Syllabus for the Academic Year 2019 - 2020 Sem B.E syllabus 2019-20.pdfCivil Engineering Department...

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)

Civil Engineering Department

Syllabus for the Academic Year 2019 - 2020

Department: Civil Engineering

Semester: VII

Sl.

No.

Course and

Course Code Course Title L T P S C

1 PC CE7T01 Environmental Engineering - II 4 0 0 0 4

2 PC CE7T02 Design of Steel Structures 4 0 0 0 4

3 PC CE7T03 Quantity Surveying & Estimation 4 0 0 0 4

4 PC CE7PE41X Program Elective-I 3 0 0 0 3

5 PC CE7PE52X Program Elective-II 3 0 0 0 3

6 PC CE7L01 Environmental Engineering Laboratory 0 0 3 0 1.5

7 PC CE7L02 Construction Technology Laboratory 0 0 3 0 1.5

8 PC CE7PW01 Project Work - II A 0 2 6 0 4

Total Contact Hours 18 2 12 0 25

Program Elective-I

CE7PE411 Matrix Method of Structural Analysis

CE7PE412 Advance Design of RC Structures

CE7PE413 Earth & Earth Retaining Structures

CE7PE414 Solid Waste Management

CE7PE415 Design of Prestressed Concrete Structures

CE7PE416 Essentials of Information Technology

Program Elective-II

CE7PE521 Numerical Methods in Civil Engineering

CE7PE522 Pavement Materials & Construction

CE7PE523 Remote Sensing& GIS

CE7PE524 Highway Geometric Design

CE7PE525 Structural Dynamics

CE7PE526 Air Pollution and Control



Subject Name: ENVIRONMENTAL ENGINEERING - II

Subject Code: CE7T01 L-T-P-C: 4-0-0-4

Course Objectives

Course Outcomes

Sl.No Course Objectives

1

This course enables the students to learn about the basic

concepts of sewage, sewerage and sanitary system sewer

material design and construction with idea of sewer

appurtenances and waste water characteristics and design

and develop treatment facilities.

Course outcome

Descriptions

CO1 The students know the various sources of sewage and study sanitary

systems

CO2

Consideration of different factors in estimating the storm water, sewage

water and design of sewerage system idea will be understood by the

students

CO3 Students know about the different UNIT operations and UNIT-processes

available for biological treatment of wastewater

CO4 The students can understand self purification studies of streams and rivers



UNIT Description Hours

I

Introduction: Necessity for sanitation, methods of domestic wastewater

disposal, types of sewerage systems and their suitability, Dry weather flow,

factors affecting Dry weather flow, flow variations and their, effects on design

of sewerage system; computation of design flow, estimation of storm flow,

rational method and empirical formulae of design of storm water drain. Time

of concentration

10

II

Design of Sewers: Hydraulic formulae for velocity, effects of flow

variations on velocity, self cleansing and non scouring velocities, Design of

hydraulic elements for circular sewers flowing full and flowing partially full

(No derivations).

Materials of Sewers: Sewer materials, shapes of sewers, laying of sewers,

joints and testing of sewers, ventilation and cleaning of sewers

10

III

Sewer Appurtenances: Catch basins, manholes, flushing tanks, oil and grease

traps, Drainage traps. Basic principles of house drainage. Typical layout plan

showing house drainage connections, maintenance of house drainage.

Wastewater Characterization:Sampling, significance, techniques and

frequency. Physical, Chemical and Biological characteristics, Aerobic and

Anaerobic activity, BOD and COD.Their significance & problems

10

IV

Disposal of Effluents:Disposal of Effluents by dilution, self-purification

phenomenon. Oxygen sag curve, Zones of purification, Sewage farming,

sewage sickness, Effluent Disposal standards for land, surface water & ocean.

Numerical Problems on Disposal of Effluents. Streeter Phelps equation.

Treatment of Wastewater: Flow diagram of municipal wastewater treatment

plant. Preliminary & Primary treatment: Screening, grit chambers, skimming

tanks, primary sedimentation tanks Design criteria & Design examples

10

V

Secondary Treatment: Suspended growth and fixed film bioprocess.

Trickling filter theory and operation, types and designs. Activated sludge

process- Principle and flow diagram, Modifications of ASP, F/M ratio. Design

of ASP. Anaerobic Sludge digestion, Sludge digestion tanks, Design of Sludge

drying beds. Low cost waste treatment method. Septic tank, Oxidation Pond

and Oxidation ditches. Reuse and recycle of wastewater

10

Question paper Pattern:

1. The question paper will have 5 units comprising of ten questions. Each full question carrying 20 marks.

2. There will be two full questions with a maximum of three subdivisions from each unit.

3. The students shall answer five full questions, selecting one full question from each unit.

4. If more than one question is answered in unit, best answer will be considered for the award of marks limiting one full question answer in each unit



Text Books:

Sl No

Text Book title Author Volume and Year of Edition

1 Water Technology

Hammer and

Hammer

2009

2 Environmental Engineering Howard S. Peavy,

Donald R. Rowe

George

Tchnobanoglous

McGraw Hill

International Edition

3 Environmental Engineering-2 B.C.Punmia, Ashok

Jain

2014

4 Sewage and Waste Disposal Engineering S.K.Garg 2010

Reference Book:

Sl No


1 Manual on Wastewater Treatment Ministry of Urban

Development, New

Delhi

2 Water and Wastewater Engineering Vol-

II

Fair, Geyer and Okun John Willey

Publishers, New

York

3 Waste Water Treatment, Disposal and

Reuse

Metcalf and Eddy inc

: Tata McGraw Hill

Publications



Subject Name: Design of Steel Structures

Subject Code: CE7T02 L-T-P-C: 4-0-0-4

Course Objectives

Course Outcomes

Note: Study of this course should be based on IS: 800-2007


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.

Course outcome

Descriptions

CO1 Course gives an analysis on the basic concept of steel structure and plastic

analysis

CO2 Course gives the details how to design steel structures using welded and

bolted connections

CO3 Course gives information to design tension members compression members

using steel sections

CO4 Course gives information to design steel columns, beams and column bases




I

INTRODUCTION: Advantages and Disadvantages of Steel structures,

Loads and Load combinations, Design considerations, Limit State Method

(LSM) of design, Codes, Specifications and section classification.(No

Problems)Introduction to tubular structures.

Plastic Behavior of Structural Steel: Introduction, Plastic theory, Plastic hinge

concept, Plastic collapse load, conditions of plastic analysis, Theorem of

Plastic collapse, Methods of Plastic analysis, Plastic analysis of

continuous beams

10

II

BOLTED CONNECTIONS: Introduction, Behavior of Bolted joints, Design

strength of ordinary Black Bolts, Design strength of High Strength Friction

Grip bolts (HSFG), Pin Connections, Moment resistant connections, Beam to

Beam connections, Beam and Column splices,

WELDED CONNECTIONS: Introduction, Welding process, Welding

electrodes, Advantages of Welding, Types and Properties of Welds, Types of

joints, Weld symbols, Weld specifications, Effective areas of welds, Design of

welds, Simple joints, Moment resistant connections, Continuous Beam to

Beam connections, Beam Column splices.

10

III

DESIGN OF TENSION MEMBERS: Introduction, Types of tension

members, Design of strands, Slenderness ratio, Behaviour of tension members,

Modes of failure, Factors affecting the strength of tension members, Angles

under tension, Other sections, Design of tension member, Lug angles, Splices,

10

IV

DESIGN OF COMPRESSION MEMBERS: Introduction, Failure modes,

Behaviour of compression members, Elastic buckling of slender

compression members, Sections used for compression members, Effective

length of compression members, Design of compression members, Built

up compression members.

10

V

DESIGN OF COLUMN BASES: Design of simple slab base and gusseted

base DESIGN OF BEAMS: Introduction, Beam types, , Lateral stability of

beams, factors affecting lateral stability, Behaviour of simple and built-up

beams in bending(without vertical stiffeners), Design strength of laterally

supported beams in Bending, Design strength of laterally unsupported beams,

Shear strength of steel beams, Maximum deflection.

10








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 Limit State Design of Steel

Structures S. K. Duggal, Tata McGraw Hill

Education Private

Limited, New Delhi,

India, 2015

3 Design of Steel Structures N. Subramanyam

Oxford University

Press, New Delhi, india,

2016. Third Edition

Reference Book:


1 Design of steel structures DrN.Rama Chandra

and VirendraGehlot,

Scientific Publishers,

india , 2009

2 Design of Steel Structures DrN.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



Subject Name: Quantity Surveying & Estimation

Subject Code: CE7TO3 L-T-P-C: 4-0-0-4

Course Objectives

Course Outcomes


1 This course will enable students to learn to Estimate the

quantities of work

2

This course will enable students to learn about different

rates analysis and develop the bill of quantities and arrive at

the Cost of civil engineering Projects

3 This course will enable students to ready for various

industries and Government jobs

Course outcome

Descriptions

CO1

Students are able to make estimates by approximate method and detailed

method for buildings and building components by center line method, long

wall and short wall method. Students are able to make estimates for RC

framed structures with flat and slopedroofs,and steel truss (flink and howe

trusses) man hole ,septic tank and RCC culvert

CO2 Students are able to write short notes on terms in departmental procedure,

rate analysis and specification

CO3 Students are able to make estimates for earth work in embankment and

cutting with or without lateral slopes.




I

Estimation: Study of various drawings with estimates, important terms,

UNITs of measurement, abstract Methods of taking out quantities and cost

center line method, long and short wall method or cross wall method.

Preparation of detailed and abstract estimates for the following Civil

Engineering works Buildings RCC framed structures, with flat, sloped RCC

roofs with all Building components.

18

II

Estimate: Different type of estimates, approximate methods of estimating

buildings, cost of materials. Estimation of wooden joineries such as doors,

windows & ventilators.

ESTIMATES: Steel truss (Fink and Howe truss), manhole and septic tanks,

RCC Culverts.

Specifications: Definition of specifications, objective of writing

specifications, essentials in specifications, general and detail specifications of

common item of works in buildings.

8

III

Rate Analysis: Definition and purpose. Working out quantities and rates for

the following standard items of works earth work in different types of soils,

cement concrete of different mixes, bricks and stone masonry, flooring,

plastering, RCC works, centering and form work for different RCC items,

wood and steel works for doors, windows and ventilators.

8

IV

Measurement of Earthwork For Roads: Methods for computation of

earthwork cross sections mid section formula and mean sectional area,

trapezoidal &prismoidal formula with and without cross slopes.

8

V

Contracts: Types of contract essentials of contract agreement legal aspects,

penal provisions on breach of contract. Definition of the terms Tender, earnest

money deposit, security deposit, tender forms, documents and types.

Acceptance of contract documents.Termination of contract, completion

certificate, quality control, right of contractor, refund of deposit.

Administrative approval and Technical sanction. Nominal muster roll,

measurement books procedure for recording and checking measurements

preparation of bills.

8




1. First question from first unit is compulsory for 40 marks 2. There will be two full questions from remaining each unit for 20 marks.

Text Books:

Sl No


1 Estimating & Costing, B. N. Dutta UBSPD Publishing House,

New Delhi22 edition

2 Estimating and Costing K H kholi and SS

Kholi

12 th Edition,

S.Chand Publishers,

2014

3 Estimating & Specification S.C. Rangwala Charotar Publishing

House Pvt. Ltd., 2015.

4 Estimating and Tendering for

Construction Work

Martin Brook, A Butterworth-

Heinemann

publishers, 2008

Reference Book:

Sl No


1 Estimating, costing, specification and

valuation in Civil Engg Chakraborti N

DhanpathRai and sons

New Delhi. 2014

2 Contracts and Estimates B. S. Patil University Press,

2006.

3 Estimating and costing Vazirani V.N and

Chandola S.P,

Khanna Publishers,

2015

Subject Name:Matrix Method of Structural Analysis



Subject Code: CE7PE411 L-T-P-C: 3-0-0-3

Course Objectives

Course Outcomes: After studying this course, students will be able to


1

This course will enable students to gain basic knowledge of structural systems

and application of concepts of flexibility and stiffness matrices for simple

elements

2 This course will enable students to gain knowledge of to solve problems on

beams, frames and trusses

3 This course will enable students to gain knowledge of direct stiffness method to

solve problems in beams, frames and Trusses

4 This course will enable students to gain knowledge of solving problems

involving temperature changes and lack of fit

Course outcome

Descriptions

CO1 Understand the basic concepts of structures required to analyze

CO2 Understand the energy concepts of structures

CO3 Apply the knowledge of flexibility and stiffness in analysis

CO4 Analyze the structures by using matrices




I

Introduction: Structural systems, geometric and material non-linearity,

principle of superposition, equilibrium and compatibility conditions, static and

kinematic indeterminacy, principle of minimum potential energy and

minimum complementary energy, concepts of stiffness and flexibility,

flexibility and stiffness matrices of beam and truss elements.

8

II

Element Flexibility Method: Force transformation matrix, global flexibility

matrix, analysis of continuous beams, rigid frames and trusses 8

III

Element Stiffness Method: Displacement transformation matrix, global

stiffness matrix, analysis of continuous beams, rigid frames and trusses. 8

IV

Effects of Temperature Changes and Lack of Fit: Related numerical

problems by flexibility and stiffness method as in Unit 2 and Unit 3. 8

V

Direct Stiffness Method: Local and global coordinates systems, principle of

contra gradience, global stiffness matrices of beam and analysis of continuous

beams

8






Text Books:

Sl No


1 Computational structural Mechanics S Rajshekharan.

G Sankara Subramanian

2001-1st edition

2 Structural Analysis A Matrix

Approach

G.S Pandit& S P Gupta 1982-2nd

edition

3 Basic structural Analysis C.S Reddy 2017-3

rd edition

4 Matrix Methods of Structural

Analysis

S SBhavikatti 2011-1st edition



5 Matrix Methods of Structural

Analysis

C Natarajan, P Revati 2014-1st edition

Reference Book:

Sl No


1 Matrix Method of Structural Analysis Godbole P N et.al 2014-1st edition

2 Theory of Structures Pundit and Gupta 2017-1st edition

3 Advanced Structural Analysis A K Jain 2015-3rd edition

4 Elements of Matrix Analysis and

Stability of Structures

ManickaSelvam 1998-7th edition

5 Introduction to Matrix Methods in

Structural Analysis

H C Martin 1966-1st edition



Subject Name:Advance Design of RC Structures


Course Objectives

Course Outcomes


1

This course will enable students to learn advanced design

of RCC elements

Course outcome

Descriptions

CO1

Students learn methods for both analysis and design of concrete members

and structural systems

CO2

The two way floor systems columns structural walls and Connections as

well design for torsion are studied

CO3 Seismic demands are introduced to gain the knowledge of seismic designs

CO4 Students are enriched with development of design and theory with the

philosophy of limit state of design




I

Design of RCC overhead circular and rectangular water tanks with

supporting towers. Design of silos, bunkers using Janssen's Theory and Airy's

Theory

8

II

Design of RCC Chimneys. Introduction to shell and folded plate roofs,

their forms and structural behavior. Design of simple cylindrical shell roof

by beam theory.

8

III Yield line analysis of slabs by virtual work. Yield line analysis by equilibrium

methods 8

IV Design of Grid Floors Slabs by approximate method 8

V Design of flat slabs by Direct Designer Method (with and without drops) 8






Text Books:

Sl No


1 Adavanced Reinforced Concrete Design N Krishna Raju CBS; 2 edition 2010

2 Adavanced Reinforced Concrete Design P.Cvarghese PHI Learning Pvt.Ltd

2009

3 Adavanced Reinforced Concrete Design S.SBhavikatti New Age

International,2008



Reference Book:

Sl No


1 Reinforced Concrete Structures B C Punmia Vol-II

Laxmi Publications (P)

Ltd, New Delhi.

2 Limit State Design of Reinforced

Concrete

P C Varghese Vol-II-

Prentice Hall of India

(P) Ltd, New Delhi.

3 Plain and Reinforced Concrete Jai Krishna and Jain Vol-II

Nem Chand Bros,

Roorkee

4 IS 456 2000 IS 3370 BIS 1967 (Part I, II and IS

1893)



Subject Name: Earth and Earth Retaining Structures

Subject Code:CE7PE413 L-T-P-C: 3-0-0-3

Course Objectives

Course outcomes

Sl. No Course Objectives

1 To impart the knowledge of earth retaining structures in

various engineering applications.

2 To make the students to design retaining structures with

geotechnical aspects.

Course outcome

Descriptions

CO1 To understand the concept of earthen dam construction and the causes

associated with that.

CO2 To gain the knowledge of retaining structures and their design principles.

CO3 To know the different types of sheetings and bracing systems.

CO4 To learn the concept of construction and design of cofferdams.




I

Earth Dams And Embankments: Introduction, Types of earthen dams and

their suitability, Hydraulic fill and rolled fill methods of construction, Causes

of failure of earth dam. Design criteria of earth dams Stability analysis of

earthen dams, Seepage control in earthen dams. Role of Filters in Earth Dam

Design.

8

II

Retaining Walls: Types of retaining walls, failure of retaining walls by

sliding, overturning and bearing. Stability analysis and Principles of the design

of retaining walls, Gravity retaining walls, Cantilever retaining walls,

Counterfort retaining walls (no structural design), Modes of failure of

retaining walls Drainage from the backfill.

8

III

Bulk Heads: Bulkheads with fixed earth support method, Types, locations and

design of anchors.Cantilever sheet pile walls Types of sheet pile walls, Free

cantilever sheet pile - cantilever sheet pile in cohesion-less soils, cantilever

sheet pile in clay. Anchored Sheet Pile Walls, Anchored sheet pile with free

earth support in cohesionless and cohesive soil.

8

IV

Braced Cuts: Introduction, Lateral earth pressure on sheeting, Different types

of sheeting and bracing systems design of various components of bracings.

Introduction to rock fill dams, Origin and usage of rock fill dams, types of rock

fill dams and design of rock fill dams and construction of rock fill dams.

8

V

Coffer Dams & Cellular Coffer Dams: Introduction, Types of cofferdams-

Design of cellular coffer dams on rock by Tennesse Valley Authority (TVA)

method safety against sliding, slipping, overturning, vertical shear and stability

against bursting. Design of cellular coffer dam on soil-safety against sliding,

slipping, overturning, vertical shear and stability against bursting.

8








Text Books:


1

“Surveying”, Laxmi Publications, New

Delhi

B CPunmia, Ashok

kumar Jain and

Arunkumar Jain

Volume 1, 17th Edition, 2016

2 “Engineering Surveying”, Tata

McGraw-Hill publications, New Delhi S K Duggal

Volume 1, 3rd Edition, 2009

3

“Surveying”, Laxmi Publications, New

Delhi

B CPunmia, Ashok

kumar Jain and

Arunkumar Jain


Reference Books:

Sl No Text Book title Author Volume and Year

of Edition

1

“Basics of Remote Sensing and GIS”,

Laxmi Publications, New Delhi S Kumar 3rd Edition, 2019

“Remote Sensing and Geographical

Information Systems”, B S Publications M Anji Reddy


2

“Surveying and levelling”, Standard Book

House, K R Arora


3

“Plane Surveying”, New Age International

publishers, New Delhi A M Chandra

Volume 1, 2nd Edition, 2016



Subject Name: Solid Waste Management


Course Objectives

Course Outcomes


1

Students will enable to know the classification and

characterization, types of solid wastes, management of solid waste

with study of methods of disposal

Course outcome

Descriptions

CO1 The students should know about importance, scope, classification and

characteristics of solid wastes

CO2 To impart students the knowledge of collection, transportation, treatment

techniques

CO3

To educate students on various disposal methods, recycle and re use

concepts of Solid Waste Management




I

Introduction: Definition, Land Pollution scope and importance of solid

waste management, functional elements of solid waste management.

SOURCES: Classification and characteristics municipal, commercial &

industrial. Methods of quantification.

Collection And Transportation: Systems of collection, collection equipment,

garbage chutes, transfer stations bailing and compacting, route optimization

techniques and problems.

8

II

Treatment / Processing Techniques: Components separation, volume

reduction, size reduction, chemical reduction and biological processing

problems.

Incineration: Process 3 T's, factors affecting incineration process, incinerators

types, prevention of air pollution, pyrolsis, design criteria for incineration

8

III

Composting: Aerobic and anaerobic composting, factors affecting

composting, Indore and Bangalore processes, mechanical and semi

mechanical composting processes. Vermicomposting.

Sanitary Land Filling: Different types, trench area, Ramp and pit method,

site selection, basic steps involved, cell design, prevention of site pollution,

leachate & gas collection and control methods, geosynthetic fabrics in sanitary

land fills

10

IV

Disposal Methods: Open dumping selection of site, ocean disposal, feeding

to hogs, incineration, pyrolsis, composting, sanitary land filling, merits and

demerits, biomedical wastes and disposal

8

V

Recycle and Reuse: Material and energy recovery operations, reuse in other

industries, plastic wastes, environmental significance and reuse 6








Text Books:

Sl No


1 Environmental Engineering S.K. Garg Vol II

2 Solid Waste Engineering Vesilind.Pa Worrell

&Reinhart.D

2009,

Cengage Learning

India Private

Limited, New Delhi.

Reference Book:

Sl No


1 Integrated Solid Waste Management: Tchobanoglous McGraw Hill 1999

2 Solid Waste Management in developing

countries

Bhide and

Sunderashan

2000

3 Hand book on Solid Waste Disposal Pavoni J.L 2008

4 Environmental Engineering Peavy and

Tchobanoglous

2012



Subject Name:Design of Prestressed Concrete Structures


Course Objectives

Course Outcomes


1

This course will enable students to learn design of Pre Stressed

Concrete elements

Course outcome

Descriptions

CO1 Understand the requirement of PSC members for present scenario

CO2 Analyse the stresses encountered in PSC element during transfer and at

working

CO3

Understand the effectiveness of the design of PSC member after studying

losses

CO4 Design PSC beam for different requirements




I

Materials :High strength concrete & steel, Stress-Strain characteristics and

properties.

Basic Principles of Prestressing: Fundamentals, Load balancing concept,

Stress concept, Centre of Thrust. Pre-tensioning and post-tensioning systems,

tensioning methods and end anchorages. Introduction to segmental bridges.

Analysis of Sections for Flexure: Stresses in concrete due to pre-stress and

loads, stresses in steel due to loads, Cable profiles

8

II

Losses of Pre-stress: Various losses encountered in pre-tensioning and post

tensioning methods, determination of jacking force.

Deflections: Deflection of a pre-stressed member Short term and long term

deflections, Elastic deflections under transfer loads and due to different cable

profiles. Deflection limits as per IS 1343. Effect of creep on deflection, load

verses deflection curve, methods of reducing deflection

8

III

Design of Section for Flexure: IS Code recommendations Ultimate flexural

strength of sections.

Design of Shear:IS Code recommendations, shear resistance of sections, shear

reinforcement. Limit state of serviceability control of deflections and cracking.

8

IV

Design of End Blocks: Transmission of prestress in pretensioned members,

transmission length, Anchorage stress in post-tensioned members. Bearing

stress and bursting tensile force-stresses in end blocks- Methods, I.S. Code,

provision for the design of end block reinforcement.

8

V

Design of Beams: Design of pre-tensioned and post-tensioned symmetrical

and asymmetrical sections. Permissible stress, design of prestressing force

and eccentricity, limiting zone of pre-stressing force cable profile.

8








Text Books:

Sl No


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

3 Pre-stressed Concrete - Problems and

Solutions

Krishna Raju. N CBS Publishers and

Distributors, Pvt.Ltd.,

New Delhi. 2018

Reference Book:

Sl No


1 Prestressed Concrete Structures P. Dayarathnam Oxford & IBH-Pubs

Company, Delhi, 5th

Edition

2 Pre - stressed Concrete Pundit G S and

Gupta S P

C B S Publishers,

New Delhi 4th

edition

2017

3 IS : 1343 Indian standard2012



Subject Name: Essentials of Information Technology


Course Objectives

Course Outcomes


1

This course will enable students to understand the operating

systems and basics of software’s

Course outcome

Descriptions

CO1 Students are introduced to concepts of operating systems concepts and

software testing

CO2 Students are instructed on problem solving techniques and programming

basics

CO3

Students are introduced to concept of project specification, coding,

integration testing, RDBMS and data base design




I

OPERATING SYSTEM CONCEPTS: Introduction, Memory Management,

Process Management, Interprocess Communication, Deadlocks, File

Management, Device Management.

SOFTWARE TESTING: Evolving role of Software Testing, Characteristics,

Component and application, SDLC, Software testing objectives, principles,

testability

8

II

PROBLEM SOLVING TECHNIQUES: Introduction, Techniques,

Computational problem and its classification, Logic and its types,

Introduction to Algorithms, Implementation of Algorithms using flowchart,

flowchart implementation through RAPTOR tool, Searching and sorting

Algorithms

8

III

PROGRAMMING BASICS: Introduction to Programming Paradigms and

Pseudo

Code Basic programming concepts, Program Life Cycle, Control Structures,

Introduction and demonstration of 1-D array and 2-D array, Searching and

sorting techniques, Demonstration concepts of memory references in

arrays, Strings.

STRUCTURED PROGRAMMING: Functions, structures, file handling,

introduction to Software development cycle, Industry coding standards and

best practices, Testing and Debugging, code review

8

IV

PROJECT: Project specification, Preparation of high level design and

detailed design document, UNIT test plan and integrated test plan, Coding and

UNIT testing activities, Integration testing, Project evaluation

8

V

RDBMS: Data processing, database technology, data models

ER MODELLING CONCEPTS, Notations, Extended ER features LOGICAL

DATABASE DESIGN, Normalization SQL, DDL statements, DML

statements, DCL statements Joins, Sub queries, views Database design issues

8








Text Books:

Sl No


1 'Structured Computer Organisation' Andrew S Tanenbaum

PHI 4TH

edition,

1999

2 'Computer Architecture- A Quantitative

Approach John L Hennessy,

David Goldberg,

David a Patterson

2nd

edition Morgan

Kaufman publishers,

1996

3 'Operating System Concepts' Silberschatz and

Galvin

John Wiley & sons,

6th

Edition

Reference Book:

Sl No


1 Modern Operating Systems Andrew Tanenbaum Pearson Education

2 Operating Systems-concepts and

design

Milan Milenkovic McGraw Hill

3 Operating Systems-A Design oriented

approach

Charles Crowley McGraw Hill



Subject Name:NUMERICAL METHODS IN CIVIL ENGINEERING


Course Objectives

Course Outcomes


1

To educate the students on the availability of various numerical methods of

Integration

2

To educate the students on the availability of various numerical methods in

Ordinary Differential Equation

3 To educate the students on the availability of various numerical methods in

different domain of structural mechanics of civil engineering.

Course outcome

Descriptions

CO1 Students will acquire the knowledge of algorithms of numerical integration

CO2 Student will acquire skill of use of Ordinary Differential Equations

CO3

Student will acquire the skills of development of algorithms, finite

difference techniques in structural mechanics.




I

Introduction: Historical development of Numerical techniques, role in

investigations, research and design in the field of civil engineering

Development of Algorithm/ Flow Charts for Following Methods for Solution

of Linear Simultaneous Equation:

a) Gaussian elimination method,

b) Gauss-Jordan matrix inversion method,

c) Gauss-Siedel method

d) Factorization method

8

II

Application of Solution of Linear System of Equations to Civil

Engineering Problems: Construction planning, slope deflection method

applied to beams, frames and truss analysis.

Application of root finding to civil engineering problems: Development of

algorithm for

a) Bisection method and b) Newton-Raphson method and its applications for

solution of non linear algebraic and transcendental equations from problems

in hydraulics, irrigation engineering, structural engineering and

environmental engineering

8

III

Application of Numerical Integration For Solving Simple Beam Problems:

Development of algorithm for

a) Trapezoidal rule and b) Simpson's one third rule and its application for

computation of area of BMD drawn for statically determinate beams. New

Marks method for computation of slopes and deflections in statically

determinate beams

8

IV

Development of algorithm and application of solution of ordinary

differential equation to civil engineering problems by: a) Euler's method

b) RungeKutta 4th order method

8

V

Application of Finite Difference Technique In Structural Mechanics:

i. Introduction, expression of derivatives by finite difference: backward

differences, forward differences and central differences. ii. Application of

finite difference method for analysis of

8



a) statically determinate beams,

b) statically indeterminate beams Application of Finite difference technique in

structural mechanics (Contd..)

a) Buckling of columns, b) Beams on elastic foundation.






Text Books:

Sl No


1 Numerical Methods for Engineers- Chapra S.C. &R.P.Canale

McGraw Hill, 1990.

2 Numerical methods in Engineering

Problem-

N.KrishnaRaju,K.U.Muthu

MacMillan Indian

Limited, 1990:

Galgotia, New

Delhi,1997

3 Numerical methods for Engineers

and Scientists

IqbalH.Khan, Q. Hassan Galgotia, New

Delhi, 1997



Reference Book:

Sl No


1 Numerical methods in Computer

Programs in C”

PallabGhosh Prentice

Hall of India Private

Limited, New Delhi,

2006.

2 Numerical methods for engineers using

MATLAB and C

I Edition

SCHILLING

“Thomson

Publications”.

3 Numerical Recipes in Fortran 77 Art of

scientific computing

William H Press

ISBN-13:978-

0521430647



Subject Name:Pavement Materials & Construction


Course Objectives

Course Outcomes


1

Students will able to,Understand regarding aggregates its origin, properties and

do gradation for various requirements, Understand and classify various

bituminous materials based on tests and design Bituminous mixes by Marshall

and stabillometer methods, Judge suitability of various equipment’s in the

construction of Highway construction, do various field tests, construction steps

along with specifications of flexible and rigid pavements

Course outcome

Descriptions

CO1

Students will learn about origin classification, requirement and properties

of aggregates and binder materials like bitumen, tar, emulsions and cut

backs and their testing methods

CO2

Students will gain the knowledge of highway construction equipments for

different works and their workship principles

CO3

Students will gain the knowledge about different types of pavements and

their material specifications and methodology of construction and various

control checks




I

AGGREGATES: Origin, classification, requirements, properties and tests on

road aggregates, concepts of size and gradation design gradation,

maximum aggregate size, aggregate blending by different methods to meet

specification.

Bitumen and Tar: Origin, preparation, properties and chemical constitution

of bituminous road binders; requirements

8

II

Bituminous Emulsions & Cutbacks: Preparation, characteristics, uses and

tests. Adhesion of Bituminous Binders to Road Aggregates: Adhesion

failure, mechanism of stripping, tests and methods of improving adhesion.

BITUMINOUS MIXES: Mechanical properties, dense and open textured

mixes, flexibility and brittleness, (no HveemStabilometer&Hubbar Field

Tests) bituminous mix, design methods using Rothfuch's Method only and

specification, Marshal mixed design criteria- voids in mineral aggregates,

voids in total mix, density, flow, stability, percentage voids filled with

bitumen

8

III

Equipment in Highway Construction: Various types of equipment for

excavation, grading and compaction their working principle, advantages and

limitations. Special equipment for bituminous and cement concrete pavement

and stabilized soil road construction.

Subgrade: Earthwork grading and construction of embankments and cuts for

roads. Preparation of subgrade, quality control tests

8

IV Flexible Pavements: Specifications of materials, construction method and

field control checks for various types of flexible pavement layers 8

V

Cement Concrete Pavements: Specifications and method of cement concrete

pavement construction (PQC Importance of providing DLC as sub-base and

polythene thin layer between PQC and sub-base); Quality control tests;

Construction of various types of joints

8








Text Books:

Sl No


1 Highway Engineering Khanna, S.K., and Justo

C.E.G., : Nem

Chand and Bros.

Roorkee

2 Construction Equipment and its

Management Sharma, S.C Khanna Publishers

3 Hot Mix Asphalt Materials, Mixture

Design and Construction

Freddy L. Roberts,

Kandhal, P.S

University of Texas

Austin, Texas.

NAPA Education

Foundation

Lanham, Maryland

Reference Book:

Sl No


1 'Bituminous Materials in Road

Construction'

HMSO Publication

2 'Soil Mechanics for Road Engineers'

HMSO Publication

3 Relevant IRC codes and MoRT& H

specifications



Subject Name: Remote Sensing and GIS Subject Code:CE7PE523 L-T-P-C: 3-0-0-3 Course Objectives

Course outcomes

Sl. No Course Objectives

1 Understand the basic concepts of remote sensing.

2 Analyze satellite imagery and extract the required units.

3 Extract the GIS data and prepare the thematic maps.

4 Use the thematic maps for various applications.

Course outcome

Descriptions

CO1 Able to understand the concept of remote sensing and its applications.

CO2 Ability to know the importance of platforms and sensors.

CO3 To understand the concept of digital image processing and interpretation

analysis.

CO4 Ability to know the components of GIS, applications and data

management in GIS.




I

EMR and its interaction with atmosphere: Introduction to remote sensing,

components of Remote sensing, electromagnetic radiation-sources,

electromagnetic spectrum, types-active and passive, energy interaction in

atmosphere-absorption, transmission and scattering, Energy interactions with

earth’s surface-spectral reflectance curves. Applications of remote sensing.

8

II

Platforms: Introduction, types of platforms-ground borne, air borne and space

borne. Sensors, characters of sensors,types-active and passive.

Sensors: Sensorparameters-spectral resolution, spatial resolution, thermal

resolution and radiometric resolution. Satellites-types, Indian satellites.

8

III

Image Interpretation and Analysis: Introduction, basic elements of image

interpretation and visual interpretation keys.

Digital Image Processing: Introduction to, stages involved in DIP-

preprocessing, image enhancement, image transformations, image

classification and analysis. Corrections-radiometric, geometric. Sources of

errors in image processing.

8

IV

Geographic Information System: Definition, basic components of a GIS,

sub-systems of GIS, types and functions. Types of GIS data- attribute and

spatial, data models-raster and vector. Maps in GIS and its types. Applications

of GIS.

8

V

Data Management: Introduction to data base management systems-functions,

components of DBMS, GIS Data File Management-simple list, ordered

sequential files and indexed files. Building GIS Worlds-LCGU based GIS,

layer based GIS, feature based GIS and object oriented GIS. Storage of GIS

data- hybrid data model and integrated data model.

8








Text Books:


1

“Remote sensing and image

interpretation”, John Wiley and Sons,

New york.

Thomas Lillesand,

Kiefer and

Chipman

7th Edition, 2015

2

“Basics of Remote Sensing and GIS”,

Laxmi Publications, New Delhi. S Kumar 3rd Edition, 2019

3

“Remote Sensing and Geographical

Information Systems”, B S Publications. M Anji Reddy


Reference Books:


1

“Fundamentals of Remote sensing”,

University press publishers, New Delhi

George Joseph and

C Jeganathan 3rd Edition, 2018

2

“Principles of Remote sensing”,

International Geo-Information Science

publishers

Wim H Bakker,

Lucas L F and

Colin V Reeves

4th

Edition, 2009

3

“Fundamentals of Geographical

Information Systems”, John Wiley and

Sons, New york.

Michael N Demers 4th

Edition, 2012



Subject Name:Highway Geometric Design


Course Objectives

Course Outcomes


1

Students will able to, Understand the design controls of highway geometrics,

various cross sectional elements, Calculate sight distances for various

conditions, Design horizontal and vertical curves with various elements related,

Understands and design intersections and drainage system

Course outcome

Descriptions

CO1

Students will learn about Geometric Control factors, IRC, standards and

specifications for various geometric designs, and PCU-concept

CO2

Students will learn deeply about various cross sectional elements and

design of road humps as per IRC provisions

CO3 Various geometric elements are designed like SSD, OSD, horizontal and

vertical elements

CO4

The principles of at grade and grade saparated intersections and types of

channelisations are studied and Students will be able to learn about

elements, advantages, disadvantages and design guide lines of rotary

intersections and design of highway drainage system




I

Introduction: Geometric Control factors like Topography -design speed

design vehicle, Traffic and volume Capacity, environment and other factors as

per IRC standards and specifications; PCU concept factors controlling PCU for

different design purpose

8

II

Cross Sectional Elements: Pavement surface characteristics, friction, skid

resistance of pavement unevenness, light reflecting characteristics, camber

objectives types of camber, methods of providing cambers, in the field.

Problems, carriage way,kerb, median, shoulder, foot path, parking lanes,

service roads, cycle tracks, Driveways, Right of way. Factors influencing

right of way. Design of Road humps as per latest I RC provisions.

8

III

Sight Distance: Importance, types, Sight distance at uncontrolled intersection,

derivation, factors affecting sight distance, OSD, derivation, IRC, problems on

above.

Horizontal Alignment: Definition, Checking the stability of vehicle, while

moving on horizontal curve, Super elevation, Ruling minimum and maximum

radius, Assumptions, problems. Method of providing super elevation.Extra

widening of pavement on curve, objective. Transition curve, objectives.Ideal

requirements, types of transition curve. Method of evaluating length of

transition curve, setting the transition curve in the field, set back distance on

horizontal curve and problems on above

8

IV

Vertical Alignment: Gradient, Types of gradient. Design criteria of summit

and valley curve. Design of vertical curves, based on SSD & OSD night

visibility considerations. Design standards for hilly roads problems on the

above.

Intersection Design: Principles, interactions at grade and Grade separated

interactions. Types of channelization. Features of channelising Island median

opening. Gap in median at junction.

8

V

Rotary Intersection: Elements Advantages and Disadvantages Design guide

lines problem on the above Grade separated intersection. Three legged

inter section Diamond inter change. Half clover leaf, clover leaf, Advantages-

Disadvantages only

Highway Drainage: Importance, sub surface drainage surface drainage

Design of road side drain. Hydrological and Hydraulical considerations and

design of filter media, problems on above.

8








Text Books:

Sl No


1 Principle and practice of Highway

Engineering

L R KADIYALI & N B

LAL Khanna

publications

2 Highway Engineering

Khanna S K & Justo Nemchand& Bros

3 Highway Engineering Srinivas Kumar

Reference Book:

Sl No


1 Highway Engineering Kadiyali L R

Khanna publications

2 Relavent IRC Publications

3 Transportation Engineering and

Planning

Papa Coastas

andPrevendors PHI,

New Delhi



Subject Name:Structural Dynamics


Course Objectives

Course Outcomes


1

This course will enable students to understand the behavior of building

structures subjected to dynamic loads: wind,seismic,machine vibration loads

Course outcome

Descriptions

CO1

Understand the behaviour of structure especially building to various

dynamic loads: such as wind, earthquake, machine vibration and

ambient vibration

CO2

Apply Apply knowledge of mathematics, science, and engineering by developing

the equations of motion forvibratory systems and solving for the free and

forced response

CO3

Basic understanding of fundamental analysis methods for dynamic

SystemsInterpret dynamic analysis results for design, analysis an

research purposes

CO4

Apply Apply structural dynamics theory to earthquake analysis, response, and

design of structures




I

Introduction: Introduction to structural dynamics, brief history of

vibration, Basic definitions, vibration of SDOF (Single Degree of

Freedom) systems, undamped, Damped, Free vibrations, equivalent

viscous damping, Logarithmic decrement

8

II

Forced vibrations of SDOF system, Response of undamped and damped

system subjected to harmonic loading, response to SDOF subject to harmonic

base excitation, Duhamel’s integral, response to general system of loading,

dynamicload factor, response spectrum

8

III

Free vibration of MDOF (Multi Degree Freedom System), Natural

frequencies,Normal modes, Orthogonality of normal modes, Eigen Values Shear

buildings modeled as MDOF systems. Free vibrations, Natural frequencies

8

IV

Forced vibrations, Motion of shear buildings, Model Superposition Method,

Response to shear buildings, Base motion, Harmonic fixed excitation.

Damped motion of shear buildings, Equations for damped shear

buildings,uncoupled damped equations, Conditions for damping uncoupled

8

V

Dynamic analysis of base stuffiness matrices, Lumped mass and consistent

massformulation, Equations of motion 8








Text Books:

Sl No


1 Vibrations, structural dynamics M. Mukhopadhaya OxfordIBH

2 Structural Dynamics

Mario Paz CBS publishers

Reference Book:

Sl No


1 Structural Dynamics Anil Chopra PHI Publishers

2 Structural Dynamics

Clough &Penzen TMH



Subject Name:Air Pollution & Control


Course Objectives

Course Outcomes


1

This course will enable students to identify and classify sources of air pollution

by knowing the metrological factors of air pollution with study of air pollution

sampling techniques involving design of particulate and gaseous control

equipment

Course outcome

Descriptions

CO1 Ability to classify air pollutants and air pollution inventories

CO2 Understand the effects of air pollution on human health, animals and plants

CO3

Able to understand noise pollution sources, measurements, effects and

control

CO4

Able to understand acid rain, global warming, ozone depletion and air &

noise pollution standards




I

Introduction: Definition Classification and Characterization of Air

Pollutants, Emission Sources, Behavior and Fate of air Pollutants, Chemical

Reactions in the Atmosphere, Photo-chemical Smog, Coal-induced smog, Air

Pollution Inventories

8

II

Effects of Air Pollution: On Human Health, Animals, Plants and Materials

Major Environmental Air Pollution Episodes London Smog, Los Angeles

Smog & Bhopal Gas Tragedy.

Meteorology: Introduction Meteorological Variables, Primary and

Secondary pollutants Lapse Rate, Inversions, Stability Conditions, Windrose,

General Characteristics of Stack Plumes, Meterological Models

8

III

Factors to be considered in Industrial Plant Location and Planning Noise

pollution sources, measurement UNITs, effects and control

Sampling, Analysis and Control: Sampling and Measurement of Gaseous

and Particulate matter, Stack Sampling, Analysis of Air Pollutants, Smoke and

Smoke Measurement, Air Pollution Control Methods Particulate, Emission

Control, Gravitational Settling Chambers, Cyclone Separators, Fabric Filters,

Electrostatic Precipitators, Wet Scrubbers, Selection of a

Particulate Collecting Equipment, Control of Gaseous Emissions, Adsorption

by Liquids, Absorption by Solids, Combustion odours and their control

8

IV

Air Pollution Due To Automobiles: Air Pollution due to Gasoline

Driven and Diesel Driven Engines, Effects, Direct and Indirect Methods of

control

8

V

Burning Environmental Issues:

1. Acid Rain

2. Global Warming

3. Ozone Depletion in Stratosphere

4. Indoor Air Pollution

ENVIRONMENTAL LEGISLATION: Environmental Policy, Environmental

Acts, Water, Air and Noise Pollution Standards

8








Text Books:

Sl No


1 Environmental Engineering P. VenugopalaRao 2002

2 Fundamentals of Air Pollution

B.S.N. Raju 2000

3 Air Pollution and Control M N Rao and H.V.N. Rao 2010

Reference Book:

Sl No


1 Fundamentals of Air Pollution Boubel, R.W.,

Donald, L.F., Turner,

D.B., and Stern, A.C

Academic Press

2 Air Pollution Control Theory

Crawford, M TMH Edition, Tata

McGraw Hill

Publishing Co. Ltd.,

New Delhi.

3 Environmental Engineering

Peavy, H.S., Rowe,

D.R., and

Tchobanoglous, G

McGraw Hill Book

Co.

2013



Subject Name:ENVIRONMENTAL ENGG. LABORATORY

Subject Code: CE7L01 L-T-P-C: 0-0-3-1.5

Course Objectives

Course Outcomes


1

This course enables the students to know the various tests to be conducted for

characterization of water and wastewater samples.

Course outcome

Descriptions

CO1

Students study the drinking water quality parameters and compare it with

standards

CO2

The students are able to do assessment of wastewater quality and decide

the treatment methods and its cost

CO3

Students can evaluate the adverse effects of water quality and wastewater

on humans and environment

CO4

The students can decide on treatment methods, its cost of treatment,

performance study of existing treatment



Sl. No.

Description

1 Determination of Solids in Sewage: Total Solids, Suspended Solids,

Dissolved Solids, Volatile Solids, Fixed Solids, Settleable Solids

2 Determination of Chlorides and Sulphates

3 Determination of Alkalinity, Acidity and pH

4 Determination of Calcium, Magnesium and Total Hardness

5 Determination of Dissolved Oxygen. Determination of BOD

6 Determination of COD

7

Determination of percentage of available chlorine in bleaching powder,

Residual Chlorine and Chlorine Demand

8 Jar Test for Optimum Dosage of Alum, Turbidity determination byNephelometer

9 Determination of Iron. Phenanthroline method

10 Determination of Fluorides SPANDS Method

11 MPN Determination

12 Determination Nitrates by spectrophotometer

13 Determination of sodium and potassium by flame photometer



Text Books:

Sl No


1 Standard methods, for the

examination of water and wastewater

1985

BIS 16th

Edition, APHA,

AWWA, WPCF

2 Environmental Pollution Analysis

SM Khopkar New Age

International

Publishers

Reference Book:

Sl No


1 Manual of Water and Wastewater

Analysis NEERI Publication

BIS

2 Standard Methods for Examination of

Water and Wastewater (1995),

American Publication Association,

Water Pollution Control Federation,

American Water Works Association,

Washington DC

American Publications

3 IS Standards : 2490-1974, 3360-1974,

3307-1974. Chemistry for Environment

Engineering. Sawyer and McCarthy

BIS



Subject Name: CONSTRUCTION TECHNOLOGY LABORATORY

Subject Code: CE7L02 L-T-P-C: 0-0-3-1.5

Course Objectives

Course Outcomes


1 To enable the students to understand for various constructional activities

Course outcome

Descriptions

CO1 Students are able to identify various building materials and tools

CO2 Students understand about form work, centering and shuttering

CO3

Students are able to mark center line of the building on the ground, and

excavation marking

CO4

Students are made aware regarding electrification in the buildings, water

supply and sanitation



Sl. No.

Description

1 Identification and demonstration of building materials and tools used in the construction

of building work

2 Idea of form work, centering and shuttering and their removal periods for structural

members of RCC

3 Demonstration of various water supply fixtures and sanitary fittings

4 Site visits

5 Study of various types of wires and cables used in domestic wiring

6 Introduction to pipes and pipe fittings and their specifications

7 Demonstration, function and use of plumbers tools and equipments

8 Elements of water supply line and its assembling and testing

9 Elements of sanitary line and its assembling and testing

10 Bar bending scheduling and fabrication

11 Electrical layout and components purpose and usage

12 Central line marking of building (2BHK residential building).



Text Books:

Sl No


1 Relevant IS Codes and IRC Codes

Reference Book:

Sl No


1 Concrete Manual M. L. Gambhir DhanpatRai& sons

New Delhi

2 Building Construction

Dr. B.C.Punmia

3 Building Construction

Susheel Kumar



Subject Name: Project Work - II A

Subject Code: CEPW01 L-T-P-C: 0-2-6-4

Course Objectives

Course Outcomes

The project work IIA (CE7PW01) which is to be included in 7th Semester for 4

credits includes the identification of problem and literature for the main project

work. The evaluation for this subject is to be done by a Departmental Evaluation

Committee based on the seminar. There is no end term practical examination for

this subject in 7th Semester.


1

The students will enable to work in group with coordination among the project

group.

2

This work will enable students to gain in depth knowledge on the project related

topic.

3

This course will enable students to present seminars with power point

presentation and overcome the stage fear problems, which helps in career

development process and getting jobs in Government and private organizations.

Course outcome

Descriptions

CO1

Understand the literature survey & identifying the problem of the project

work

CO2 Ability to collect the various parameters involved

Syllabus for the Academic Year 2019 - 2020 Sem B.E syllabus 2019-20.pdfCivil Engineering Department...

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