Director,
Project Manager, Site Manager, Site Engineer, QA/QC Engineer, Foreman,
Typist/Clerk, Design Engineer, Planning Engineer.
2. Quality Control Plan/Inspection and Test Plans (ITPS):
Introduction-Preparation of Project Quality Plans, Inspection and Test plant.
Quality Record/Formats: Preparation of Standard Formats: Revision Control
form, Document Distribution List, Document Master List, Non-
Conformance Report, Store Issue/Receipt Voucher, Local Purchase Order,
Material Stock Card, Audit Notification, Quality Audit Report, Corrective
Action Report, Calibration Record, Calibration Master Sheet, Work
Instruction, Job Description, Contract/Tender Review Form, Quantity Survey
Estimation/Take off sheet, Material/Plant Requisition, Drawing Schedule, Bar-
bending Schedule, Design Calculation Sheet, Request for Inspection, Concrete
Inspection Request, Inspection Check List Drainage, Painting, Request for
Inspection-Concrete Repair, Accident Report Form, Concrete Production,
Concrete Compressive Strength Test Results, Request to Conduct Cube
Test, Quality Awareness Training Record.
7
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Course Outcomes
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Quality Management System in Civil
Engineering D.S. Rajendra Prasad ISO 9001- 2000
2 Productivity and Quality Improvement John L. Hardesky McGraw Hill Book
Company
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Training Manual Girdhar J. Gyani ISO 9000-2000
2 Concepts, Methods, Implementation Bagchi ISO 9000
3 Documenting Quality for IS9000 and
other Industry Standards
Gary E. MacLean Tata McGraw Hill
Publishing Company
Limited
4 Total Quality Management for
Engineers
Mohamed Zair Aditya Books Private
Limited
Course outcome
Descriptions
CO1 To understand the basic concepts in Quality Management System in civil
engineering
CO2 To Prepare an ISO 9001-200 Quality Management System For Civil
Engineering
CO3 To understand the Quality Management System Procedures
CO4 To prepare quality control planning &Quality Record/Formats
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: FINITE ELEMENT ANALYSIS
Subject Code: CE8PE421 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Introduction: Basic Concepts, Background Review: Theory Of Elasticity,
Matrix Displacement Formulation, Energy Concepts, Equilibrium And Energy
Methods For Analyzing Structures. Raleigh - Ritz Method, Galerkin's Method,
Simple Applications in Structural Analysis.
08
II
Fundamentals Of Finite Element Method: Displacement Function And
Natural Coordinates, Construction Of Displacement Functions For 2 D Truss
And Beam Elements. Applications Of FEM For The Analysis Of Plane Truss,
Continuous Beam And Simple Plane Frame Problems.
08
III
Analysis Of 2d Continuum Problems: Elements And Shape Functions,
Triangular, Rectangular And Quadrilateral Elements, Different Types Of
Elements, Their Characteristics And Suitability For Application.
08
IV Polynomial Shape Functions, Lagrange‟s And Hermitian Polynomials,
Compatibility And Convergence Requirements Of Shape Functions.
08
V
Theory Of Isoperimetric Elements: Isoperimetric, Sub parametric And
Super- Parametric Elements, Characteristics of Isoperimetric Quadrilateral
Elements.
Fem Program: Structure of Computer Program for FEM Analysis,
Description of Different Modules, Pre and Post Processing.
07
Sl. No Course Objectives
1 Develop Analytical Skills, Learn Principles Of Analysis Of Stress And Strain
2 Develop Problem Solving Skills, And
3 Understand The Principles Of FEM For One Dimensional Problem.
4 Understand The Principles Of FEM For Two Dimensional Problems.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Course Outcomes:
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Finite Element Analysis Theory and
Programming
Krishnamoorthy 2nd Edition-2014
2 Finite Element Analysis for
Engineering and Technology
Chadrupatla and
Tirupathi R
2nd Edition-2004
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 A First Course on Finite Element
Method
Daryl L Logan 5th Edition - 2012
2 The Finite Element Method Zienkeiwicz. O.C 7th Edition-2013
3 Finite Element Analysis S.S. Bhavikatti, 3rd Edition-2015
4 Finite element analysis in engineering
design
Rajasekharan. S. 1st Edition-2006
Course outcome
Descriptions
CO1 To Understand the Basic Matrix Displacement Formulation and Fundamentals of
Finite Element Method
CO2 To Analyze Continuum Problems In 2D
CO3 To Understand Lagrange and Hermatian Polynomials
CO4 To Have Knowledge of Computer Programmes for FEM Analysis
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Reinforced Earth Structures
Subject Code: CE8PE422 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Basics Of Reinforced Earth Construction: Definition, Historical
Background, Components, Mechanism and Concept, Advantages and
Disadvantage of reinforced earth Construction, Sandwich technique for clayey
soil. Geosynthetics and Their Functions: Historical developments, Recent
developments-manufacturing process-woven & non-woven, Raw materials,
polypropylene, Polyethylene, Polyester, Polyvinyl chloride, Elastomers,
Classification based on materials type, Metallic and Non-metallic, Natural and
Man-made, Geosynthetics- Geotextiles, Geogrids, Geomembranes,
Geocomposites, Geonets, Geofoam, Geomats, Geomeshes, Geowebs etc.
8
II
Properties and Tests On Materials: Properties-Physical, Chemical,
Mechanical, Hydraulic, Endurance and Degradation requirements, Testing &
Evaluation of properties. Design of Reinforced Earth Retaining Walls:
Concept of Reinforced earth retaining wall, Internal and external stability,
Selection of materials, typical design problems.
8
III
Design Of Reinforced Earth Foundations & Embankments: Foundations-
Modes of failure of foundation, Determination of force induced in
reinforcement ties, Location of failure surface, tension failure and pull out
8
Sl. No Course Objectives
1 To create an understanding of the latest technique such as reinforcing the soil.
2 Analyze the concept of RE so as to ascertain stability of RE structures.
3 Understand the different reinforcing materials that can be used efficiently in soils.
4
Understand design concepts of different RE structures including introductory
concepts of Foundations resting of
RE soil bed.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
resistance, length of tie and its curtailment, Bearing capacity
improvement in soft soils, General guidelines. Embankments-Concept of
Reinforced Embankments, Internal and external stability, Selection of
materials, Typical design problems.
IV
Soil Nailing Techniques: Concept, Advantages & limitations of soil nailing
techniques, comparison of soil nailing with reinforced soil, methods of
soil nailing, Construction sequence, Components of system, Design aspects
and precautions to be taken. Geosynthetics-Filter, Drain and Landfills:
Filter & Drain Conventional granular filter design criteria, Geosynthetic filter
design requirements, Drain and filter properties, Design criteria soil retention,
Geosynthetic permeability, anti-clogging, survivability and durability.
Landfills, typical design of Landfills, Landfill liner & cover, EPA Guidelines,
Barrier walls for existing landfills and abandoned dumps.
8
V
Geosynthetics for Roads and Slopes: Roads-Applications to Temporary and
Permanent roads, Role of Geosynthetic in enhancing properties of road,
control of mud pumping, Enhancing properties of subgrade, Design
requirements, Slopes-Causes for slope failure, Improvement of slope stability
with Geosynthetic, Drainage requirements, Construction technique.
7
Course outcome
Descriptions
CO1 To understand the mechanism of reinforced earth structures and to know
the properties and tests on earthen materials.
CO2 To learn the design of reinforced earth foundations.
CO3
To understand the principle of soil nailing technique and landfills.
CO4
To impart the knowledge of utilization of geosynthetics in the design of
roads and slopes
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Text Books:
Sl No Text Book title Author Volume and Year of Edition
1
“Geosynthetic Reinforced Soil walls”,
Wiley Blackwell publishers Jonathan T H 1st Edition, 2019
2
“Reinforced soil and its engineering
applications”, I K International
Publishing House, New Delhi
Swami saran Volume 2, 3
rd
Edition, 2018
Reference Books:
Sl No Text Book title Author Volume and Year of Edition
1
“An introduction to geosynthetic
engineering”, Taylor and Francis
publishers
S K Shukla 1st Edition, 2016
2
“An introduction to soil reinforcement
and geosynthetics”, McGraw Hill
Publications
Siva Kumar Babu G
L 4th Edition, 2014
3
“Designing with geosynthetics”,
Pearson prentice Hall, USA Robert M Koerner
Volume 1, 6th Edition, 2012
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Urban Transport Planning
Subject Code: CE8PE423 L-T-P-C: 3-0-0-3
Course Objectives :
UNIT Description Hours I Introduction: Scope of Urban transport planning Inter dependency of land
use and traffic System Approach to urban planning.
Stages In Urban Transport Planning: Trip generation Trip production -
Trip distribution Modal split Trip assignment.
8
II Urban Transport Survey - Definition of study area-Zoning-Types of Surveys
Inventory of transportation facilities Expansion of data from sample.
TRIP GENERATION: Trip purpose Factors governing trip generation and
attraction Category analysis Problems on above
8
III TRIP DISTRIBUTION: Methods Growth factors methods Synthetic
methods Fractor and Furness method and problems on the above.
MODAL SPLIT: Factors affecting characteristics of split Model split in
urban transport planning problems on above
8
IV TRIP ASSIGNMENT: Assignment Techniques Traffic fore casting Land use
transport models Lowry Model Garin Lowry model Applications in India
(No problems on the above)
8
V Urban Transport Planning For Small And Medium Cities: Introduction
Difficulties in transport planning Recent Case Studies.
7
Sl.No Course Objectives
1 Basics of Urban Transportation
2 Survey of urban transportation and trip generation
3 Trip distribution and assignment
4 Urban Transport Planning For Small And Medium Cities
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Course Outcomes
Text Books:
Sl
No
Text Book title Author Volume and Year
of Edition
1 Traffic Engineering and Transport
Planning
L.R. Kadiyali Khanna Publishers.
2 Principles of urban transport system
planning
B.G. Hutchinson Scripta Book Co.,
Washington D.C. &
McGraw Hill Book
Co.
Reference Book:
Sl
No
Text Book title Author Volume and Year
of Edition
1 Urban Transport planning
Black John - Croom Helm ltd, London.
2 Introduction to transportation
engineering
Jotin Kristey and
Kentlal
PHI, New Delhi.
3 Urban and Regional models in
geography and planning-
Hutchison B G John Wiley and sons
London.
4 Entropy in urban and regional modeling Wilson A G Pion ltd, London.
Course outcome
Descriptions
CO1 Students will gain the knowledge about the scope of urban transport
planning land usage, trip generation, production and distribution.
CO2 Students will be able to do urban transport survey in which they
understand types of survey inventory of transportation facilities and
expansion of data from sample.
CO3 Students will gain knowledge about trip generation distribution and
assignments.
CO4 They will learn to make urban transport planning for small and medium
cities.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: ADVANCED DESIGN OF STEEL STRUCTURES
Subject Code: CE8PE424 L-T-P-C: 3-0-0-3
Course Objectives
UNIT Description Hours
I
INTRODUCTION: Basic principles of design, stress strain relationship for
mild steel, shape factors for different cross sections. Evaluation of full plastic
moment for mild steel beams, plastic hinges - Fixed, simply supported
beams, effect of partial fixity, rectangular portal frames and gable frames.
Statement of theorems with examples, application of principles of virtual
work, partial and over collapse. Trial error method. Method of combined
mechanisms, plastic moment distribution method and other methods of
determining plastic collapse load. Estimation of deflection, factors affecting
fully plastic moment.
08
II
Minimum weight theories. Application of theorems and methods of solution.
Plastic analysis applied to the design of fixed and continuous beams, portal and
gable frames. Design of Built-up beams.Design of encased beams.
08
III Design of open web structures - Advantages and design methods 08
Sl.No Course Objectives
1 Understand advantages and disadvantages of steel structures, steel code provisions,
and plastic behavior of structural steel.
2 Learn Bolted connections and Welded connections
3 Design of tension and compression members, simple slab base and gusseted base
4 Design of laterally supported and un-supported steel beams.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
IV
Small moment resistant connections, large moment resistant
connections, semi-rigid and behavior of semi-rigid connections,
Beam line method, modified slope deflection method, modified
moment distribution method. Principal axes of section, maximum stress
due to unsymmetrical bending, the Z-polygon, deflection of beams under
unsymmetrical bending, design of purlins subjected to unsymmetrical
bending.
08
V
Tubular structures Introduction, permissible stresses, tubular columns and
compression members, tubular tension members. Design of
tubularmembers roof truss for given member forces and their combination,
joints in tubular trusses, design of tubular beams and purlins.
07
Course Outcomes
Text Books:
Sl No Text Book title Author Volume and Year of Edition
1 Design of Steel Structures By Limit
State Method S. S. Bhavikatti Second Edition, I K
International Publishing
House, India, 2010
2 Design of Steel Structures N. Subramanyam
Oxford University
Press, New Delhi, india,
2016. Third Edition
Course
outcome
Descriptions
CO1 To analyse the Basic concept of stress strain and plastic analysis in steel beams
CO2 Course gives the details how to design open web steel structures using
connections.
CO3 Course gives an idea to design moment resistant structures using steel sections.
CO4 Course gives and idea to design steel tubular sections
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Reference Book:
Sl No Text Book title Author Volume and Year of Edition
1 Design of steel structures Dr N.Rama Chandra
and Virendra Gehlot,
Scientific Publishers,
india , 2009
2 Design of Steel Structures Dr N.Ramachandra. Vol 2 standarad book
house new Delhi
3 Design of Steel Structures P. Dayarathnam Prentice Hall India,
New Delhi, india, 2011
4 IS800-2007, & Steel tables Bureau of Indian
Standards,
General Construction in
Steel Code Practice 3rd
edition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: WATER RESOURCES ENGINEERING
Subject Code: CE8PE425 L-T-P-C: 3-0-0-3
Course Objectives
UNIT Description Hours
I
Introduction: Surface runoff IDF relationship, synthetic design storm
(triangular balanced (nested), temporal distribution or alternate block method,
NRCS method)
8
II
Separating precipitation into abstraction and runoff NRCS curve number
method (SCS curve number method) derivation and problems, composite
curve number, NRCS method for dry and wet antecedent moisture
conditions.
8
III
Introduction to Water Resource systems Fundamentals of Linear Programming
simple problems. Linear programming applying to water resources, graphical
solution method
8
IV
Economics and Flood control Economics of water resource single payment
present worth, single payment compound amount series present worth, capital
recovery, series compound amount sinking fund derivation and simple
problems.
8
V
Urban Storm water management Low water crossing structure, storm water
collection systems, derivation of kinematic wave overland flow travel time,
time of concentration problem. Flow through street gutters, simple design of
street gutter, drain inlets simple problems on gutter flow and drain inlets.
7
Sl. No.
Course Objectives
1 To make student understand the advanced concepts in water resources
currently in use and new developments.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Course Outcomes
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1
Water resources engineering:
Ralph A Wurbs,
Wesley P. James,
PHI
Learningpvt.Ltd.New
Delhi (2009 Ed.).
2 Engineering Hydrology K Subramanya Mc. Graw Hill
Education (India) Pvt.
Ltd.
Reference Book:
Sl No Text Book title Author Volume and Year of Edition
1
1. Modern Water Resources
Engineering,
Wang Lawrence K,
Yang Chih Ted,
ISBN: 978-1-62703-
595-8 Springer. 2019
2 Industrial Water Resources
Management Challenges and
Opportunities. Corporate Water
Stewardship,
Blackwell Pradip K
Sen Gupta.
Wiley ISBN: 978-1-
119-27250-2 2019 Ed
3 Elementary Hydrology V P Singh PHI India 1994 Ed
4 Water Management A S Patel and D L Shah
New Age 2016 Ed
Course
outcome
Descriptions
CO1
is equipped with knowledge of water management , economics, flood routing,
hydrologic frequency analysis;
CO2
Is able to understand principles of Modelling of water shed hydrology, water
resources systems analysis including optimization.
CO3
Able to meet the problems of urban flooding by urban water storm water
management
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Syllabus for the Academic Year 2020 - 2021
Department: Civil Engineering Semester: VIII
Subject Name: Environmental Impact Assessment Subject Code: CE8PE426 L-T-P-C: 3-0-0-3
UNIT Description Hours
I
Development Activity and Ecological Factors of EIA, Rapid and
Comprehensive EIA, EIS, FONSI. Need for EIA Studies, Baseline
Information, brief procedures for conducting EIA, Limitations of EIA.
Objectives and Scope, Contents of EIA, Methodologies.
8
II
Frame work of Impact Assessment. Development Projects-Environmental
Setting, Techniques of EIA. Assessment and Prediction of Impacts on
Attributes Air, Water, Noise, Land Ecology, Soil.
8
III
EIA guidelines for Development Projects, Public Participation in
Environmental Decision making. Practical Considerations in preparing
Environmental Impact Assessment and Statements.
8
IV
Salient Features of the Project Activity-Environmental Parameter Activity
Relationships- Matrices. Cultural and Socio-economic Environment.
8
Sl. No Course Objectives
1 This course will enable students to study and apply-environmental impact
assessment- for various developmental projects.
2 This course will enable students to understand-public participation in environmental
decision making. Practical considerations in preparing environmental impact assessment
and statements.
3 This course will enable students to understand salient features of the project activity,
environmental parameter, activity relationships matrices. Eia for various industrial
projects.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
V
EIA for Water resource developmental projects, Highway projects: Nuclear-
Power plant projects, Mining project (Coal, Iron Ore), Thermal Power Plant,
Infrastructure Construction Activities.
7
Text Books:
Sl No Text Book title Author Volume and Year
of Edition
1 “Environmental Impact Assessment” John
Willey Munn RE 2005
2 Environmental Impact Assessment
McGraw Hill Canter L 2007
Reference Books:
Sl No Text Book title Author Volume and Year
of Edition
1 “Water & Waste Water Technology” Mark.J Hammer, John
Wiley & Sons Inc. New York,2008.
2 Environmental Impact Analysis Jain R.K
McGraw Hill. New
York,2015
Course
outcome Descriptions
CO1 The students know about the impacts of different human activity on
environment.
CO2
The students have understanding of different steps and statements used in
E.I.A procedure.
CO3 The students able to explain strategy of different E.I.A methodology.
CO4
The students able to make out the different effects of major activities like,
highway, mining, nuclear and other projects and decide about the control
measures
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Subject Name: Project work phase II
Subject Code: CE8PW02 L-T-P-C: 0-0-20-10
Course Objectives
UNIT Description
I
The continuation of main Project Work IIA will be IIB with the subject code
CE8PW02 of 10 credits in 8th Semester. The internal evaluation is based on the
Departmental Evaluation Committee, which consists of HOD, Civil Dept., as a
chairman and three senior faculty members of the department as members. The end
term practical examination for the project work will be assessed for 100 marks by
both internal and external examiners.
Course Outcomes
Sl.
No.
Course Objectives
1. To impart skills to work in teams
2. To apply the acquired theoretical knowledge for solving practical problems.
3. To develop report preparation and presentation skills.
Course
outcome
Descriptions
CO1 Team spirit is cultivated and leadership qualities are acquired
CO2 Analyzing the result and concluding remarks are carried out.
CO3 Able to analyze, design and implement solutions for practical problems.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Civil Engineering Department
Subject Name: Technical Seminar
Subject Code: CE8TS01 L-T-P-C: 0-0-0-1
Guidelines for preparing Technical Seminar
1. Selection of topic/area: Select a paper according to the specialization of students. Papers from any other approved
journals can also be selected.
2. Approval to the selected topic: After selecting the paper, get approval from the concerned faculty in charge.
3. Study of topic: Students are requested to acquire a thorough knowledge on the subject by referring back papers
and reference books (These may be included as references at the end of the paper) on the
corresponding area.
4. Seminar: Final seminar should be presented by the students through slides.
Course Outcomes
Course
outcome
Descriptions
CO1
Survey the changes in the technologies relevant to the topic selected
CO2
Discuss the technology and interpret the impact on the society, environment
and domain
CO3
Compile report of the study and present to the audience
Recommended