INTEGRAL UNIVERSITY

LUCKNOW

SYLLABUS

OF

IV Year (VII

Semester & VIII Semester)

B. TECH. CIVIL ENGINEERING

STUDY & EVALUATION SCHEME

Branch: Civil Engineering

Year – IV Semester – VII

SL.

NO.

CODE

NO. NAME OF SUBJECT

PERIODS EVALUATION SCHEME SUBJECT

TOTAL L T P SESSIONAL EXAM EXAM.

ESE CT TA TOTAL

01. Open Elective 3 1 0 30 20 50 100 150

02. ICE – 701 Environmental Engineering-II 3 1 0 30 20 50 100 150

03. ICE – 702 Water Resources Engineering-I 3 1 0 30 20 50 100 150

04. ICE – 703 Steel Structure 3 1 0 30 20 50 100 150

05. ICE – 704 Plastic Analysis of Structures 2 1 0 15 10 25 75 100

06. Elective-I 3 1 0 30 20 50 100 150

PRACTICAL/ DRAWING/ DESIGN

01. ICE – 751 Environmental Engineering Lab-II 0 0 3 10 10 20 30 50

02. ICE – 752 Structural Detailing Lab-II 0 0 3 10 10 20 30 50

03. ICE – 753 Training -- -- -- -- -- 20 30 50

04. ICE – 754 Project-I -- -- 3 -- -- 20 30 50

04. GP – 701 General Proficiency -- -- -- -- -- 50 -- 50

Total 17 6 9 1100

Total Load = 32

TA – Teacher Assessment; ESE – End Semester Examination; CT – Cumulative Test. Note : Duration of ESE shall be 03 (Three) hours per subjects.

STUDY & EVALUATION SCHEME

Branch: Civil Engineering

Year - IV Semester - VIII

SL.

NO.

CODE

NO. NAME OF SUBJECT

PERIODS EVALUATION SCHEME SUBJECT

TOTAL L T P SESSIONAL EXAM EXAM.

ESE CT TA TOTAL

01. ICE – 801 Earthquake Resistant Design 3 1 0 30 20 50 100 150

02. ICE – 802 Water Resources Engineering-II 3 1 0 30 20 50 100 150

03 ICE – 803 Non-Destructive Testing 2 1 0 15 10 25 75 100

04. Elective-II 3 1 0 30 20 50 100 150

05. Elective-III 3 1 0 30 20 50 100 150

06. Elective-IV 3 1 0 30 20 50 100 150

PRACTICAL/ DRAWING/ DESIGN

01 ICE – 851 Project-II -- -- 3 100 100 200

02 GP – 801 General Proficiency -- -- -- 50 -- 50

Total 17 6 3 1100

Total Load = 26

TA – Teacher Assessment; ESE – End Semester Examination; CT – Cumulative Test. Note : Duration of ESE shall be 03 (Three) hours per subjects.

STUDY & EVALUATION SCHEME

Branch: Civil Engineering

Year - IV Semester - VIII

SL.

NO.

CODE

NO. NAME OF SUBJECT

PERIODS EVALUATION SCHEME SUBJECT

TOTAL L T P SESSIONAL EXAM EXAM.

ESE CT TA TOTAL

01. ICE – 801 Earthquake Resistant Design 3 1 0 30 20 50 100 150

02. ICE – 802 Water Resources Engineering-II 3 1 0 30 20 50 100 150

03 ICE – 803 Construction Planning and Management 2 1 0 15 10 25 75 100

04. Elective-II 3 1 0 30 20 50 100 150

05. Elective-III 3 1 0 30 20 50 100 150

06. Elective-IV 3 1 0 30 20 50 100 150

PRACTICAL/ DRAWING/ DESIGN

01 ICE – 851 Project-II -- -- 3 100 100 200

02 GP – 801 General Proficiency -- -- -- 50 -- 50

Total 17 6 3 1100

Total Load = 26

TA – Teacher Assessment; ESE – End Semester Examination; CT – Cumulative Test. Note : Duration of ESE shall be 03 (Three) hours per subjects.

6

ICE-701 ENVIRONMENTAL ENGINEERING – II

L – 3, T – 1, P-0

UNIT-1

Introduction: Beneficial uses of water and quality requirements, standards. Concepts of water and

wastewater quality: physical, chemical and bacteriological examination of

Wastewater characteristics: Temperature, pH, colour and odour, solids, nitrogen and phosphorus,

chlorides, toxic metals and compounds, BOD, COD etc.

Objectives of treatment: Water and wastewater treatment, unit operations and processes and flow sheets.

. 8

.

UNIT-2

Collection and conveyance of sewage: conservancy system, waste water carriage system and its

classification, estimation of waste water flows and variation in wastewater flows.

Storm water: collection and estimation of storm water by deferential formulae

Flow in sewer: flow in filled and partially full sewer, design of sewer, type of sewer, material and

construction of sewer, joint and sewer appurtenances, layout and construction of sewer line. Planning of

sewerage systems.

Industrial waste water: collection, characteristics and methods of treatment Physical, chemical and

biological. 8

UNIT-3

Wastewater Treatment: Preliminary, primary, secondary and tertiary treatment processes.

Primary Treatment of waste water: sedimentation and chemical treatment to be given.

Secondary Treatment: Theory of organic matter removal; activated sludge process, design of different

units and modifications, extended aeration systems; trickling filters; aerated lagoons, waste stabilization

ponds, oxidation ditches, R.B. C. 8 .

UNIT-4

Anaerobic digestion of sludge: Design of low and high rate anaerobic digesters and septic tank. Basic

concept of anaerobic contact process, anaerobic filter, anaerobic fixed film reactor, fluidized bed and

expanded bed reactors and upflow anaerobic sludge blanket (UASB) reactor.

8

UNIT-5

Advanced Waste water treatment: Introduction to Duckweed pond, vermiculture and root zone

technologies and other emerging technologies for wastewater treatment.

Disposal of wastewater on land and in water bodies: Sludge treatment processes, amount and

characteristics of sludge, sludge thickening, anaerobic digestion, sludge conditioning, sludge dewatering,

final disposal of sludge. 8

7

Reference books: 1. Peavy, Rowe and Tchobanoglous: Environmental Engineering

2. Metcalf and Eddy Inc.: Wastewater Engineering

3. Garg: Water Supply Engineering (Environmental Engineering Vol. – I)

4. Garg: Sewage Disposal and Air Pollution Engineering (Environmental Engineering Vol. – II).

5. Punmia , B.C.: Waste water engineering

6. Manual on Water Supply and Treatment, C. P. H. E. E. O., Ministry of Urban Development, Government of

India, New Delhi

7. Manual on Sewerage and Sewage Treatment, C. P. H. E. E. O., Ministry of Urban Development,

Government of India, New Delhi

8. Steel and McGhee: Water Supply and Sewerage

9. Fair and Geyer: Water Supply and Wastewater Disposal

10. Hammer and Hammer Jr.: Water and Wastewater Technology

11. Raju: Water Supply and Wastewater Engineering

8

ICE – 702 WATER RESOURCES ENGINEERING I

L – 3, T – 1, P-0

UNIT – I

Water Resources planning and management: Objectives, constraints and criteria based on technical,

economical, social and political factors. Assessment of surface water resources of India, Intra and inter

basin development concepts. Single and multipurpose projects.

Surface Runoff: Components and factors affecting runoff, methods of estimation of runoff volume and

peak runoff, rating curve, Rainfall – runoff relationships. 8

UNIT – II Hydrograph analysis: components, factors affecting hydrographs, base flow separation, Direct Runoff

Hydrograph, Unit Hydrograph: Theory and assumptions. Derivation of Unit Hydrograph, Synthetic Unit

Hydrograph Introduction to computer models for rainfall runoff analysis.

Irrigation: Developments in India, Necessity and types Advantages & disadvantages of irrigation. Functions of

water in plant growth, Methods of Irrigation, Water requirement of crops. Irrigation frequency, Irrigation

efficiencies, Principal crops and crop season, crop rotation.

Canal irrigation: Classes and alignment, Parts of a canal system, Commanded area, curves in channels,

channel losses. 8

UNIT – III Sediment Transportation: Elementary idea of Suspended and Bed load.

Irrigation channels: Types: lined and unlined, silt theories: Kennedy’s and Lacey’s Design procedure for

irrigation channels, Longitudinal cross section, Schedule of area statistics and channel dimensions, use of

Garret’s Diagrams in channel design, cross sections of an Irrigation channel.

Lining of Irrigation Canals: Advantages and types, factors for selection of a particular type, design of lined

channels, cross section of lined channels, Economics of canal lining.

Water Logging: Definition, effects, causes and anti-water logging measures, Drainage of water logged land,

Types of drains open and closed, spacing of closed drains. 8

UNIT – IV Regulation and control of canal system: Purpose, Types of canal regulation works and their functional aspects

Irrigation Outlets: Requirements, types, non-modular, semi-module and rigid module, selection criterion

River Training: Objective and need, classification of rivers, and river training works, meandering, stages,

methods of river training, bank protection, Methods for measurement of discharge.

8

UNIT – V Ground Water Hydrology: Zones of underground water, Aquifers and their types, important terms,

Determination of discharge through unconfined and confined aquifers with steady flow conditions,

Interference among wells, determination of aquifer constants, Well loss and specific capacity, efficiency of a

well, types of water wells, bored and open wells, specific yield of a well, Relative merits of well and canal

irrigation, type of tube wells, well surrounding and well development, Suitable site selection for a tube well,

Types of open wells, Methods of lifting water. Infiltration galleries. 8

9

References 1. Water Resources Engg. By Larry W. Mays, John Wiley India

2. Water resources Engg. Vol. I and II By S.K. Garg

3. Water Resources Engg. By R. K. Linsley, McGraw Hill

4. Irrigation and water Resources Engg. By G L Asawa, New age International Publishers

5. Irrigation Theory and Practices by A M Michel

6. Irrigation Engineering by Bharat Singh

10

ICE-703 STEEL STRUCTURES

L – 3, T – 1, P- 0

UNIT – 1

Basis for design, design philosophies, introduction to Limit State Design, Limit state for steel design,

limit state of strength, limit state of serviceability, probabilistic basis for design, design criteria, material,

structural steel. Stress - Strain Curve for Mild Steel. 4

Introduction to rolled steel sections, Loads. Riveted, Bolted, Pinned and Welded connections, Strength,

Efficiency and Design of joints. 4

UNIT – 2

Compression members- Effective length, Slenderness ratio, Strength of Compression members,

Design of Struts, Columns, Built-up Columns, Design of eccentrically loaded columns. 8

UNIT – 3

Tension members – Net and Gross sectional areas, Strength of members and their design. 4

Design of slab and Gusset bases, Design of Grillage footing. 4

UNIT – 4

Beams – web crippling and web buckling, design of laterally supported beam, design of laterally

unsupported beam, Purlins. 8

UNIT – 5

Design of Industrial Buildings – Detailed design of roof trusses. Design of Plate Girder 8

Text Books.

1. Limit State Design of Steel Structures by Duggal S.K., Tata Mcgraw Hill.

2. Design of Steel Structures by K.S. Sairam, Pearson Education.

11

References:

1. Design of Steel Structures by S. K. Duggal, Tata Mc-Graw-Hill Publishing Company.

2. Design of Steel Structures by Gaylord & Gaylord. Tata Mc-Graw-Hill Publishing Company

3. Design of Steel Structures by A. S. Arya & J. L. Ajmani, Nem Chand & Bros., Roorkee.

4. Steel Structures Design and Practice By N.Subramanian, Oxford University Press

5. Structural Design and Drawing Reinforced Concrete and Steel By N. Krishna Raju,University

Press

6. Limit State Design of Steel Structures by M.R. Shiyekar, PHI Learning.

7. Design of Steel Structures IInd edition (by Limit State Method As per IS:800-2007) by S.S.

Bhavikatti, IK international publishing house.

8. IS : 800 – 2007.

12

ICE – 704 PLASTIC ANALYSIS of STRUCTURE

L –2, T – 1, P-0

Unit – 1 Introduction, plastic failure, plastic moment capacity of a cross section,

Shape factor, concept of load factor Plastic hinge and collapse mechanisms, (7)

Unit – 2 Analysis of beams and frames, Semi graphical method and mechanism method. (7)

Unit –3 Plastic moment distribution for multi-storey and multi-bay frames (7)

Unit – 4 Analysis for deflections at collapse. Effect of axial force and shear (7)

Books:

1. Plastic analysis of structure by P.G Hodge

2. Plastic analysis and Design of steel structure by M Bill Wong

3. Plastic method of structural analysis by B. G Neil

13

ICE-751 ENVIRONMENTAL ENGINEERING LAB. II

P – 3

1. Determination of total suspended and dissolved solids.

2. Determination of BOD of sample.

3. Determination of COD of sample.

4. Determination of Kjeldahl nitrogen.

5. Determination of fluorides.

6. Determination of rate kinetics constant of aerobic reactions.

7. Field visit of water / wastewater treatment plant.

References

1. Sawyer, McCarty and Parkin: Chemistry for Environmental Engineering

2. Mathur: Water and Wastewater Testing.

3. Standard Methods for the Examination of Water and Wastewater, A. P. H. A., New York.

14

ICE – 752 Structural Detailing Lab. II

P – 3

Preparation of working drawings for the following _

1. Rolled sections and connections (welded and riveted).

2. Built-up columns and beams.

3. Gusset bases

4. Grillage footing

5. Roof trusses

6. RC retaining walls

7. RC water tanks.

15

ICE – 801 EARTHQUAKE RESISTANT DESIGN

L – 3, T – 1, P-0

UNIT – I

Wind and earthquake loading on structures, structural idealization for dynamic analysis. Free and forced

vibration of single degree freedom system. 8

UNIT – II

Two degree and multi degree freedom system, seismic response of the buildings, calculation of time

period, base shear, seismic coefficient method and response spectrum method. 8

UNIT – III

Ductility requirement of RCC frame. Effect of structural irregularities on the performance of RC building.

Earthquake Resistant Design of Masonry building. 8

UNIT – IV

Modern techniques in a seismic design. Design of shear wall. An introduction to seismic analysis of

special structures: Water tank, dam, chimney and bridge. 8

UNIT – V

Vibration of rotary, reciprocating and impact machines, Structural design of machine foundation.

Dynamics of soil –structure interaction. Earthquake induced liquefaction of soil.

8

References:

1. Introduction to Structural Dynamics- J.M.Biggs

2. Elements of Earthquake Engineering-Jai Krisna and A.R. Chandrasekhar

3. Structural Dynamics-Theory and Computation- Mario Paz

4. Fundamental of Earthquake Engineering –N.M.Neumarks and E. Rosenblueth

5. IS-13920-1993- Ductile detailing of Reinforced Concrete Structures subjected to a Seismic Forces

6. IS-4326-1993

7. IS-1893-(Part I )-2002 Criterion for Earthquake resistant Design

16

ICE – 802 WATER RESOURCES ENGINEERING II

L – 3, T – 1, P-0

UNIT – I Failure of hydraulic structures founded on permeable foundations, Bligh’s theory, Khosla’s theory for

determination of pressure and exit gradient.

Regulation Works: Falls, Classification, and Introduction to design principle of falls, Design of Sarda type and

straight glacis tall.

Principle and design of Distributory head regulation and cross regulator, canal escape, Bed bars.

8

UNIT – II Canal head works: Functions, Location, and Layout of head works. Criteria & Design of Weir and Barrage,

Canal head Regulator, Design of vertical drop and sloping glacis weir. Cross drainage works: Necessity and

types. Aqueduct, Siphon Aqueduct, super passage, canal siphon, level crossing, Design of cross drainage

works. 8

UNIT – III Flood routing: Types, methods of reservoir routing, channel routing by Muskingham Method.

Investigation and planning of dams and Reservoirs: Zones of storage, Estimation of storage capacity,

Reservoir losses, Reservoir sedimentation and its control, life of a reservoir.

Dams: classification and selection criteria.

Earth Dams: Classification, causes of failure Pheratic line and its determination. Introduction to stability

analysis. 8

UNIT – IV Gravity dams: Forces method of analysis, modes of failure and factor of safety, Elementary profile, stability

analysis, galleries, joints, control of cracks. 8

Introduction to Arch & Buttress Dams.

UNIT – V Spillways: Spillway capacity, types of spillways, Design of ogee spillway, Energy dissipation below spillway,

Design criteria for Hydraulic Jump type stilling basins with horizontal and sloping aprons, spillway gates.

Hydro-Electric Power: assessment of potential specially in reference to India, classification of power plants,

important terms, types of turbines and their suitability. Power House layout and important structures of a

powerhouse. 8

17

References 1. Water Resources Engg. By Larry W Mays, John Wiley India

2. Water resources Engg. By Wurbs and James, John wiley India

3. Water Resources Engg. By R.K. Linsley, McGraw Hill

4. Irrigation and Water Resources Engg. By G L Asawa, New age International Publishers

5. Irrigation Theory and Practices by A M Michel

6. Irrigation Engineering,

7. Irrigation Engg. And Hydraulic Structures by S. K. Garg, Khanna Publishers

8. Irrigation and Water Power Engineering by B. C. Punmia & Pande B.B. Lal Laxmi Publications

9. Engineering Hydrology by K Subramanya, TMH

10. Irrigation, Water Power and Water Resources Engg. By K. R. Arora

18

ICE-803 Non Destructive Testing L –2, T – 1, P-0

Unit 1: Structural Health, factors affecting health of structures, effect of leakage, age, creep, corrosion,

fatigue on life of structure. Structural health monitoring. Various measures, regular maintenance,

structural safety in alteration. Quality control & assurance of materials of structure, durability of concrete,

Factors affecting durability of concrete, Corrosion in structures, Testing and prevention of corrosion, fire

safety. (7)

Unit 2: Structural Audit, Assessment of health of structure, study of structural drawings, nature of

distress, visual observations, Collapse and investigation, limitations on investigator, tools for

investigation, Various NDT Methods for assessing strength of distressed materials, investigation

management, review of assimilated information. (7)

Unit 3: Retrofitting of Structures, parameters for assessment for restoration strategies, selection of

construction chemicals during restoration, Specification for important items of work in restoration,

Structural detailing for restoration, Various techniques of retrofitting. (7)

Unit 4: Demolition of Structure, study of structural system and structural drawings, need and

importance for demolition, outline of various demolition methods and their evaluation, partial and

controlled demolition, role of safety measures, temporary support structures in demolition. Recycling of

demolished materials, contracts (7)

Books:

1. Non-Destructive Testing by Halmshaw

2. Metal Handbook Vol.2 , Non-Destructive Inspection and Quality Control

3. Durable Structures by R.N.Raikar,

4. R.N. Raikar, ‘Learning from Failures’,

5. R.N. Raikar, ‘Diagnosis and treatment of structures in Distress’

6. Jayakumar J. Shah, A Book – A Handy Guide to Repairs, Rehabilitation

and Waterproofing of RCC Building (Structures)

7. Demolition and reuse of concrete by Y Kasai

8. Structural Audit, Report by Mr. Umesh Dhargalkar

9. Formwork Construction and Practice by Richardson.J.G

10. Formwork For Concrete Structures by Peurifoy. R.L

19

ICE – 011 Design of Wastewater System

L – 3, T – 1, P-0

UNIT – I Wastewater characteristics: Composition and microbiology of wastewater, BOD kinetics.

8

UNIT-II

Wastewater Treatment: Reactor analysis, unit operation and processes, process flow sheets

8.

UNIT-III

Theory and design of biological treatment processes and unit included activated sludge process.

8

UNIT-IV

Theory and design of Trickling filter, Types of Trickling Filter, Efficiency Calculation of Trickling Filter.

Recirculation of Treated Sewage. SBR Technology: Methodology and Operation. 8

UNIT-V

Waste stabilization ponds, aerated lagoon and oxidation ditches. 8

Books Recommended:

1. Manual on Sewage and Sewage Disposal – CPHEEO, Govt. of India

2. Design of Wastewater Treatment – S.R. Qasim, CBS Publications, U.S.A.

3. Environmental Engineering – Peavy Mc Graw Hills International

20

ICE – 012 Transportation Systems and Planning

L – 3, T – 1, P-0

UNIT-I

Transport System and its Development: Transportation system, classification of transport system,

urbanization and transport demand, motorization trends, urban transport problems, role of transportation:

social, economic, political, and environmental; transportation today, organizations involved in

transportation development in India.

Hierarchy of Roads and Capacity: Hierarchy of Roads, Concept of PCU, capacity and level of service,

factors affecting capacity and level of service; capacity of rural and urban roads

8

UNIT-II

Public Transportation and Transport Facility Design: Technology in transportation, public transport

systems, design of parking facilities, design of pedestrian facilities, design of cycle tracks, design of bus

facilities, terminal and its functions, transit planning, transit demand, transit route network.

8

UNIT-III

Transportation Cost, Demand and Supply: Transport costs: capital cost, operation and maintenance

cost, vehicle operating cost (VOC), value of time (VOT), accident cost; transportation demand, supply in

transportation, transportation networks and environmental impact. 8

UNIT-IV

Transport Planning: Transportation planning surveys, transport planning process: trip generation, trip

distribution, modal split and trip assignment; economic evaluation of transport plans.

8

UNIT-V

System Operations and ITS: System operation and management, Intelligent Transport System (ITS),

Benefits of ITS, ITS services: advanced traffic management system (ATMS), advanced traveler

information system (ATIS), advanced vehicle control system (AVCS), commercial vehicle operation

(CVO), advanced public transport system (APTS), emergency management system (EMS), electronic

payment (EP), safety, working of ITS, application of ITS 8

.

21

References: 1. Traffic Engineering & Transport Planning by LR Kadyali, Khanna Publisher, Delhi

2. Theory and Applications of Economics in Highway and Transport Planning, Vinay Maitri, P.K.Sarkar,

Standard Publishers Distributors, Delhi

3. Transportation Planning, Principles, Practice and Policies, P.K.Sarkar, Vinay Maitri, G.J. Joshi,

Prentice-Hall India, Delhi

4. Transportation Engineering and Planning, C.S.Papacostas, P.D.Prevedouros,

Prentice –Hall India, Delhi

5. Highway Engineering-S.K.Khanna & C.EG. Justo, Nem Chand & Bros, Roorkee

22

ICE – 013 FINITE ELEMENT AND FINITE DIFFERENCE METHODS

L – 3, T – 1, P-0

UNIT-I

Derivation of Backward, Forward and Central Difference Relations and estimate of error in use of these

Relations. Solution of the beam type problems in Equilibrium, stability and vibration using these. 8

UNIT-II

Extension of Central Difference Relations in solution of partial Differential Equations. Application to Lap

lace equation and torsion problems. 8

UNIT-III

Introduction to finite Element Method and its uses in analysis of Civil Engineering Structures. Derivation

of the element characteristics and condensation technique. 8

UNIT-IV

Application of the Method in treatment of plane stress and plane strain problems. Organization of the

finite Element programmed and data preparation. 8

UNIT-V

Efficient solution techniques for simultaneous linear algebraic equations obtained in Finite Difference and

Finite Element formulation. Gauss Elimination Method, Gauss Jordan Method, Iteration Methods (Gauss

Siedel Method, Gauss Jacobi Method) 8

References:

1. Introduction to Finite Element Method – Desai and Abel

2. Finite Element Method in Engineering – S.S. Rao

3. Finite Element Methods- Chennakesawa R. Alaval

4. Finite Element Analysis- Tirupati R. Chandruptla

5. Finite Element Method- J.N. Reddy (TMH)

6. Finite Element Analysis- S.S. Bhavikatti

7. Bondery and Finite Element, Theory and problems – J. Ramachadran

8. Basic Concepts of Structural Analysis-Madujit Mukhapadhya and Abdul Hamid Seikh

23

ICE – 021 ADVANCED FOUNDATION DESIGN

L – 3, T – 1, P-0

UNIT-I

Bearing capacity and settlement analysis of shallow foundation, allowable, total and

differential Settlements. 8

UNIT-II

Various factors affecting load carrying capacity of piles, pile load tests, static and

kinematics analysis of pile groups in sand & clays.

8

UNIT-III

Settlement and bearing capacity of pile foundations. Laterally loaded and battered pile.

8

UNIT-IV

Elements of well foundation, shapes, depth of scour, well sinking, tilts, shift and their

prevention. Coffer dam and its types. 8

UNIT-V

Machine foundations and its types, basic terms and definitions, general design criteria of

machine foundation, natural frequency of natural soil system, vibration isolation and

control.

8

References:

1. J. E. Bowles – Foundation analysis and design.

2. V.N.S Murthy – Textbook of Soil Mechanics and Foundation Engineering.

3. Gopal Ranjan & A.S.R Rao –Basic and Applied Soil Mechanics.

24

ICE-022 COMPUTER AIDED DESIGN

L – 3, T – 1, P-0

UNIT-I

Elements of computer aided design and its advantages over conventional design. Types of hardware

required for CAD works. 8

UNIT-II

Principles of software design, concept of modular programming, debugging and testing. 8

UNIT-III

Computer applications in analysis and design of Civil Engineering systems. 8

UNIT-IV

Use of software packages in the area of Structural, Geotechnical, and Environmental fields. 8

UNIT-V

Expert system, their development and applications. Introduction to Neural Networks. 8

References:

1. Computer aided design-S.Rajiv Narosa Publication

2. A.I.and Expert system-Robert L.Lerine &/ iane E Drang. Mc Graw Hill.

3. Neural Computing- Waserman, Vonnostrand.

25

ICE – 023 TRAFFIC ENGINERING L – 3, T – 1, P-0

UNIT-I

Traffic Engineering Principles: Traffic on road, mixed traffic, concept of PCU, Traffic Engineering-

scope and objectives, road user and vehicle characteristics, Traffic characteristics, Hierarchy of Roads,

Typical road cross sections, fundamental definitions, traffic flow parameters, time-space diagram, speed-

flow-density relationship, capacity and level of service, factors effecting level of service.

8

UNIT-II

Traffic Flow Theory and Regulation: Traffic stream and its components, stream parameters, Interrupted

and un-interrupted traffic flow, trajectory diagrams, shock wave theory and it application, queuing theory

and its application.

Traffic Regulation-regulation of speed, regulation of vehicles, regulation concerning drivers, regulation

concerning traffic, parking regulations, general rules, enforcement of regulations.

8

UNIT-III

Traffic Survey and Studies: Traffic Volume study-need, methods, format preparation, analysis and

presentation; Origin Destination study-need, methods, format preparation, zoning, analysis and

presentation; Speed and Delay Study- need, methods, format preparation, analysis and presentation;

Parking Study- need, type of surveys, format preparation, demand estimation, type of parking facilities;

Road Network Inventory Survey- need, format preparation and data collection. 8

UNIT-IV

Traffic Operation and Control: Traffic control devices, Traffic Signs - principles, types and design

considerations; Road Markings-principles, type and design; Traffic Signals - types, optimal cycle length

and signal settings, warrants, designing of traffic signals by Webster’s method and IRC method, signal

approach dimensions; Street Lighting; Street Furniture. 8

UNIT-V

Traffic Management and Intersections: Traffic management measures, Intersections-at grade and grade

separated intersections, rotary intersections and channelization.

Road Safety- Accident situation in India, collection of accident data, collision and condition diagram,

road and its effect on accidents, vehicles and its effect on accidents, drivers, pedestrian safety, cyclist

safety, legislations, enforcement, educations and awareness, road safety audit. 8

References:

1. Traffic Engineering & Transport Planning by LR Kadyali, Khanna Publisher, Delhi

2. Transportation Engineering, an Introduction, C Jotin Khisty,B.Kent Lall, Prentice-Hall India, Delhi

3. Transportation Planning, Principles, Practice and Policies,P.K. Sarkar, Vinay Maitri, G.J. Joshi,

Prentice-Hall, India, Delhi

4. Highway Engineering- S.K.Khanna & C.E.G Justo, Nem Chand & Bros, Roorkee

26

ICE-031 ADVANCED CONCRETE DESIGN

L – 3, T – 1, P-0

UNIT-I

RC Domes: Introduction, Nature of stresses in spherical domes, analysis of spherical domes, Is Code

guide lines for design. Design of RC domes: Under uniformly distributed load, central point load at crown

(with or without opening at crown).

Curved Beam: Introduction, nature of stresses, design philosophy, IS Code guide lines. Design of RC

Curved Beam using IS: 456 guidelines. 8

UNIT-II

RC Overhead Tanks: Introduction, nature of stresses, design philosophy, IS Code guide lines. Design of

Rectangular and Cylindrical water tank using IS-3370 design charts. 8

UNIT-III

Intze Tank: Introduction, Elements of Intze tank, effect of continuity. Design of Intze Tank: Top Dome,

Top Ring beam, Cylindrical wall, Bottom ring beam, Conical dome, Bottom dome, Bottom circular beam

at junction of Tank and Supporting columns, Supporting Column with bracing and Raft foundation.

Reinforcement detailing of different elements of Intze tank. 8

UNIT-IV

Building Frames: Dead, live, wind and earthquake loads. Analysis of framed- building by Substitute

frame, Protal and Cantilever methods. Design of Building Frames. 8

UNIT-V

RC Bridge: Different types, economic span, load, forces and permissible stress, general design

requirements.

Design of RC bridge: Deck slab using effective width concept. Introduction to Pigeaud’s and Courbon’s

theory.

Composite Members: Encased columns- Design concept, guide lines as per IS-800, design of Encased

Columns. 8

References:

1. IS: 3370(Part I, II, III, IV)-1965- Code of practice for concrete structures for the storage of liquids

2. IS: 11682-1985- Criteria for design of R. C. C. staging for overhead water tanks.

3. Advanced Concrete design by N. Krishna Raju

4. Reinforced Concrete Design by O. P. Jain

5. Essentials of Bridge Engineering by D. J. Victor

27

ICE-032 ENVIRONMENTAL POLLUTION CONTROL

L – 3, T – 1, P-0

UNIT-I

Impact on man of environment: The biosphere, hydrologic cycle, nutrient cycles, consequences of

population growth, energy problem, pollution of air, water and land. 8

UNIT-II

Air pollution: Sources and effects, meteorological aspects, air pollution sampling and measurement,

control methods and equipments, control of specific air pollutants. 8

UNIT-III

Water pollution: Sources and classification of water pollutants, wastewater sampling and analysis. 8

UNIT-IV

Land pollution: types of land pollution, solid waste management, generation, storage, collection,

transport, processing and disposal. 8

UNIT-V

Noise pollution: Sources, effects, and preventive measures. 8

Reference books:

1. Peavy, Rowe and Tchobanoglous: Environmental Engineering

2. Metcalf and Eddy Inc.: Wastewater Engineering

3. Garg: Sewage Disposal and Air Pollution Engineering (Environmental Engineering Vol. – II).

28

ICE – 033 REMOTE SENSING IN CIVIL ENGINEERING

L – 3, T – 1, P-0

UNIT-I

Definition of terms, space and airborne imageries, characteristics of photographic images, colour, tone

and texture, techniques of photo interpretation, special equipments, photo-interpretation keys, ground

truth collection and verification, photo-interpretation for selection of civil engineering project sites such

as for buildings, railways and highways etc. 8

UNIT-II

Principles of remote sensing and platform for remote sensing, different platform sensor combinations. 8

UNIT-III

The multiconcept, remote sensing through visible and other bands spectral signals.

Different methods of remotely sensed data interpretation. 8

UNIT-IV

Applications of remote sensing in land use and land cover analysis, water resources management,

Flood zoning and damage estimation, pollution studies, regional planning, survey of natural resources

and engineering work. 8

UNIT-V

Remote sensing satellite and their data products. 8

References:

1. Sabins, F.F. Remote Sensing: principles and Interpretations.

2. ASPRS, Manual of Remote Sensing,Vol.-II

3. Cambell.J.B., Introduction to Remote Sensing

29

ICE – 041 THEORY OF ELASTICITY AND PLASTICITY

L – 3, T – 1, P-0

UNIT-I

The requirements for a solution, solution procedures, the St. Venant,s Principle, stress functions. 8

UNIT-II

Some exact solutions for the bending of beams. Beams of irregular cross-section, Curved beams. Circular

plates. 8

UNIT-III

Membrane theory of shells of revolution and cylindrical shells. 8

UNIT-IV

Stress Distributions due to crakes, & fracture. Variation and energy methods. Numerical methods. 8

UNIT-V

Yield surfaces, Prandtl – Reuse theory and Deformation theory, generalized stress-strain relations,

bending and torsion of prismatic bars, asymmetric problems. Metal forming processes. 8

References:

1. Solid Mechanics by Popov

2. Structural Analysis by Timoshinko

3. Solid Mechanics by S. M. Kazmi

30

ICE-042 PLASTIC DESIGN OF STEEL STRUCTURES

L – 3, T – 1, P-0

UNIT-I

General: Introduction, basic hypothesis, stress- strain relation for mild steel, scope of plastic analysis,

redistribution of moments, concept of shape factor and load facto, scope of plastic collapse- basic

theorems. 8

UNIT-II

General methods for plastic design: Introduction, trial and error method, method of combining

mechanisms, plastic moment distribution method. 8

UNIT-III

Factors affecting fully plastic moments: Introduction, variations of lower yield stress, effect of normal

force, effect of shear force. 8

UNIT-IV

Plastic design: Design of simple, fixed and continuous beams, analysis and design of portal and Gable

frames, design of two bay and two story frames. 8

UNIT-V

Minimum weight design: Assumptions, geometrical analogue and minimum weight theorem, applications,

methods of solution. 8

References:

1. S.K. Duggal, Design of Steel structures, Tata Mc Graw Hill publishing co. India.

2. Arya Ajmani, Design of steel Structures, Wiley Eastern, New York.

3. Vazirani & Ratwani steel Structures, Khanna Publishers Delhi.

4. B. G. Neal, Plastic methods of structural analysis, Chapman and Hall Ltd. Great Britain

31

ICE – 043 OPEN CHANNEL FLOW

L – 3, T – 1, P-0

UNIT-I

Classifications, description, types energy and momentum equation for prismatic and non-prismatic

channels. Uniform flow, critical flow, critical depth, specific energy. Use of Design charts and Semi

empirical relations. 8

UNIT-II

Gradually varied flow, dynamic equation, flow profiles, computation, analytical and graphical methods,

and transitions of sub critical and supercritical flow. 8

UNIT-III

Basic principles and assumptions in analysis of flow profile, methods of numerical integration.

Compound channel, Equivalent Roughness. 8

UNIT-IV

Characteristics of the rapidly varied flow, classification of hydraulic jump, hydraulic jump in horizontal,

and sloping channels, submerged hydraulic jump, jump in gradually and suddenly expanding channels,

empirical solutions. 8

UNIT-V

Flow in channel of non-linear alignment and non-prismatic channel sections, design considerations for

sub critical and super critical flows. Hydraulic design of culvert. 8

References:

1. Flow in Open Channel- Ven Te Chow.

2. Flow through Open Channel- K.G. Ranga Raju.

3. Open Channel Flow- hander son.

4. Flow in Open Channel- K.Subramanya

32

OE-ICE-02 GEOGRAPHIC INFORMATIN SYSTEMS (GIS)

TECHNOLOGY AND ITS APPLICATIONS

L – 3, T – 1, P-0

UNIT-I

Definition of GIS, cartography and GIS, GIS database: spatial and attribute data, spatial models.

Semantics, spatial information, temporal information, conceptual models of spatial information,

representation of geographic information: point, line and area features, topology. 8

UNIT-II

Raster and vector data, raster to vector data conversion, map projection, analytical transformation, rubber

sheet transformation, manual digitizing and semi-automatic line following digitizer. Remote sensing data

as an input to GIS data. 8

UNIT-III

Attribute database: Scale and source of inaccuracy, GIS functionality, data storage and data retrieval

through query, generalization, classification, containment search within a spatial region. 8

UNIT-IV

Overlay: Arithmetical, logical and conditional overlay, buffers, inter-visibility, aggregation. Network

analysis. 8

UNIT-V

Applications of GIS in planning and management of utility lines and in the field of environmental

engineering, geotechnical engineering, transportation engineering and water resources engineering. 8

References:

1. Geographic Information Systems: A Management perspective, by Stan Arnoff, WDL publications.

2. Fundamentals of Spatial Information Systems by Robert laurini and Derek Thompson, Academic

press.

3. Geographical Information Systems, Vol I and II edited by Paul Longley, M.F. Godchild, et.al,

John Wiley and Sons, Inc. 1999.

33

OE- ICE-01: ENVIRONMENT AND ECOLOGY

L – 3, T – 1, P-0

UNIT-I

Environment:

Environment and its components, pollution of environment by human activity, kind of pollution 8

UNIT-II

Water Quality:

Measure of water quality, water quality standards, water treatment, waste water transport and

treatment, sludge treatment and disposal. 8

UNIT-III

Air Quality:

Sources and effects of air pollution, major air pollutants, air quality control, treatment of

emissions, dispersion of air pollutants. 8

UNIT-IV

Solid waste:

Collection of refuse, removal and transport, disposal of refuse.

Noise Pollution: Effect of noise on human health and its control. 8

UNIT-V

Ecology:

Ecology and Ecosystems, concept of ecological imbalances, physical and climate factors, biotic

components, energy and material flows in ecosystems, human influence on ecosystems.

Conservation of Natural Resources: Water resources, mineral recourses, agricultural and forestry

resources, agriculture soil and need of nutrients, fertilizers and pesticides.

Brief introduction about environmental legislation and environmental audit. 8

References:

1. Vesilind, “Introduction to Environmental Engineering,”

Thomson Asia Pvt. Ltd. Singapore.

34

Construction Planning & Management

L T P

2 1 0

Unit – I 8

Introduction to project management processes: Initiating, Planning, Executing, Controlling, and Closing

processes; Project Integration Management - Project plan development, Project plan execution, and

Overall change control;

Project Scope Management: Initiation, Scope planning, Scope definition, Scope verification, and Scope

change control;

Unit – II 8

Contract Management: Legal aspects of contraction, laws related to contracts, land acquisition, labour

safety and welfare. Different types of contracts, their relative advantages and disadvantages. Elements of

tender preparation, process of tendering pre-qualification of contracts, Evaluation of tenders, contract

negotiation and award of work, monitoring of contract extra items, settlements of disputes, arbitration and

commissioning of project

Unit – III 8

Introduction to Networking techniques, rules for networks, Preparation of networks application of

network techniques like PERT, and CPM, introduction to AON and AOA techniques.

Projects monitoring: cost planning, resources allocation through network techniques Line of balance

techniques, time value of money, Equivalence concept financing of projects, economic comparison

present worth method equivalent annual cost method

Unit –IV 8

Equipment Management: Productivity, operational cost, owning and hiring cost and the work motion

study. Construction Equipments for earth moving, Hauling Equipments, Hoisting Equipments, Conveying

Equipments , Concrete Production Equipments

Total No of periods: 32

References:

1. P. Chandra, Projects: Planning, analysis, selection, financing, implementation, and

review, Tata McGraw-Hill, New Delhi, 2009.

2. J. D. Finnerty, Project financing - Asset-based financial engineering, John Wiley & Sons, New

York, 1996.

3. A. S. Goodman and M. Hastak, Infrastructure planning handbook: Planning, engineering, and

economics, McGraw-Hill, New York, 2006

4. J. Parkin and D. Sharma, Infrastructure planning, Thomas Telford, London, 1999.

5. Gajaria G.T., Laws Relating to Building and Engineering Contracts in India, M.M. Tripathi

Private Ltd., Bombay, 1982.

6. “Construction Planning”, Equipment and Methods. : R.L. Peurify. T.M.H., International Book

Company.

7. “PERT & CPM Principles and Applications” L.S. Srinath, E.W.P. Ltd., New Delhi.

8. “Network Analysis Techniques” S.K. Bhatnagar, Willey Eastern Ltd. 4. Construction Technology

by Sarkar , Oxford

35

List of Electives

Open Elective

OE-ICE-01 Environment and Ecology

OE-ICE-02 Geographic Information Systems (GIS) Technology and its Applications

Elective I

ICE-011 Design of waste water system

ICE-012 Transportation system and planning

ICE-013 Finite Element and Finite Difference Method

Elective II

ICE-021 Advanced foundation Design

ICE-022 Computer Aided Design

ICE-023 Traffic Engineering

Elective III

ICE-031 Advanced Concrete Design

ICE-032 Environmental Pollution Control

ICE-033 Remote Sensing in Civil Engineering

Elective IV

ICE-041 Theory of Elasticity and Plasticity

ICE-042 Plastic Design of Steel Structures

ICE-043 Open Channel Flow

36

ANY ONE FROM EACH ELECTIVE

Elective II

CE-021 Advanced foundation Design

CE-022 Computer Aided Design

CE-023 Traffic Engineering

Elective III

CE-031 Advanced Concrete Design

CE-032 Environmental Pollution Control

CE-033 Remote Sensing in Civil Engineering

Elective IV

CE-041 Theory of Elasticity and Plasticity

CE-042 Plastic Design of Steel Structures

CE-043 Open Channel Flow