1

PREFACE

Engineering education is continuous accumulation of growing knowledge and experience. Many topics which were of specialized nature a decade ago are now of common use. The present syllabi for the eight-semester Under Graduate course and four-semester Post Graduate course have been updated so as to expose the students to the latest methods in Engineering Analysis, Design and Construction techniques.

This booklet contains the revised course structure and syllabi recommended by board of studies of the Civil Engineering Department, endorsed by faculty of Engineering and Technology and approved by Academic Council of AMU, Aligarh.

I sincerely thank all the colleagues of the department who helped in revising the syllabi. I express my gratefulness to Prof. V.P. Mital, Prof. R.U. Khan, Prof. P. A. Saini, Prof. M. M. Ashhar, Prof. S.S. Shah, Prof. H. Abbas, Mr. F. Ghani, Mr. S.A. Khan, Dr. A. Baqi, Dr. Mohd. Arif, Dr. Mohd. Muzammil and Dr. M. Athar for their useful comments and suggestions.

Special thanks are due to Mr. Sabih Akhtar for coordinating the whole process of syllabi revision, which took almost three years. He was also instrumental in the development of some of the syllabi of his area of interest. His effort in the preparation of manuscript in presentable form is highly appreciated.

Mohd. JamilProfessor and ChairmanDepartment of Civil EngineeringZakir Husain College of Engineering and TechnologyAligarh Muslim UniversityAligarh-202 002, India.

October 15, 2006

2

CONTENTS

Page No.

General Information of the Department 2

Course Structure B. Tech Programme 14

Syllabi B. Tech Programme 26

Course Structure M. Tech Programme 85

Syllabi M. Tech Programme 94

3

DEPARTMENT OF

HISTORICAL PERSPECTIVE1936 Zakir Husain College of Engineering

and Technology was established 1942 U. G. Course in Civil Engineering was

started1965 P. G. Courses in Civil Engineering was

introduced1969 Doctoral Program in Civil Engineering

was started

4

INTRODUCTION

The Department of Civil Engineering in the Faculty of Engineering and Technology, has been constantly contributing to the cause of engineering education and training right since its inception in the year 1942. Over the last five decades, the department has grown manifold and shared immensely in the technology transfer and the propagation of technological advancements to the industry in particular and to the masses in general. With the changing technological order across the country and the globe, the department too, has maintained pace in becoming at par with the latest and most sophisticated R&D, design, testing, instrumentation and computation facilities etc. The training and education of the personnel in a wide range of fields has been a constant endeavor of the department over these years. The department has a very well qualified faculty supported by excellent laboratories and the state of the art computing facilities. The department owns a rich library having 9000 text and reference books. Many research projects sponsored by A.I.C.T.E., U.G.C., D.S.T., C.S.I.R., D.R.D.O., C.S.T. (U.P.), Ministry of Environment and Forest and Indian Oil Corporation, Govt. of India have been successfully completed in the past. The faculty members have published significant number of Research papers in International Journals, National Journals and the Proceedings of various International and National Seminars, Conferences, Symposia and Workshops. The faculty members have also published several textbooks and prepared an appreciable number of Technical Reports, Laboratory Manuals, and other Teaching Aids. The faculty members also have to their credit many awards such as Khosla Award, Suchit Kumar memorial Award, Institution of Engineers (I), Khosla Research Prize, ISET Best Paper award, Deshpande award (FM & FP, India), Jai Krishna Award, Sir Arthur Cotton Memorial Gold Medal to name a few. Many faculty members have chaired technical session of different National and International meets and have also been the members of the various technical committees within the country and abroad as well. The research publications of the faculty members have been widely cited and some of the faculty members are also the reviewers of International Journals. At the under graduate level, the Civil Engineering Department offers B. Tech. (Civil) course and at the post graduate level M. Tech. course is offered in three major fields of specialization viz. Structural Engineering, Hydraulic

5

Structures, and Environmental Engineering. At the Doctoral level, the Department offers Ph. D. in Structural Engineering, Hydraulic Structures, Environmental Engineering and Geotechnical Engineering. Zakir Husain college of Engineering and Technology is one among the seven institutes identified by M.H.R.D., Government of India, for the upgradation to the level of Indian Institute of Technology (I.I.T.). First installment of the grant for this purpose has already been received and the process of upgradation has begun with the upgradation of laboratories. The process of upgradation is expected to take five more years during which period the department is expected to become at par with I.I.T. The department of Civil Engineering is playing a major role in the development of infrastructure required for the purpose.

ACADEMIC PROGRAMMES

Name of the Programme Duration(years)

Intake

B. Tech. (Civil Engg.) 4 60B. E. (Civil Eng.), Evening Course 4 30

M. Tech.Structural Engg. 2 16Environmental Engg. 2 16Hydraulic Structures 2 10

Ph. D. (Civil Engg.) 3 -

6

MAJOR THRUST AREAS OF THE DEPARTMENTThe following are the major thrust areas of the department:

Structural Engineering Fibre Composites and New Construction Materials Transient Dynamic Analysis of Structures Structural Masonry Experimental Stress Techniques and Non-Destructive Testing Numerical Modelling and Optimization Techniques Reliability Analysis and Risk Assessment of Structures Earthquake Resistant Low Cost Housing Wind Engineering Offshore Structures Corrosion Engineering Fly ash Utilization Instrumentation Technique, Application of Optical Fibre

Hydraulic EngineeringSediment Transport and Flow Through Porous MediaHydraulic StructuresHydrologyComputational Hydraulics

Geotechnical EngineeringFly Ash Utilization and Disposal Ring/Annular/Shell and Pile FoundationsSoil Structure Interaction and Environmental Geo-TechnologyApplication of Geo-synthetics in Ground Improvement Techniques

Environmental EngineeringHazardous and Solid Waste ManagementPhysico Chemical Treatment ProcessesCorrosion ControlAir PollutionModelling and Simulation of Treatment Processes

7

LABORATORIES

StructuresStructural Mechanics LaboratoryConcrete LaboratoryStructural Dynamics LaboratoryHeavy Structures LaboratoryPolymer Concrete LaboratoryComposite Materials LaboratoryDrawing Hall

Hydraulics Hydraulics U.G. Laboratory Hydraulics P.G. Laboratory Advanced Hydraulics Laboratory

Environment Environmental Engg. U.G. LaboratoryEnvironmental Engg. P.G. LaboratoryEnv. Engg. Research Laboratory

Geotechnical Soil Mech. & Trans. Laboratory Engineering Geology Laboratory

Surveying Surveying Laboratory

FACULTY MEMBERS

8

Structural Engineering

Prof. V.P. Mital, B. Sc. Engg. (Aligarh), Ph. D. (U.K.)Prof. H. Abbas, B.Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (Roorkee)Mr. F. Ghani, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. S. A. Khan, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. S. A. Ali, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. T. Ahmad, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (AMU)Dr. A. Baqi, B.Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (Roorkee)Dr. M. Arif, B. Sc. Engg. (Aligarh),M.Sc. Engg. (Aligarh),

Ph. D. (Roorkee)Dr. T. Naqvi, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (IIT-D)Dr. S. Ahmad, B. Sc. Engg. (Aligarh), M.E. (Roorkee),

Ph.D. (Roorkee)Mr. A. Masood, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Lt. F. Mehdi, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Dr. M.S. Jafri, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (IIT-D)Dr. A. Umar, B. Sc. Engg. (Aligarh), M.Tech. (IIT,D), Ph. D.(IIT-D)Dr. N. A. Siddiqui, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (IIT-D)Mr. H. Irtaza, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. S. Akhtar, B. Sc. Engg. (BU), M.Sc. Engg. (Aligarh)Mr. I. K. Khan, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)

Hydraulic Engineering

9

Prof. M. Jamil, B. Sc. Engg. (Aligarh), M.E. (Roorkee)Prof. R.U. Khan, M.E. (Roorkee), D.I.P.H.E. (Netherlands)Dr. M. Muzammil, B. Sc. Engg. (Aligarh), M.Tech. (IIT-K),

Ph.D. (IIT-K)Dr. S.A. Ansari, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (Roorkee)Dr. M. Athar, B. Sc. Engg. (Aligarh), M.E. (Roorkee),

Ph .D. (Roorkee)Dr. T. Mansoor,), B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph .D. (Roorkee)Mr. M. Beg, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. M.A. Ansari, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)

Geotechnical Engineering

Prof. S.S. Shah, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh), Ph.D. (Aligarh)

Mr. M.S. Ahmad, B. Sc. Engg. (Aligarh) ,M.Sc. Engg. (Aligarh)Mr. M.A. Khan, B. E. (Aligarh), M.Sc. Engg. (Aligarh)Dr. M.M. Alam, B. Sc. (Aligarh), M.Sc. (Aligarh), Ph.D. (Aligarh)

Environmental Engineering

Prof. P.A. Saini, B. Tech. (IIT,K), M.Tech. (IIT,K), Ph.D. (IIT,K)Prof. M.M. Ashhar, B. Sc. Engg. (Aligh.), M.Sc. Engg. (Aligarh)Dr. N.A Khan, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph.D. (Roorkee)Dr. I.H. Farooqui, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh),

Ph. D. (Aligarh)Mr. A.A. Siddiqui, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)Mr. N. Khaleel, B. Sc. Engg. (Aligarh), M.Sc. Engg. (Aligarh)

10

ACHIEVEMENTS

Publications

Publications in Last Five Years (2000-05)International Journals 45National Journals 43International Conferences 72National Conferences 98

Research Guidance

Level Last five Years (2000-05)M. Tech. Produced 130Ph. D. Produced 3Ph. D. in progress 15

Books Authored By Faculty

Author TitleH. Abbas Reinforced Cement Concrete Structures - II

(IGNOU reading material)H. Abbas Advances in Dynamics and Impact Mechanics

(Chapter with Prof. N. K. Gupta, WIT, UK)S. A. Raz Structural AnalysisS. A. Raz Design of Steel StructuresM. Y. Ansari Design of Irrigation WorksR. A. Khan Engineering GraphicsS. Afzal Ali Engineering Drawing

11

Awards Won By Faculty

Young Scientist Award, UPCST ISWE Best Paper Award Jalvigyan Purskar, ISH Khosla Award Suchit Kumar Memorial Award, IOE Khosla Research Prize ISET Best Paper Award IGS Best Paper Award Desh Pande Award (FM & FP, India) Jai Krishna Award Sir Arthur Cotton Memorial Gold Medal N.C. Saha Award

Recognitions

Visiting Professor, University of LiverpoolChaired Technical Sessions of International/National

ConferencesMember of various Technical CommitteesReviewer of International JournalsInvited Lectures

Others

Citations in Journals 26Research Projects Completed (Last 5 yrs.) 13

(Total Grant = 106.4 Lakhs)Conferences/Workshops/ 04

Courses Organised (Last 5 yrs.)Monographs, Teaching Aid Developed 04Software Packages Developed 04Consultancy Projects Completed 135FIST grant of Rs. 40 Lakhs from DST

FUTURE TARGETS

12

To upgrade and modernise existing laboratories

To start following new courses:

o M. Tech. (Disaster Mitigation) by 2007 o M. Tech. (Environmental Biotechnology) by 2007 o M. Tech. (Water Resource Management) by 2008o M. Tech. (Geotechnical Engineering) by 2008 o M. Tech. (Construction Management) by 2008

To establish following new laboratories:

Environmental Biotechnology Laboratory (M. Tech.)Rock Mechanics Laboratory (M. Tech.)Composite Materials LaboratoryNon Destructive Testing LaboratoryAdvanced Corrosion Research LaboratoryGeographical Information System LaboratorySediment Transport LaboratoryWind TunnelTransportation Engineering LaboratoryMobile Testing Laboratory

CHAIRMEN OF DEPARTMENT

13

S. No. Name Period1. Khan Bahadur Abdur Rahman Khan 1942-432. Dr. M. S. Qureshi 1944-453. Mr. Sher Ali Ismaili 1945-484. Prof. F. M. P. Arbuthonot 1948-495. Dr. K. C. Chakko 1950-546. Khan Bahadur Hamidullah Khan 1954-587. Prof. M. Ather 1958-598. Dr. K. C. Chakko 1959-619. Prof. M.Y. Ansari 1961-7110. Prof. Rasheeduzzafar 1971-7211. Prof. S. M. Masjood Hasan 1972-7312. Prof. M.Y. Ansari 1973-7513. Prof. Rasheeduzzafar 1975-7714. Prof. Shameem Ahamd 1977-8115. Prof. M.Y. Ansari 1981-8416. Prof. S. M. Masjood Hasan 1984-8717. Prof. Shameem Ahmad 1987-9018. Prof. Aslam Qadeer 1990-9319. Prof. Mohd. Haroon 1993-9320. Prof. Roshan A. Khan 1993-9321. Prof. Alimul Qadar 1993-9622. Prof. R. D. Gupta 1996-9923. Prof. V. P. Mital 1999-0224. Prof. S. Qaiser A. Naqvi 2002-0525. Prof. Mohd. Jamil 2005-

FEW OF OUR DISTINGUISHED ALUMNI

14

Name Position(s) HeldV. K. Agrawal Former Chairman, Railway BoardR. N. Malhotra Former Chairman, Railway BoardS. Z. Hasan Former Secretary, Ministry of Water

Resources, Govt. of IndiaSatish Chandra Former Chairman, CWC, IndiaTahir Husain Professor, Univ. of New Foundland, CanadaShakir Husain Professor, University of Mississippi, USAR. A. Siddiqui Traffic Controller, NY Highway Dept., USAM. A. A. Fatmi Minister of State, MHRD, Govt. of IndiaZafar Iqbal Former Indian Hockey Captain & CoachWaseem Ahmad Former Member Rajya SabhaMohd. Sulaiman Former District Magistrate, IndoreMd. Aqeel Former Secy. To Chief Minister, HaryanaS. M. A. Kazmi Former Professor, IIT Delhi and Design

Consultant

15

Course Structure

B. Tech. Programmein

Civil EngineeringUnder semester system effective for the students admitted in the Session 2005-2006 & onward

16

First Semester - I Year B.Tech. (Civil Engineering)S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits

(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.

Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P/D

1. HM EN-101 English 3 1 - 4 15 25 60 32. BS AP-101 Applied Physics-I 2 1 - 3 15 25 60 33. BS AC-101 Applied

Chemistry-I2 1 - 3 15 25 60 3

4. BS AM-101

Applied Mathematics-I

4 1 - 5 15 25 60 3

5. ESA EE-101 Basic Electrical Engineering

2 1 - 3 15 25 60 3

6. ESA ME-101 Thermal Sciences 3 1 - 4 15 25 60 37. ESA ME-103 Engg. Mechanics 3 1 - 4 15 25 60 38. BS AP-191 Applied Physics

Lab.-I- - 2 1 60 - 40 -

9. BS AC-191 Applied Chemistry Lab.-I

- - 2 1 60 - 40 -

10. ESA ME-191 Manufacturing Process Lab-I

- - 3 1.5 60 - 40 -

TOTAL 19 7 7 29.5 - - - -L= Lecture, T=Tutorial, P=Practical

17

Second Semester - I Year B.Tech. (Civil Engineering)S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits

(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.

Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P/D

1. ESA CO-101 Computer and Programming

2 2 - 4 15 25 60 3

2. BS AP-102 Applied Physics-II 2 1 - 3 15 25 60 33. BS AC-102 Applied Chemistry-II 2 1 - 3 15 25 60 34. BS AM.102 Applied

Mathematics-II4 1 - 5 15 25 60 3

5. ESA EL-101 Basic ElectronicsEngineering

2 1 - 3 15 25 60 3

6. ESA ME-102 Engg. Graphics 1 3 - 4 40 20 40 37. ESA CE-101 Strength of Material 3 1 - 4 15 25 60 38. BS AP-192 Applied Physics

Lab.-II- - 2 1 60 - 40 -

9. BS AC-192 Applied Chemistry Lab.-II

- - 2 1 60 - 40 -

10. ESA ME-192 Manufacturing Process Lab-II

- - 3 1.5 60 - 40 -

TOTAL 16 10 7 29.5 - - - -

18

Third Semester - II Year B.Tech. (Civil Engineering)S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits

(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.

Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P/D

1. BS AM-211 Mathematics - III 3 1 - 4 15 25 60 32. DC CE-212 Civil Engineering

Materials3 1 - 4 15 25 60 3

3. ESA CE-213 Fluid Mechanics 3 1 - 4 15 25 60 34. ESA CE-214 Environmental

Science3 1 - 4 15 25 60 3

5. ESA CE-215 Engineering Geology

3 1 - 4 15 25 60 3

6. DC CE-291N Civil Engg. Materials Lab.

- - 3 1.5 60 - 40 3

7. DC CE-292 Fluid Mechanics Lab.

- - 3 1.5 60 - 40 3

8. ESA CE-293N Geology Lab. - - 2 1 60 - 40 39. DC CE-297N Drawing &

Estimating- - 3 1.5 60 - 40 3

TOTAL 15 5 11 25.5 - - - -

Fourth Semester - II Year B.Tech. (Civil Engineering)

19

S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits

(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.

Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P/D

1. HM ME-240 Economics & Management

3 1 - 4 15 25 60 3

2. BS AM-212 Mathematics - IV 3 1 - 4 15 25 60 33. DC CE-216 Structural

Mechanics3 1 - 4 15 25 60 3

4. DC CE-217 Construction Practice

3 1 - 4 15 25 60 3

5. DC CE-218 Surveying – I 3 1 - 4 15 25 60 36. DC CE-219 Hydrology 3 1 - 4 15 25 60 37. DC CE-294 Structural

Mechanics Lab.- - 3 1.5 60 40 3

8. DC CE-295 Surveying Lab. – I - - 3 1.5 60 - 40 39. ESA CE-

296NEngg. Geology Camp

- - - 1 100 - -

TOTAL 18 6 6 28 - - - -

Fifth Semester – III Year B.Tech (Civil Engineering)

20

S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits

(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.

Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P/D

1. DC CE-311 Design of Concrete Structures – I

3 1 - 4 15 25 60 3

2. DC CE-312 Soil Mechanics 3 1 - 4 15 25 60 33. DC CE-313N Environmental

Engineering3 1 - 4 15 25 60 3

4. DC CE-314 Surveying - II 3 1 - 4 15 25 60 35. DE CE-xxx DE-I 3 1 - 4 15 25 60 36. DE CE-xxx DE-II 3 1 - 4 15 25 60 37. DC CE-391 Soil Mechanics

Lab.- - 2 1 60 - 40 3

8. DC CE-392 Environmental Engg. Lab.

- - 3 1.5 60 - 40 3

9. DC CE-393 Surveying Lab. – II - - 3 1.5 60 - 40 310. DC CE-394 Survey Camp - - - 1 100 - - -

TOTAL 18 6 8 29 - - - -

Sixth Semester – III Year B.Tech. (Civil Engineering)

21

S.No

CourseCategory

CourseNo.

Course Title Periods per Week

Credits(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.ExamMarks

End-Sem.Exam

Duration(Hours)

L T P/D

1. HM HU-302 Communication Skills

2 2 - 4 40 20 40 3

2. DC CE-315 Structural Analysis-I 3 1 - 4 15 25 60 33. DC CE-316 Engineering

Hydraulics - I3 1 - 4 15 25 60 3

4. DC CE-317 Transportation Engineering

3 1 - 4 15 25 60 3

5. DC CE-318N Design of Steel Structures

3 1 - 4 15 25 60 3

6. DE CE-xxx DE - III 3 1 - 4 15 25 60 37. DC CE-395 Structures Lab. - - 3 1.5 60 - 40 38. DC CE-396 Hydraulics Lab. - - 3 1.5 60 - 40 39. DC CE-397N Transportation

Engg. Lab.- - 2 1.0 60 - 40 3

TOTAL 17 7 8 28 - - - -

Seventh Semester – Final Year B.Tech (Civil Engineering)

22

S.No

CourseCategory

CourseNo.

Course Title Periods per Week

Credits(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P*/D

1. DC CE-411 Design of Concrete Structures – II

3 1 - 4 15 25 60 3

2. DC CE-413 Foundation Engineering

3 1 - 4 15 25 60 3

3. DE CE-xxx DE – IV 3 1 - 4 15 25 60 34. DE CE-xxx DE – V 3 1 - 4 15 25 60 35. OE OE –I 3 1 - 4 15 25 60 36. DC CE-490A Project (Contd.) 1 2 - 3** 30 - - -7. DC CE-491N Concrete Design

Practice- - 2 1 60 - 40 3

8. DC CE-492N Steel Design Practice

- - 2 1 60 - 40 3

9. DC CE-498N Vocational Training - - - 1.5 100 - -

TOTAL 16 7 4 26.5 - - - - *Design period **Incomplete grade (I) is to be assigned to the students, which will be converted to regular grade at VIII Semester Level

23

Eighth Semester – Final Year B.Tech. (Civil Engineering) S.No

CourseCategory

CourseNo.

Course Title Periods per Week Credits(Cr)

CourseWorkMarks

Mid-Sem.ExamMarks

End-Sem.Exam.Marks

End-Sem.Exam

Duration(Hours)

L T P*/D

1. HM CE-410 Construction Management

3 1 - 4 15 25 60 3

2. DC CE-414 Engineering Hydraulics - II

3 1 - 4 15 25 60 3

3. DC CE-415 Irrigation Engineering

3 1 - 4 15 25 60 3

4. DE CE-xxx DE - VI 3 1 - 4 15 25 60 35. OE OE - II 3 1 - 4 15 25 60 36. DC CE-

493NIrrigation Design of Works

- - 2 1 60 - 40 3

7. DC CE-490B

Project 1 2 - 3 40 - 30 3

TOTAL 16 7 2 24 - - - -

24

(A) Departmental Electives (DE) for the students of B. Tech (Civil Engineering)Sem-esterSem Elective

DesignationCourse

No.Course Title

V DE-I CE-421 Concrete TechnologyCE-422 Ecology & EnvironmentCE-423 Traffic EngineeringCE-424 Ground Water Engg.

DE-II CE-425 Advanced HydrologyCE-426 Environmental Pollution

AbatementVI DE-III CE-427 Geo-Engg. of Rock &

Rock MassesCE-428 Dam Engineering CE-429 Industrial Pollution

ControlVII DE-IV CE-430 Structural Analysis II

CE-431 Reliability Analysis of Structures

DE-V CE-432 Water Power Engineering CE-433 Advanced Highway Engg.

Sem-esterSem ElectiveDesignation

Course No.

Course Title

VII DE-V CE-434 Bridge EngineeringCE-435 Design of Energy

DissipatersCE-436 Sediment TransportCE-437 Pre-stressed Concrete

VIII DE-VI CE-438 Advanced Structural Analysis

CE-439 Industrial StructuresCE-440 Advanced Hydraulic

StructuresCE-441 Advanced Foundation

EngineeringCE-442 Advanced

Environmental Engg.CE-443 River EngineeringCE-444 Disaster ManagementCE-445N Elements of E.Q and

Wind Engineering

25

(B) Open Electives* (OE) offered by Civil Engineering DepartmentS. No. Course No. Course Title Credit

1. CE-481 Fundamentals of Environmental Engineering* 42. CE-482 Remote Sensing 43. CE-483 Water Resources and Watershed Management 44. CE-484 Project Management 4

Core Courses to be taught by Civil Engineering Department to the Students of B.Arch.

26

Semester/Class Course No Course Title Pds/Week Credits(Cr)L T P/D

II Sem B.Arch. CE-101 Strength of Materials 3 1 - 4III Sem B.Arch. CE-212 Civil Engineering Materials 3 1 - 4III Sem B. Arch. CE-291N Civil Engineering Materials Lab. - - 3 1.5IV Sem B.Arch. CE-218 Surveying -I 3 1 - 4IV Sem B.Arch. CE-295 Surveying Laboratory - I - - 3 1.5V Sem B.Arch. CE-312 Soil Mechanics 3 1 - 4V Sem B.Arch. CE-311 Design of Concrete Structures I 3 1 - 4VI Sem B.Arch. CE-315 Structural Analysis-I 3 1 - 4VI Sem B.Arch. CE-318N Design of Steel Structures 3 1 - 4VII Sem B.Arch. CE-411 Design of Concrete Structures-II 3 1 - 4VII Sem B. Arch. CE-413 Foundation Engineering 3 1 - 4VIII Sem B.Arch. CE-410 Construction Management 3 1 - 4

Breakup of CreditsSemester Course Category

BS ESA DC DE OE HM TotalI & II 26 29 - - - 4 59III 4 13 8.5 - - - 25.5IV 4 1 19 - - 4 28V - - 21 8 - - 29

27

VI - - 20 4 - 4 28VII - - 14.5 8 4 - 26.5VIII - - 12 4 4 4 24Total 34 43 95 24 8 16 220BS = Basic Sciences, ESA=Engineering Science and Arts, DC=Departmental Core, DE=Departmental Elective, OE=Open Elective, HM=Humanities

28

Syllabi

B. Tech. Programme

29

II Semester

CE – 101 Strength of MaterialsCourse Category : DC L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Analysis of stress and strains; Elastic and plastic behaviour of engineering materials; Mechanical properties; Analysis of simple state of stress and strain; Elastic constants, Examples of the state of tension, compression and shear.

Unit 2 Analysis of two and three-dimensional stresses and strains; Analytical and graphical methods; Principal stress and strain; Introduction to failure criteria

Unit 3 Analysis of determinate structures; Bending moment and shear force for single span; Overhanging and cantilever beams, Relationship between rate of load, bending moment and shear force.

Unit 4 Stresses in beams; Bending stresses in symmetrical sections, solid thin walled and composite sections, Efficiency of shapes, Shearing stress in symmetrical sections; Unsymmetrical sections, solid thin walled and composite section.

Unit 5 Torsion; Relation between twisting moment, shear stress and angle of twist, Torsion in circular shaft, Torsion in non circular sections, Engineer’s approach; Unsymmetrical bending and shear center.

Text/Reference Books:1. Popov, E., “Engineering Mechanics of Solids”, PHI, Delhi,

India.2. Timoshenko, S. and Young, D. H., “Elements of Strength

of Materials”, DVNC, New York.3. Kazmi, S. M. A., ‘Solid Mechanics” TMH, Delhi, India.

30

III Semester

CE – 212 Civil Engineering MaterialsCourse Category : DC L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1 Cement and Aggregates: Methods of manufacturing of cement and its chemistry; Kinds of cement and their properties; Hydration mechanism, Testing of cement; Grading, Shape and texture of aggregates; properties of aggregates.

Unit 2 Properties of fresh concrete: Tests on fresh and hard concrete; Factors affecting strength of concrete; Durability of concrete, Introduction to mix design – IS code method.

Unit 3 Bricks: Constituents of brick earth and their properties; Manufacture of bricks, classification and tests for quality control; Properties of masonry units and masonry mortar; Stone their types and uses; Classification of lime, setting of lime, Specifications

Unit 4 Timber: Structure and characteristics of hard and soft wood; Engineering applications; Defects in timber, Seasoning, preservation, fire proofing; Plywood, black boards and fire boards; Steel; types and mechanical properties (ductility and strength) of mild steel, cold worked steel etc.; Effect of heat and fire resistance.

Unit 5 Properties and uses of Glass, Asbestos, Bitumen, Plastics etc.; Industry and environment, use of waste; Alternative and non standard construction materials.

Text / Reference Books:Naville, A.M., “Properties of Concrete”, Longman, Naville, A.M., “Concrete Technology”, Longman, Gambhir, M. L., “Concrete Technology”, TMH, New Delhi, India.Singh, S., “Engineering Materials”, Konark, Delhi, India.

31

CE-213 Fluid MechanicsCourse Category : ESA L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Kinematics of fluid flow: Introduction, Fluids Properties and classification. Concept of viscosity, Compressibility and Elasticity, Surface tension and capillarity. Flow Classification, Stream lines, Streak lines, Continuity equation, Velocity, Tangential, Normal, Local and Convective Accelerations, Types of fluid motions, rotation, Circulation, Velocity potential, Stream function, Flownet.

Unit 2 Hydrostatics: Pascal law, Hydrostatic law, Relative equilibrium, Pressure measurements, Mano-Meters, Forces on immersed plane and curved surfaces, Buoyancy, Stability of floating and submerged bodies.

Unit 3 Equation of Motion: Bernoulli’s equation, Energy correction factor, Coefficients of contraction, velocity and discharge, Differential head meters, Free vortex motion, Analysis of free liquid Jet, Cavitation. Linear momentum equation, Force on pipe junctions and bends, Forces on moving plates and vanes due to fluid flow, Angular momentum, Forced vortex.

Unit 4 Flow Measurement: Orifices, Mouth pieces, Weirs, Flow under sluice gates. Time of empting tanks with or without inflow, Flow of liquid from one vessels to another.

Text /Reference Books:1. P.N. Modi and S.N. Seth, “Hydraulics and Fluid Mechanics”,

Standard Book House, Delhi, India.2. S. Ramamnitham, “Hydraulics and Fluid Mechanics”, Dhanpat

Rai & Sons, Delhi, India.3. Shames, “Mechanics of fluids”, Mc Eraw-Hill, Auckland, N.

Land.4. V.L. Streeter, “Fluid Mechanics”, Mc Graw-Hill,

N.Y.,USA.5. R.J. Garde, “Fluid Mechanics” RPH, Roorkee, India.

32

CE – 214 Environmental ScienceCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Units of measurements, water quality, drinking water standards, water borne diseases, water pollution, wastewater characteristics, reaction kinetics, impact of wastewater discharge on streams

Unit 2 Analysis of Material flow and Energy flow, Stochiometry, Solubility product, Oxidation reduction Reactions, Neutralisation, Nutrient cycles, Fundamentals of Microbiology, Growth kinetics, Chemical transformation by bacteria, organic matter decomposition – aerobic and anaerobic, eutrophication.

Unit 3 Air pollution – sources, effects and control, Basic meteorology, Human environmental disturbances – green house effects, acid rains, ozone layer depletion. Noise pollution – concept of sound, health effects, measurements and control

Unit 4 Introduction to water and wastewater treatment operations – removal of organics and inorganics, suspended material removal, sludge treatment,Solid waste – characterisatics treatment and disposal, Hazardous wastes

Text Book:Howard S. Peavy, et. al, “Environmental Engineering”’ McGraw-Hill, Delhi, India.

Reference Book:Sawyer and McCarty, “Chemistry for Environmental Engineering” McGraw-Hill Delhi, India

33

CE – 215 Engineering GeologyCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1. General Geology: Introduction to the Earth Sciences. Elementary idea about the internal structure of the earth. The elementary knowledge of the physical properties of the common rock forming minerals. Introduction to the major group of rocks, mode of origin, classification and properties.

Unit 2. Geomorphology and Structural Geology: Fundamental concepts of study of landforms. Weathering and soil formation. Elementary idea of the geological work of glacier, river, sea waves and wind and their engineering significance. Deformation of the rocks. Dip, strike and structural features including fold, fault, joint and unconformity and their engineering significance.

Unit 3. Stratigraphy and Hydrogeology: Geological time scale. Fundamentals of stratigraphy. Physiographic and geotectonic divisions of India. Distribution of rocks of different ages in India.Concepts of porosity and permeability, water table and types of aquifers. Occurrence and vertical distribution of water in soil and rocks.

Unit 4. Earthquake, Mass Movements and Site Investigation: Earthquake, causes, types, intensity and magnitude. Engineering designs and precautions. Landslides, stability of hill slopes and road cuttings. Factors in site selection, alignment and construction of dam, reservoir, bridge and tunnel.

Unit 5. Geotechnical properties of Rocks and Rock Masses: Rocks as construction material. Common tests, occurrence and distribution of the building stones, road and rail ballast in India.Engineering properties and geomechanical classification of rock mass.

Text /Reference Books:1. Prabin Singh, “Engineering and General Geology”, Kataria

Pubs., Delhi, India.2. P.K., Mukherjee, “A Text Book of Geology”, World Press,

Calcutta, India.3. M.C. Kesavalu, “Text Book of Engineering Geology”, CBS

Pubs., New Delhi, New Delhi.

34

4. P.D., Krynine and W.R. Judd, “Principles of Engineering Geology and Geo techniques”, CBS Pubs. New Delhi.

BIS Codes:

5. IS : 1125, “Determination of weathering of natural building stones” BIS, Govt. of India.

6. IS : 1126, Determination of durability of natural building stones. BIS, Govt. of India

7. IS : 7422, Part I to V (1974), Symbols and abbreviations for use in Geological maps, sections, subsurface exploratory logs. BIS, Govt. of India.

8. IS : 1893,(1984), Criteria for earthquake resistance design. BIS, Govt. of India.

35

CE – 291 Civil Engineering Materials Lab.Course Category : DC L - T -.P : 0 - 0 – 3 Credit : 1.5

List of experiments:

Tests on Cement: Test on fresh Concrete:1. Normal Consistency 7. Effect of Water-Cement ratio2. Setting time and soundness 8. Slump and Compaction Factor3. Compressive Strength4. Tensile Strength Structural Element testing:

9. Test on RC beams.Tests on Aggregates:5. Fineness Modulus 6. Bulking and Silt content

CE-292 Fluid Mechanics LabCourse Category: DC L - T - P : 0 - 0 – 3 Credit :1.5 List of Experiments:

1. Flow over weirs and notches2. Verification of Bernoulli’s Theorem3. Discharge through an Orifice4. Centre of Pressure5. Impact of Liquid jets6. Head losses through sudden contraction and enlargement

CE-293N Engg. Geology LabCourse Category: ESA L - T - P : 0 - 0 - 2 Credit :1.0

List of experiments:

Part A: Topographic and Geological Maps1. Contours and contour patterns.2. Understanding topographic maps.3. Understanding geological / structural maps4. Drawing of geological sections of structural maps of:

(a) Horizontal rocks, (b) Vertical rocks, (c) Inclined rocks, (d) Maps with unconformity, (e) Maps with fold, (f) Maps with fault.

Part B:1. Identification of common rock forming minerals on the basis of

physical properties.2. Identification of common rocks on the basis of physical properties.

36

CE – 297N Drawing and Estimating Course Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Drawing No. 1 Index plan with estimation of boundary wall Drawing No. 2 Plan, sectional elevation and foundation plan of two

room setDrawing No. 3 Different types of staircase, size of stair well, plan and

section of staircaseDrawing No. 4 Planning of duplex unitDrawing No. 5 types of bondsDrawing No. 6 Single line drawing of laying of sewer line, fixation of

plinth level

37

IV SemesterCE – 216 Structural MechanicsCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Analysis of statically determinate trusses; Stability of dams, retaining walls and chimneys; Stress analysis of thin, thick and compound cylinder

Unit 2 Generalized state of stress and strain: Stress and strain tensor, Yield criteria and theories of failure; Tresca, Von-Mises, Hill criteria, Heigh-westerguard’s stress space.

Unit 3 Deflection of beams; Load deflection relationship of beam, Deflection calculation by double integration, moment area and conjugate beam methods.

Unit 4 Energy methods; Strain energy, elastic, complementary and total strain energy, Strain energy of axially loaded bar, Beam in bending, shear and torsion; General energy theorems, Castigliano’s theorem, Maxwell Bettie’s reciprocal theorem; Virtual work and unit load method for deflection, Application to problems of beams and frames.

Unit 5 Structural stability; Stability of columns, Euler’s formula, end conditions and effective length factor, Columns with eccentric and lateral load.

Text/Reference books1. Norris, C.H. and Wilber, J. B. and Utku, S. “Elementary

Structural Analysis” Mc Graw Hill, Tokyo, Japan.1. Timoshenko, S. and Young, D. H., “Elements of Strength of

Materials”, DVNC, New York, USA.2. Kazmi, S. M. A., ‘Solid Mechanics” TMH, Delhi, India.

38

CE – 217 Construction PracticeCourse Category : DC L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1 Building planning, site selection, orientation, principles of planning the building, open air space, requirement of parts of buildings, lighting and ventilation, requirements of various rooms, Building bye laws.

Unit 2 Components of building and their purpose and types; foundations, walls, columns, roofs, doors, windows; Bands and openings in the buildings - seismic requirements; Vertical transport in structures; Building finishes; Basic design of foundation of buildings, Terms used in brick masonry, Bond and types of mortars.

Unit 3 Excavation, dewatering, shoring, underpinning and scaffolding, drilling, blasting, well sinking and pile driving, cofferdams, form work-fabrication and use. Construction techniques for special structures such as high-rise buildings, road construction, dams, bridges, offshore platforms.

Unit 4 Damp proofing; causes and effect of dampness, material and method of damp proofing; Termite proofing, pre and post construction treatment; Thermal insulation, methods of thermal insulation, thermal insulation of roofs, exposed walls; Doors and windows, Stair case; parts and type of stairs, dimensioning of stair case.

Unit 5 Fire protection- fire hazards, characteristics of fire-resisting materials and common building materials; Cracks in walls, floors and ceilings-causes and repairs techniques; Routine maintenance of building and structures.

Text / Reference Books1. Eldridge, H. J. “Construction Defects in Buildings”,

HMSO, BKJT Printers Ltd., London, UK.2. Sing, G. “Building Construction Engineering”.

39

CE – 218 Surveying - ICourse Category : DC L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1 Surveying; fundamental definition and concepts, objects, classification, basic principles, plans and maps; Chain surveying, definition, methods, instruments for chaining, ranging out survey lines, chaining, errors due to incorrect chain; offsets, booking of field notes; Basic problems in chaining, obstacles in chaining; Conventional symbols.

Unit 2 Compass surveying; bearing and angles, compass traversing, adjustment of compass traverse, graphical methods; magnetic declination, local adjustment; Plane table surveying; plane table and its accessories, working operations, methods of plane tabling, two point and three point problems.

Unit 3 Levelling; definition, instruments, methods of levelling, theory of direct leveling, spirit leveling, differential levelling, curvature and refraction, reciprocal leveling, profile leveling, cross-sectioning,, Barometric leveling,; Sensitiveness of bubble tube, permanent adjustment of level

Unit 4 Theodolite and traverse surveying; essential parts of transit theodolite, temporary and permanent adjustment of transit theodolite; Measurement of horizontal and vertical angles; Methods of traversing, closing error, balancing of traverse, traverse table, omitted measurements, Tachometry, stadia system, influence of staff tilt, anallatic lens, tangential and subtense systems.

Unit 5 Areas and volumes; computation of area by trapezoidal and Simpson’s rule, area of closed traverse Measurement of volume from cross sections, capacity of reservoirs, setting out works.

Text/Reference books1. Kanetkar, T. P., “Surveying and Levelling” Vol I and II,

Pune Vidyarthi Griha Prakashan, Pune, India.2. Punmia, B. C., “Surveying” Laxmi Publications, Delhi,

India.

40

CE-219 HydrologyCourse Category : DC L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Scope and applications of hydrological cycle, Hydrology applied in Engineering, Precipitations types and measurement, Rain gauge, Network analysis of rainfall data.

Unit 2 Evaporation, Evapo-transpiration, Consumptive use, infiltration and percolation, methods of determination, factors affecting.

Unit 3 Surface runoff, factors affecting, measurement of runoff, Analysis of runoff data, Hydrographs, Mass curve and Flow duration curve, Concept of Unit Hydrograph, Methods of Estimation of Unit Hydrograph, Derivation and application.

Unit 4 Ground Water Hydrology, Definitions, Types of Aquifers and Wells, Occurences, Distribution, Darcy’s law and its limitations, Well hydraulics.

Text / Reference Books:1. K. Subramanya, “Engineering Hydrology”, TMH, New Delhi,

India.2. Chow V.T,.“Hand book of Applied Hydrology”, Mc Graw-Hil,

N.Y., USA.3. Wister, and Kohler and Paulhus, “Hydrology”, McGraw Hill,

Tokyo, Japan.4. Linsley, Kohler and Paulhus, “Applied Hydrology”, Mc Graw

Hill, N.Y., USA.5. D.K Todd, “Groundwater Hydrology ”, John Wiley, N.Y., India.6. J. Nemec, “Engineering Hydrology”, Mc Graw-Hill, N.Y.,

India.

41

CE – 294 Structural Mecanics Lab.Course Category : DC L - T -.P : 0 - 0 - 3 Credit : 1.5

List of experiments:1. Determination of Impact value2. Determination of Elastic constants and plotting load-deflection curve

under transverse loading.3. Buckling of Columns and test on long columns with different end

conditions.4. Verification of bending moment in Beams5. Torsion of circular shafts, torque-twist behaviour6. Determination of Brinnel Hardness Number (BHN)

CE – 295 Surveying Lab. – ICourse Category : DC L - T -.P : 0 - 0 – 3 Credit : 1.5

List of the Experiments:1. Chain Surveying; offset measurement2. Compass Surveying3. Plane tabling by radiation method4. Plane tabling by intersection method5. Solution of two point problem; resection method6. Solution of three point problem; resection method7. Differential leveling I8. Differential leveling II9. Longitudinal sectioning10. Cross sectioning11. Contouring by indirect method12. Study of transit theodolite13. Measurement of horizontal and vertical angles with a theodolite.

CE – 296N Engg. Geology CampCourse Category : DC Credit : 1.0

42

V Semester

CE – 311 Design of Concrete Structures – ICourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Load and stresses, load combinations, Working stress and limit state approach. Analysis and design of sections in bending – working stress and limit state method, Rectangular and T-sections, Beams with reinforcement in compression, One-way slab.

Unit 2 Design for shear and bond, Mechanism of shear and bond failure, Design of shear using limit state concept, Development length of bars; Design of sections in torsion.

Unit 3 Design of two-way slabs, Rankines-Grashoff and I.S. code method; Design of flat slab – direct method; Circular slab; Slab type staircase, Placement of reinforcement in slabs; Voided slab.

Unit 4 Design of compression members, Short column, Columns with uni-axial and bi-axial bending; Long columns, use of design charts.

Unit 5 Design of foundation; Wall footing, Isolated and combined footing for columns.

Text Book1. Jain, A. K. “Reinforced concrete- limit State Design” NCB,

Roorkee, India.

Reference Books1. Karve and Shah “Limit State Theory and Design of Reinforced

Concrete” VGP, Pune, India.2. Pillai and Menon “Reinforced Concrete Design”, TMH, New

delhi, India.3. Verghese, P. C. “Advanced Reinforced Concrete Design” PHI,

Delhi, India4. Winter, G. “Design of Concrete Structures” Mc Graw Hill,

Tokyo, Japan.5. Evans and Cook “Reinforced and Pre- stressed Concrete” TN,

London, U.K.

43

Selected B. I .S Codes1. I. S.:456-2000-Code of Practice for Plain and Reinforced

Concrete, BIS, New Delhi, India.2. I. S.:875 -1987(Part I & II)-Code of Practice for Design

Loads(other than earthquake) for Building and Structures, BIS, New Delhi, India.

3. I.S.:1893-1984-Criteria for Earthquake Resistant Design of Structures, BIS, New Delhi, India.

4. I.S.:4326-1993-Code of Practice for Earthquake Resistant Design and Construction of Buildings, BIS, New Delhi, India.

5. I.S.:13920- Ductile detailing of reinforced Concrete Structures subjected to Seismic forces, BIS, New Delhi, India.

6. S.P.:16 -Design Aids for Reinforced Concrete to IS:456, BIS, New Delhi, India.

7. S.P.:24 -Explanatory Hand Book of I.S. Code for Plain and Reinforced Concrete, BIS, New Delhi, India.

8. S.P.:34 - Hand Book of Concrete Reinforcement and Detailing, BIS, New Delhi, India.

44

CE – 312 Soil MechanicsCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Soil Properties: Preliminary definitions, phase diagram, interrelationship. Sieve and hydrometer analysis, Atterberg’s limit. Classification systems – IS, MIT and Unified classification systems of soil. Soil structure. Compaction of soil – Theory of compaction, laboratory compaction tests, optimum moisture content and zero air void line. Field methods and compaction control.

Unit 2 Soil water, Permeability: Soil water, effective and neutral pressures. Darcy’s law, factors affecting permeability. Laboratory determination of permeability. Permeability of stratified soils. Quick sand conditions and liquefaction of soil.

Unit 3 Soil stresses: Stresses in soil mass due to surface loading. Boussinesq and Westergaard’s formula for point load. Vertical pressure under various uniformly loaded area. Pressure bulb. Newmark’s influence chart, approximate methods.

Unit 4 Compressibility and Consolidation: Virgin compression curve and definition of the terms. Terzaghi’s one dimensional consolidation theory. Laboratory consolidation test, height of solids and change in voids ratio methods. Determination of coefficient of consolidation by log of time fitting and square root of time fitting methods. Consolidation settlement.

Unit 5 Shear Strength of soil: State of stress at a point, Mohr’s stress circle. Shear strength of soil. Mohr and Mohr-Coulomb failure envelop. Direct, Triaxial, Unconfined and Vane shear tests, principles of drained and undrained tests, stress path.

Text / Reference Books 1. Gopal Ranjan, “Basic and Applied Soil Mechanics”, New Age

International (P) Ltd, New Delhi.2. Alam Singh, “Soil Engineering in Theory and Practice”, Asia

Publishing House, New Delhi.3. V.N.S.Murty, “Soil Mechanics and Foundation Engineering”,

Sai Kripa Technical Consultants, Banglore.4. Som and Das, “Theory and Practice of Foundation Design”,

PHI, Delhi, India.

45

CE – 313N Environmental EngineeringCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Sources of Water Supply, Water demand, variation in demand, Population prediction. Water distribution Systems – types and design. Equivalent pipe and Hardy Cross method.

Unit 2 Water treatment flow sheets, screenings, coagulation, flocculation, filtration, disinfection, hardness reduction, removal of iron and manganese.

Unit 3 Variation in wastewater flow rates, Design of sewers, Wastewater treatment flow sheets, screens, grit removal, sedimentation, activated sludge process, trickling filter, anaerobic digestion.

Unit 4 Stabilization ponds. Onsite treatment and disposal, wastewater irrigation, Disposal techniques for solid and hazardous wastes.

Text BookHoward S. Peavy, et. Al., “Environmental Engineering” McGraw-Hill Book Co.

Reference BookSteel & McGhee, “Water Supply and Sewage”, McGraw-Hill Book Co.

46

CE – 314 Surveying - IICourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Elementary photogrammetry; terrestrial and aerial photogrammetry, aerial photographs, scale of vertical photographs; Stereoscopy and parallax; Relief displacement; Flight planning, plotting instruments; Hydrographic surveying, shoreline survey; Sounding, methods of locating soundings, reduction of sounding, discharge measurement.

Unit 2 Triangulation, classification of triangulation system, triangulation figures, signals and towers, phase of signal inter visibility and height of stations, base line measurement, use of EDM instruments, corrections to measured length; Measurement of horizontal angles; satellite stations, reduction to center; Trigonometrical levelling.

Unit 3 Curves, simple, compound, reverse, transition and vertical curves.

Unit 4 Errors and adjustment of observation; laws of accidental errors, probability curve, principle of least squares, Laws of weights, probable and standard error, distribution of error to field measurements, determination of most probable values, methods of normal equations and correlates, station and figure adjustment.

Unit 5 Field astronomy, definition of astronomical terms, formulae of spherical trigonometry, astronomical triangles, co-ordinate systems, measurement of time, determination of azimuth and latitude.

Text Book1. Kanetkar, T. P., “Surveying and Levelling” Vol. I and II, Pune

Vidyarthi Griha Prakashan, Pune, India

Reference Books1. Punmia, B. C., “Surveying” Vol. I and II, Laxmi Publications,

Delhi, India.2. Clark and David, “Plane and Geodetic Surveying” Vol. I and II,

Constable and Company Ltd., U.K.3. Norman, T. “Surveying” Edward Arnold, U.K.

47

CE – 391 Soil Mechanics Lab.Course Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

List of Experiments:1. Determination of the specific gravity of the soil by Pycnometer2. Determination of the specific gravity of the soil by Density

bottle.3. Gradation of soil by sieve analysis.4. Determination of liquid and plastic limit of the soil by

Cassagrand’s apparatus.5. Determination of the permeability of the soil by falling head

method.6. Determination of the permeability of the soil by constant head

test method.7. Determination of the field density by core cutter method.8. Determination of the permeability of the soil by sand

replacement method.9. Determination of maximum dry density and optimum moisture

content by Proctor’s compaction test.10. Hydrometer analysis.11. Direct Shear test.12. Triaxial compression test.

CE 392: Environmental Engineering Lab.Course Category: DC L - T - P: 0 - 0 - 3 Credits: 1.5

List of experiments:

Determination of pH and Alkalinity of Water and Prepared solution.Determination of Hardness of Water sample.Determination of optimum Alum Dose by Jar Test Apparatus.Determination of available Chlorine in Bleaching PowderDetermination of Residence time for PFTRDetermination of Oxygen Transfer Capacity of the Laboratory

aeration systemDetermination of BODDetermination of COD

48

CE – 393 Survey Lab. IICourse Category : DC L - T -.P : 0 - 0 - 3 Credit : 1.5

List of the Experiments:1. Observation of vertical and horizontal angles.2. Determination of stadia constants.3. Determination of gradient of a line by stadia method of

tachometry.4. Determination of gradient of a line by tangential method of

tachometry.5. Use of subtense bar.6. Analytical solution of three point problem.7. Determination of the length of the omitted portion of a base

line.8. Determination of the height of an object by trigonometrical

observations from two stations lying in the same vertical plane as the object.

9. Determination of the height of an object by trigonometrical observations from two stations not lying in the same vertical plane as the object.

10. Setting out a simple curve by Rankine’s method.11. Setting out a curve by two-theodolite method.12. Determination of the azimuth of a line by extra meridian

observation of Sun.13. Depth perception from stereo pair of photographs and use

of sketch master.14. Electro optic distance measurement (EDM).15. Use of microptic instruments.

CE – 394 Survey CampCourse Category : DC Credit : 1.0

Based on understanding towards the field problem a survey camp should be arranged during the V semester.

49

VI Semester

CE – 315 Structural Analysis - ICourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Indeterminate structures; Static and kinematic indeterminacy, Analysis of indeterminate beams, moment area method, Effect of yielding of supports, Consistent deformation method, Three moment theorem.

Unit 2 Displacement methods; Slope deflection method, Moment distribution method, Application to continuous beam, non-sway and sway frames.

Unit 3 Analysis of indeterminate pin jointed perfect and redundant frames.

Unit 4 Three hinged, two hinged and fixed arches, analysis by energy and force method.

Unit 5 Analysis of cables and suspension bridges, Two hinged and three hinged stiffening girders

Text Books1. Reddy, C. S., “Basic Structural Analysis” TMH, Delhi, India.

Reference Books1. Vazirani and Ratwani, “ Basic structural analysis”

Khanna, Delhi, India.2. Punmia, B. C., “Strength of Material and

Mechanics of Structures” Vol. I&II, Laxmi pubs. India.3. Gupta, Pandit and Gupta, “Theory of structures

Vol.” I &II

50

CE-316 Engineering Hydraulics - ICourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Laminar flow, Navier’s-Stokes equation of motion for laminar Flow, Laminar flow between two parallel plates, laminar flow through pipes, Dimensional Analysis & Modal Studies. Velocity distribution in turbulent flow, shear stress due to turbulence, turbulent flow in circular pipes, resistance of smooth and artificially roughened pipes, General resistance diagram.

Unit 2 Boundary Layer Theory: Introduction, Development of boundary layer over a flat plate, boundary layer thickness, displacement, momentum and energy thicknesses, Application of momentum equation to boundary layer flow, local and mean drag coefficients, Hydro-dynamically rough and smooth surfaces, boundary layer separation and its control, Forces on Immersed bodies: Drag and lift, drag on flat plate, sphere, cylinder and disc, development of lift, Magnus effect and circulation, theoretical lift on rotating cylinder.

Unit 3 Pipe Flow Problems:Losses in pipe flow, pipes in series, pipes in parallel, branching pipes, siphons, multi-reservoir problems, pipe net works, unsteady flow in pipes, water hammer analysis.

Unit 4 Hydraulic Machines: Turbines: classification of tribunes, Impulse and Reaction turbines, characteristic curves, draft tubes, Pumps: classification of pumps, centrifugal pump, efficiency and power, Output of centrifugal pumps, characteristics curves.

Text / References Books:1. V.L. Streeter, “ Fluid Mechanics”, Mc Graw-Hill, N.Y, USA.2. R.J. Garde “Fluid Mechanics” RPH, Roorkee.3. Shames , “Mechanics of fluids” Mc Graw-Hill (Int. St. ed.)

Auckland, NZ.4. A.K. Jain “Mechanics of fluids”, Khanna Publisher., Delhi.

51

CE – 317 Transportation EngineeringCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Highway Planning and Geometric Design: Highway development and planning in India, Pavement Characteristics, Sight distances, Design of horizontal and vertical alignment.

Unit 2 Highway Material and Construction: Properties of sub-grade and pavement component material, tests on stone aggregate and bituminous materials. Highway construction – WBM, bituminous and cement concrete pavement.

Unit 3 Pavement Design: Design factors for flexible and rigid pavements. Group Index and CBR methods for flexible pavement design. Analysis of wheel load stresses in rigid pavement. Westergaard’s method for design of rigid pavement

Unit 4 Railway Engineering: Gauges, creep and wear of rails. Sleepers, station and yards, points and crossing. Tractive resistance.

Unit 5 Airport Engineering: Airport planning and Airport layout- runway orientation, Wind Rose diagram, basic runway length, corrections for runway length. Airport classification, geometric design. Airport capacity, Aircraft parking systems.

Text / Reference Books

S. K. Khanna and Justo, C. E. G., “Highway Engineering”, Nemi Chand & Bros.Roorkee, India.

K.F. Antia, “Railway Engineering”, New Book Company, Bombay, India.

S. K. Khanna & M. G. Arora, “ Airport Planning and Design” , Nemi Chand & Bros.Roorkee, India.

Saxena and Arora, “A Text Book of Railway Engineering”, Dhanpat Rai and Sons, Delhi, India.

S. P. Bindra, “A Course in Highway Engineering”, Dhanpat Rai and Sons, Delhi, India.

J.S., Mundry, “Railway Track Engineering”, Tata Mc Graw-Hill, New Delhi, India.

52

CE – 318 Design of Steel StructuresCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Properties of materials; loads and stresses, Design of semi-rigid, rigid and moment resistant connections; Built up sections

Unit 2 Design of tension members subjected to axial tension and bending, splicing of tension member, Design of compression members, Beam-column connections, Design of columns and their bases

Unit 3 Design of flexural members and Plate girder; loads, specification and design

Unit 4 Industrial buildings; loads, design of purlins, trusses, bracings; gantry girders

Unit 5 Introduction to Plastic analysis; Simple cases of beams and frames

Text Book1. Kazmi, S. M. A. and Jindal, R.S. “Design of Steel Structures”

PHI, New Delhi, India.

Reference BooksArya and Ajmani “Design of Steel Structures”, NCB, Roorkee,

India.Ramamrutham “Design of Steel Structures” Dhanpat Rai, Delhi,

India.

Selected B. I .S Codes1. I. S.:800-2000-Code of Practice for General Construction in

Steel, BIS, New Delhi, India.2. I. S. Steel Tables containing Properties of Steel sections, BIS,

New Delhi, India.3. I. S.:802-1992-Code of Practice for use of Structural Steel in

Transmission Line Towers”, BIS, New Delhi, India

53

CE – 395 Structues Lab.Course Category : DC L - T -.P : 0 - 0 - 3 Credit : 1.5

List of experiments:1. Determination of shear centre for Channel section.2. Study of stress in pin-jointed frames3. Verification of theorem of Compatibility & Comparison of

deflections of a perfect and redundant truss.4. Study of Stress- Strain behaviour of M.S. bar under axial

tension and determination of elastic modulus.5. Load-Deflection test on simply supported MS I-Section under

flexure.6. Assessment of strength of concrete cubes using Non-distructive

tests.

CE-396 Hydraulics LabCourse Category : DC L - T - P : 0 - 0 - 3 Credit : 1.5

List of Experiments:1. Flow through pipes2. Flow through Venturi meter3. Determination of viscosity by capillary tube viscometer4. Determination of viscosity by falling sphere viscometer5. Flow visualization using Reynolds apparatus6. Flow through bend meter

CE – 397N Transprtation Engineering Lab.Course Category : DC L - T -.P : 0 - 0 - 2 Credit : 1.0

List of Experiments:Determination of hardness of stone by Los Angles abrasion test.Determination of toughness of stone by Impact test.C. B. R. test.Specific Gravity and Water Absorption of stone Aggregate.Flakiness Index testElongation Index testPenetration needle test on Bitumen.Deval Attrition test.Crushing strength test

54

VII Semester

CE – 411 Design of Concrete Structures – IICourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Design of continuous beams and building frames, Moment redistribution, Estimation of wind and seismic loads, Desirable features of earthquake resistant construction, Detailing for earthquake resistant construction – ductility criteria

Unit 2 Water tank and staging; Introduction, Design criteria, Design of rectangular and circular water tank, Design of Intze tank, Staging for overhead tank

Unit 3 Introduction to bridge engineering, Investigation for bridges, IRC loadings, Design of slab culvert; Design of Masonry walls and columns

Unit 4 Pre-stressed concrete, Introduction, pre-stressing system, losses in pre-stress, Design of simple span girders, Design of end block

Unit 5 Design of staircases; Design of cantilever and counter-forte type retaining wall

Text Book1. Jain, A. K. “Reinforced concrete- limit State Design” NCB,

Roorkee, India.2. Raju, N.K. “Pre-Stressed Concrete” TMH, Delhi, India.

Reference Books1. Karve and Shah “Limit State Theory and Design of reinforced

Concrete” VGP, Pune, India.2. Pillai and Menon “Reinforced Concrete Design” TMH, New

delhi, India..3. Verghese, P. C. “Advanced Reinforced Concrete Design” PHI,

Delhi, India.4. Winter, G. “Design of Concrete Structures” Mc Graw Hill,

Tokyo, Japan.5. Evans and Cook “Reinforced and Pre- stressed Concrete” TN,

London, U.K.

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6. Lin, T. H. and Burns, H. N., “Design of Pre-Stressed Concrete Structures”, Wiley, Canada.

Selected B. I .S Codes1. I. S.:456-2000-Code of Practice for Plain and Reinforced

Concrete, BIS, New Delhi, India.2. I. S.:875 -1987(Part I & II)-Code of Practice for Design

Loads(other than earthquake) for Building and Structures, BIS, New Delhi, India.

3. I.S.:1893-1984-Criteria for Earthquake Resistant Design of Structures, BIS, New Delhi, India.

4. I.S.:4326-1993-Code of Practice for Earthquake Resistant Design and Construction of Buildings, BIS, New Delhi, India.

5. I.S.:13920- Ductile detailing of reinforced Concrete Structures subjected to Seismic forces, BIS, New Delhi, India.

6. S.P.:16 -Design Aids for Reinforced Concrete to IS:456, BIS, New Delhi, India.

7. S.P.:24 -Explanatory Hand Book of I.S. Code for Plain and Reinforced Concrete, BIS, New Delhi, India.

8. S.P.:34 - Hand Book of Concrete Reinforcement and Detailing, BIS, New Delhi, India.

9. I.S.:1343-1980-Code of Practice for Pre-Stressed Concrete, BIS, New Delhi, India.

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CE – 413 Foundation EngineeringCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1. Earth Pressures and Retaining, Structures; Active, Passive and Pressure at rest, Rankine’s and Coulomb’s Theories; Influence of Surcharge, Water Table and Wall Friction; Rebhann’s and Culmann’s Graphical Constructions, Simplified Procedure for Design of Sheet Pile Walls and Anchored Bulk Heads.

Unit 2. Stability of Slopes: Infinite Slope and their Stability. Total and Effective Stress analysis. Concepts of Factors of Safety, Method of Slices, Friction Circle and Bishop’s simplified Methods. Taylor’s Stability Number. Effect of Steady Seepage; Sudden Draw down and Submergence.

Unit 3. Shallow Foundations: Definitions, Bearing Capacity of Footings; Terzaghi, Mayerhof and Skempton’s analysis. Effect of Rising and Lowering of Water Table on Bearing Capacity; Settlement: Permissible, Total and Differential Settlements as per IS Code. Plate Load test, Standard Penetration and Cone Penetration Tests for Determining Allowable Bearing Pressure.

Unit 4. Deep foundations and site investigation: Introduction to Pile Foundation, Bearing and Friction Piles, Bearing Capacity of Single Pile and Pile Groups. Engineering News’ and Hiley’s formulae. Boring and sampling Techniques and sampling disturbances.

Unit 5. Machine Foundation: Design Criteria, Free and Forced Vibrations for Single Degree of Freedom systems, Undamped and Damped Case, Types of Machine Foundations.

Text / Reference Books1. Kaniraj, S.R., “Design Aids in Soil Mechanics and Foundation

Engineering”, Tata Mc Graw Hill New Delhi. India.2. Khan I.H., “A Text Book of Geotechnical Engineering”,

Prentice-Hall of India Pvt. Ltd., Delhi, India.3. Arora, K.R., “Soil Mechanics and Foundation Engineering”,

Standard Publishers, New Delhi, India.4. Richart, F.E, Jr., and R.D Woods, “Vibrations of Soils and

Foundations”, Prentice Hall, N.J, USA.

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CE – 490 Project (Contd. to VIII Sem)Course Category : DC L - T -.P : 1 - 2 - 0 Credit : 3*

Any suitable topic with the aim of providing training in the areas of analysis, design, development of new ideas in civil engineering, including collection of data, making drawings, cost estimate and writing report.(* Incomplete Grade, I, to be assigned to the students, which will be

converted to regular grade at VIII semester level)

CE – 491N Concrete Design PracticeCourse Category : DC L - T -.P : 0 - 0 - 2 Credit : 1.0

List of Designs:1. Designing and detailing of Beams/ slabs/ column/ foundation.2. Designing and detailing of Slab Culvert 3. Designing and detailing Rectangular water tank/ Intz tank.

CE – 492N Steel Design PracticeCourse Category : DC L - T -.P : 0 - 0 - 2 Credit : 1.0

List of Designs:1. Designing and detailing with connection, Built up Columns and their

bases.2. Designing and detailing of beams, plate girder, gantry girder.3. Designing and computer detailing of industrial buildings4. Design and detailing of steel staging for water tank/ column base.

CE – 498N Vocational TrainingCourse Category : DC Duration: 1 month Credit : 1.5

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VIII Semester

CE – 410 Construction ManagementCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Financial analysis; Cost of project, means of finances, planning the means of finances, depreciation, PWD accounts

Unit 2 Resource Management; Basic concepts, labour requirements, labour productivity, site productivity, non-productive activities, Equipment management, Material management

Unit 3 Factors affecting the selection of construction equipments, brief description of bulldozers, scrapers, concrete mixers and sprinklers

Unit 4 Introduction to CPM, critical path, study of various floats, construction of networks, event, activity time computations, project time evaluation.

Unit 5 Cost control for normal and crash time networks, probability of completion of project based on PERT time estimates; Linear programming- Simplex method

Text / Reference Books1. Antil and Woodhead, “Critical Path Methods in

Construction Practice”, Jhon Wiley, NY, USA.2. Purifoy, “Construction Planning, equipments and

Methods”, Mc Graw Hill, Tokyo, Japan.3. Sengupta, B, and Guha, H., “Construction Management and

Planning”, TMH, New Delhi, India.

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CE-414 Engineering Hydraulics – IICourse Category : DC L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Basic Principles: open channel flow and its classifications, and properties, energy and momentum principles, Critical flow computation and its applications, transitions with sub critical and super critical flows.

Unit 2 Uniform flow, roughness coefficient, computation of uniform flow in prismatic channel, design of non- erodible channels for uniform flow, Most efficient channel section, compound sections

Unit 3 Gradually varied flow: Theory and analysis, gradually-varied flow computations in prismatic channels, gradually varied flow in non-prismatic channels. Rapidly varied flow: Theory of hydraulic jump, evaluation of jump elements in rectangular and non-rectangular channel, location of jump on horizontal floor, channel controls and transitions, free over fall, Thin plate weirs, Broad crested weirs, Sluice gates.

Unit 4 Application of model studies to free surface flow problems, waves and their classifications, celerity of a wave, surge formation, equation of motion, rapidly varied unsteady flows.

Text/Reference Books:1. Subramanya, “Flow in Open channels”2. K G Ranga Raju, “Flow through open channel”V.T chow “Open channel Hydraulics”Bakhmeteff, “Hydraulics of open channel”Henderson, “Open channel flow”

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CE-415 Irrigation EngineeringCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Irrigation development in India, present status of irrigation in India, methods of irrigation, silt control in canal, canals outlets. Water requirements of various crops, land levelling, Irrigation schedule

Unit 2 Canal losses, water-logging and lining of canals. Regime theories for the design of earthen channels, elementary ideas about sediment transport theory, Incipient motion of sediment. modes of sediment trannsport.

Unit 3 Theory of uplift pressure, canal headwork, river training works.

Unit 4 Canal regulation and cross drainage works.

Text / References Books:P.N. Modi, “Irrigation Water Resources and Water Power”Bharat Singh, “Irrigation Engineering”S. K., “Garg Irrigation Engg. and Hydraulic Structures”

CE – 490 ProjectCourse Category : DC L - T -.P : 1 - 2 - 0 Credit : 3

Any suitable topic with the aim of providing training in the areas of analysis, design, development of new ideas in civil engineering, including collection of data, making drawings, cost estimate and writing report.

CE-493N Irrigation Design of WorksCourse Category : DC L - T - P : 0 - 0 – 2 Credit : 4

List of Experiments :Design and detailing of canals.Design and detailing of falls.Design and detailing of diversion works.

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Design and detailing of Cross Drainage works.

DEPARTMENTAL ELECTIVES

CE – 421 Concrete TechnologyCourse Category : DE I L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1 Concrete; Properties of ingredients, tests, Production of concrete, mixing, compaction curing, Properties of fresh concrete; Defects in Concrete, Concrete additives.

Unit 2 Behavior of concrete in tension and compression, shear and bond, Influence of various factors on test results, Time dependent behavior of concrete -creep, shrinkage and fatigue.

Unit 3 Concrete mix design; Proportioning of concrete mixes, basic considerations, cost specifications, factors in the choice of mix proportion, different method of mix design. Quality control, Behavior of concrete in extreme environment; temperature problem in concreting, hot weather, cold weather and under water conditions, Resistance to freezing, sulphate and acid attack, efflorescence, fire resistance

Unit 4 Inspection and testing of concrete- Concrete cracking, types of cracks, causes and remedies Non destructive tests on concrete; Chemical tests on cement and aggregates.

Unit 5 Special concrete; types and specifications, Fibre reinforced and steel Fibre reinforced concrete, Polymer concrete, Use of admixtures; Deterioration of concrete and its prevention Repair and rehabilitation.

Text / Reference Books1. Naville, A.M., “Properties of Concrete”, Longman, India.2. Naville, A.M., “Concrete Technology”, Longman, India.3. Gambhir, M. L., “Concrete Technology”, TMH, New Delhi,

India.

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CE-422 Ecology and EnvironmentCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Principles of ecology, Food chain, Trophic levels, Ecosystems, Biochemistry of natural compounds, Classification of microorganisms, Growth pattern of microorganisms, Biochemical reactions, Microbiology of aerobic and anaerobic processes, Biochemical pathways, Metabolism, Energy concepts, Pathogenic diseases, Basic microbiology of water air and soil, Application of microbiology for pollution control, Laboratory Practice.

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CE – 423 Traffic EngineeringCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1. Introduction: Development of Highway, Scope and Function of Transportation and Traffic Engineering. Basic Structure of Transportation Systems, Object of Transport Planning, Drawback of Transport. The Traffic Problem.

Unit 2. Traffic Characteristics: Road User and Vehicular Characteristics, traffic flow characteristics, traffic volume, O & D study, Speed and Delay Study. Accident Studies and Safety, Methods for the Reduction in Accident Rates, The Environmental Effects on Highway Traffic Noise and Pollution.

Unit 3. Traffic Facilities Design: Design of Intersections – Principles of Intersection Design, Rotary Intersections, Grade Separated Intersections. Grade Separation Structures, Design of Parking Facility, Highway Lighting, Design of Highway Lighting System.

Unit 4. Traffic Signals and Vehicle Safety: Traffic Regulations, Controls on Vehicles, Drivers and Flow, One Way Street, Basics of Traffic Control Devices, Traffic Signs, Traffic Signals and their Design, Traffic Islands and Markings.

Unit 5. Traffic and Transportation Planning: Traffic Planning, Urban Transportation Planning Process – Inventories, Trip Generation, Trip Distribution, Traffic Assignment, Plan Preparation and Evaluation, PCU Value for Urban Roads.

Text / Reference Books1. Matson, T.M., Smith, W.S. and Hurd, F.W., “Traffic

Engineering”, McGraw-Hill, NY, U.S.A.5. Salter, R.J. “Highway Traffic Analysis and Design”. The

Macmillan Press Ltd., London, UK.2. S.K. Khanna and C.E.G. Justo, “Highway Engineering”. Nemi

Chand and Bros., Roorkee

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3. Subhash C. Saxsena, “A course in Traffic Planning and design”, Dhanpat Rai Sons, Delhi, India.

4. Louis J. Pignatro, “Traffic Engineering Theory and Practice” Printice- Hall, New Jersey, USA.

CE-424 Ground Water EngineeringCourse Category: ESA L - T- P: 3 - 1 – 0 Credits: 4.0

Unit 1 Ground water Resources. Occurrence of Ground Water, Flow of Water through porous Media. Aquifer properties. Flow net.

Unit 2 Ground water flow problems. Steady flow in unconfined Aquifer with recharge. Steady flow in confined Aquifers of constant and variable Thickness, Tile Drain Problem.

Unit 3 Well Hydraulics. Steady Radial Flow into well, Partial Penetrated well, Spacing of wells, well losses. Design of water wells, Methods of well construction.

Unit 4 Ground water Exploration, Pumping Test. Introduction to Unsteady flow into wells. Flow through pleaky Aquifers.

Text / Reference Books:1. Bauwe, H., “Ground water Hydrology”2. Chow V. T., “Hand Book of Applied Hydrology”, Mc Graw-

Hill, N.Y., USA.3. K.C. Patra, “Hydrology and water process Engg.”4. G.L. Asawa, “Irrigation Engg” , New Age, New Delhi, India.5. M.C. Graq, “Ground water Resoucess Evaluation” McGraw-

Hill, N.Y., USA 19706. Todd D.K., “Ground water Hydrology”, John Wilay and Sons,

N.Y.,USA.

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CE - 425 Advanced HydrologyCourse Category: ESA L - T- P: 3 - 1 - 0 Credits: 4.0

Unit 1 Water availability, Meteorology, Probable maximum precipitation, Depth area duration relationships, Frequency of point rainfall, Intensity Duration frequency relationship.

Unit 2 Flood estimation and flood routing: General, Design flood, estimation for ungauged and gauged water sheds, probable maximum flood, Routing classification, Reservoir routing, Hydrological Channel routing.

Unit 3 Statistics in Hydrology: General probability distributions, Moments of distribution, Distribution characteristics, Forms of Probability distributions, frequency Analysis, Reliability of Statistical analysis, fitting of a Probability distribution.

Unit 4 Unit Hydrograph, Unit Hydrograph for ungauged water sheds, Instantaneous Unit Hydrograph, Bernard’s distribution graph.

Text / Books References:1. K.C. Patra, “Hydrology Water Resources Engineering.”2. P. J. Reddy, “A Text Book of Hydrology” 3. K. Subramanya, “Engineering Hydrology” TMH, New

Delhi,.India.4. S. N. Davis and R. J. M. Deisiest, “Hydrology”, Mc. Graw-Hill,

N.Y.,USA.5. D. K Tood, “Ground Water Hydrology”, John Wily, N.Y.,

USA.

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CE 426 Environmental Pollution AbatementCourse Category : DE-II L - T - P: 3 - 1 – 0 Credits: 4.0

Characterization of liquid waste, industrial waste survey, sampling and material balance, segregation and equalization; Disposal of waste in environment, Effects on land and receiving waters; standards.

Wastewater treatment, physical, chemical and biological processes Wastewater reclamation and reuse in industry.

Pollution abatement in major industries: Textile, Paper and Pulp, Steel, Sugar, Distillery, Petroleum Refinery.

Sources and generation of gaseous pollutants, Effects on materials, health and plants, Air quality monitoring, Standards, Meteorology.

Air pollution control, Methods for removal of particulates and gaseous pollutants, Design Principles.

Text / Reference Books:1. S.P.Mahajan , “Pollution control in industries”, McGraw Hill Co 2. Rao & Dutta, “Wastewater Treatment”, Oxford & IBH

Publishers3. Wark & Warner, “Air Pollution- origin and control” Harper and

Collins

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CE – 427 Geoengineering of Rocks and Rock MassesCourse Category : DE-II L -T - P: 3 - 1 – 0 Credits:4.0

Unit 1. Rocks and its Physical Properties: Genetic and mineralogical classification of rocks. Mode of occurrence, form and structure of rocks. Rock textures, grain size parameters and petrological fabric of rocks. Effect of physical, chemical weathering and deterioration of rocks.

Unit 2. Natural Forces and Deformation of rocks: Genesis of natural forces and theory of Plate Tectonics. Fold: Mechanics, Classification and effects of folding. Fault: Mechanics, Classification and effects of faulting. Joint: Mechanics, Classification and effects of jointing. Shear zone, rock cleavage and tectonites.

Unit 3. Mechanical Properties of rocks and Tests: Factors controlling the mechanical properties of rocks. Density, porosity, sorption and permeability of rocks. Elasticity, compressive, shear and tensile strength of rocks. Engineering performance of rocks.

Unit 4. Geo-engineering of Rock Masses and Tests: Discontinuities in rocks and rock mass fabric Interstitial water and seepage flow in rock mass. Residual stresses, creep and rheological behavior of rock mass. Geo-mechanical classification and geo-technical description of rock masses. Insitu tests for deformability and strength of rock mass.

Unit 5.Methods of Rock Mass Investigation and Improvement: Geological mapping and engineering geology maps. Exploration pits, trenches, drifts and drilling. Rock mass problems in slopes, excavations and underground openings. Rock mass improvement by grouting, guniting, cable anchorage and rock bolting.

Text / Reference Books:P.D.,Krynine and W.R. Judd, “Principles of Engineering Geology

and Geotechnics”, CBS Pubs. New Delhi, India.

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F.G., Bell, “Fundamentals of Engineering Geology”, Aditya Pubs. Delhi

M.P.Billings, “Structural Geology”, PHI Pubs., New Delhi, India.B.,Singh and R.K., Goel, “Rock Mass Classification for Civil

Engg.”, Elsevier, Amsterdam.B.P., Verma, “Rock Mechanics for Engineers”, Khanna Pubs., New

Delhi, India.

BIS Codes:IS : 7422, Part I to V (1974), Symbols and abbreviations for use in

Geological maps, sections, subsurface exploratory logs. BIS, Govt. of India.BIS, Govt. of India.

IS : 12070 (1987), Shallow Foundation on Rocks, BIS, Govt. of India.

IS :13365 (1998), Part I & II, quantitative classification of rock mass rating and rock mass quality prediction for support in underground opening. BIS, Govt of India.

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CE-428 Dam EngineeringCourse Category : DE-III L - T - P : 3 - 1 – 0 Credit : 4

Unit 1 Types of Dam, merits and demerits; Selection of dam site, selection of dam; Forces acting on gravity Dam, Methods of analysis of gravity Dam. Mode of failure and stability requirements; Zoning of dams, Design criteria and factor of safety.

Unit 2 Elementary profile of a gravity dam, Low and high gravity dams, Galleries in dams. Temperature control in mass concrete; Behavior of concrete, gravity dams subjected to earthquakes.

Unit 3 Buttress and Arch dams, Types, selection, merits and demerits, Elementary design Principles of Arch and Buttress dams.

Unit 4 Earth Dam their component and functions, causes of failure. Factors influencing the design of an earth dam. Design criteria for Earth Dam.

Text / References Books:R.S. Varshney “Concrete Dams”, by 1982, NCB, RoorkeeIS: 6512-1984, Is Code for criteria for Design of solid Gravity

Dams.3. Design of Swell Dams, USBR 1960, Calcutta, Oxford and IBH4. W.P. Creager, J. Justin,.Daud Hinds, “Engineering for Dams”

vol.I-III, Wiley, N.Y., USA.

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CE 429 Industrial Pollution and ControlCourse Category: DE-III L - T - P: 3 - 1 – 0 Credits: 4.0

Characterization of liquid waste, industrial waste survey, sampling and material balance, segregation and equalization; Disposal of waste in environment, effects on land and receiving waters, standards.

Wastewater treatment, physical, chemical and biological processes Wastewater reclamation and reuse in industry.

Pollution abatement in major industries: Textile, Paper and Pulp, Steel, Sugar, Distillery, Petroleum Refinery.

Sources and generation of gaseous pollutants, Effects on materials, health and plants, Air quality monitoring, Standards, Meteorology.

Air pollution control, methods for removal of particulates and gaseous pollutants, design principles.

Text / Reference Books:1 S.P.Mahajan , “Pollution control in industries”, McGraw Hill

Co.2 Rao & Dutta, “Wastewater Treatment”, Oxford & IBH

Publishers3 Wark & Warner, “Air Pollution- origin and control” Harper and

Collins

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CE – 430 Structural Analysis - IICourse Category : DE-IV L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Analysis of building frames; Kani’s method and Approximate methods

Unit 2 Stiffness matrix method; Application to simple problems of beams and frames

Unit 3 Flexibility matrix method; Application to simple problems of beams and frames

Unit 4 Moving loads for determinate beams; Different load cases, Influence lines for forces for determinate beams

Unit 5 Influence lines for pin-jointed trusses; Influence lines for indeterminate beams using Muller Breslau principle. Influence lines for Arches and stiffening girders.

Text Books1. Wang, C. K., “Elementary Structural Analysis” Mc Graw Hill,

New York, USA.Reference Books

1. Reddy, C. S., “Basic Structural Analysis” TMH, Delhi, India.2. Levisley, “Matrix Method of structural analysis”, Pergamon,

London, U.K.3. Morice, B.P., “Linear Structural Analysis” Thames and Hudson,

London, U. K.4. Pundit, G. S. and Gupta, S.P., “Structural Analysis – A Matrix

Approach” TMH, Delhi, India.

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CE – 431 Reliability Analysis of StructuresCourse Category : DE-IV L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Role of reliability in civil engineering; Historical background, random events, random variables, model uncertainty; Common probabilistic models; Important statistical parameters and their estimations, normal, lognormal, extreme value distribution.

Unit 2 Fundamental concept of structural reliability; Derivation of stress-strength interface equation, graphical representation, Cornel reliability index, reliability and failure probability computations for simple linear functions.

Unit 3 Second moment concepts, First order second moment theory, Hasofer-Lind transformation, Linear and non-linear limit state functions, Solution schemes, geometric interpretation of solution scheme, Rackwitz-Fiessler transformation, First order reliability method

Unit 4 Stochastic models for material strength and loads, Reliability assessment of structural component and simple civil engineering structures.

Text Book1. Ranganathan, R., “Reliability Analysis and Design of

Structures” TMH, New Delhi, IndiaReference Books

1. Melchers, R. E., “ Structural Reliability Analysis and Prediction” EHL, England

2. Cristenson, P. T. and Baker, M. J., “Structural Reliability Analysis and its Application” Springer, NY, USA.

3. Madsen, H. O., Krenk, S. and Lind, N. C., “Methods of Structural Safety” PHI, New Jersy, USA.

73

CE-432 Water Power EngineeringCourse Category : DE-V L - T - P : 3 - 1 – 0 Credit : 4

Unit 1 Introduction, sources of energy, water power development, power requirements, load studies, power available, power potential of stream, storage and pondage studies.

Unit 2 Hydro-power plants, classification, elements, Firm and secondary powers, load factor, utilization factor, plant factor.

Unit 3 Intakes, tunnel, penstocks and draft tubes, Water hammer analysis, surge tanks, classification, working principle.

Unit 4 Turbines, main features, performance, selection, capacity, salient features.

Text / Reference Books:1. Dandekar and Sharma, “Hydro Power Engineering”2. Varshney, “Hydro Power Structures” NCB, Roorkee, India.

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CE – 433 Advanced Highway EngineeringCourse Category : DE-V L - T - P : 3 - 1 - 0 Credit : 4

Text / Reference Books1. G. V. Rao, “Principles of Transportation and Highway

Engineering”, Tata McGraw-Hill Publishing Company Limited, New Delhi, India.

2. S. K. Khanna and Justo, C. E. G., “Highway Engineering”, Nemi Chand & Bros.Roorkee, India.

Unit 1 Pavement Design: Design wheel loads, CBR, McLeod and Stabilometer methods for flexible pavement design. Modified Westergaard’s analysis, Bradbury’s work and IRC recommendations for design of rigid pavements.

Unit 2 Hill Roads: General consideration, alignment and geometries of hill roads, Design and construction of hill roads.

Unit 3 Highway Drainage: Importance of highway drainage, surface and sub-surface drainage, construction of roads in water logged areas, Drainage of slopes and erosion control.

Unit 4 Highway Maintenance: Causes and types of pavement failure, maintenance of flexible and rigid pavements, strengthening of existing pavement.

75

CE – 434 Bridge EngineeringCourse Category : DE-V L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1 General; classification, site selection, geometric and hydraulic design consideration, loading standards for highway and railway bridges, general design consideration

Unit 2 Concrete bridges; Introduction, T-beam bridge, balanced cantilever bridge, cable stayed bridge, arch bridge

Unit 3 Steel bridges; Introduction, plate girder bridge, truss bridge, suspension cable bridge, cable stayed bridge

Unit 4 Substructure; design of piers and abutments, pile and well foundation, bearings, seismic design considerations

Text / Reference Books1. Victor, “Essentials of Bridge Engineering”, Oxford, New Delhi,

India.2. Arya and Ajmani, “Design of Steel Structures”, Nem Chand,

Roorkee, India.

CE- 435 Design of Energy DissipatersCourse Category : DE-V L - T - P : 3 - 1 – 0 Credit : 4

Unit 1 Functions of Energy dissipaters, Diversion Structures, Drop structures. Energy Dissipation through hydraulic jump in rectangular and non rectangular Channels.

Unit 2 Hydraulic jump type stilling Basins, Its applications, stilling Basin Appurtenances.

Unit 3 Stilling Basins for small outlet works, low and High spillways. Stilling Basins for large outlet works.

Unit 4 Outlet works control mechanisms. High pressure gates, Valves, Bucket type Energy dissipaters. Erosion below dams, Model Tests and Hydraulic similitude.

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Text / Reference Books:1. Elevators Ki, “Hydraulic Energy dissipations”, Mc Graw-Hill,

N.Y., USA.

CE-436 Sediment TransportCourse Category : DE-V L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Introduction: Properties of sediment, Settling Velocity of particles, Effect of particles on the viscosity.

Unit 2 Scour Criteria and Related Problems. Critical Velocity equations Critical Shear- stress equations. Lift force Mechanism.

Unit 3 Introduction, Bed Load equations, Schoklitch type equations, Einstein’s Bed load equation. Suspended load, Total load.

Unit 4 Bed Form Mechanism, Sediment Measuring Devices, Model Laws.

Text / Reference Book:1. W.H Graf, “Hydaulics of Sediment Transport”, Mc Graw-Hill,

N.Y.,USA.2. R.G. Grarde and Ranga Raju, “Mechanies of Sediment

Transport”, Wiley, New.Delhi, India.

CE – 437 Prestressed ConcreteCourse Category : DE-V L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Pre-stressed concrete, basic concept; pre-stressing material and pre-stressing systems; losses of pre-stress, End anchorage and cable layouts.

Unit 2 Analysis and design of pre-stressed concrete flexure members, simply supported beam and slabs.

Unit 3 Analysis and design for shear, bond and bearing.

Unit 4 Analysis and design of pre-stressed concrete continuous beams.

Unit 5 Analysis and design of pre-stressed concrete compression and tension members.

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Text Book / Reference Book1. Raju, N.K. “Pre-Stressed Concrete” TMH, Delhi, India.2. Lin, T. H. and Burns, H. N., “Design of Pre-Stressed Concrete

Structures”, Wiley, Canada.3. I.S.:1343-1980-Code of Practice for Pre-Stressed Concrete, BIS,

New Delhi, India.CE – 438 Advanced Structural AnalysisCourse Category : DE-VI L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Elasticity: Introduction, Components of strain and strain, Hooke’s law, Plane stress and plane strain, Equations of equilibrium and compatibility, Boundary conditions, Two dimensional problems in rectangular and polar coordinates, Bending of simple and cantilever beams.

Unit 2 Model Analysis: Structural similitude, Direct and indirect model analysis, Model material and model making, Measurement for forces and deformations

Unit 3 Introduction to Finite element method for structural analysis; Review of principle of virtual work, Ritz method, Discretization of domain, Basic element shape, Discretization process

Unit 4 Application of finite element method to one and two- dimensional plane stress strain elements.

Text / Reference Books:Timoshenko, S.P. and Goodier, J.N. “Theory of Elasticity”, Mc

Graw Hill, London, U.K.Singh, S., “Applied Stress Analysis”, Khanna Publisher, New Delhi,

India.3. Sinha, N.C. and Gayen, P.K., “Advanced Theory of

Structures”, Dhanpat Rai Publications, New Delhi, India.4. Zienkwicz, O.C., “The Finite Element Method in

Engineering”, Mc Graw Hill, London, U.K.5. Krishnamoorthy, E. V., “Finite Element Analysis and

programming” TMH, London, U.K.6. Tripathi, R., Chandrupatla, A. and Belegundu, D.,

“Introduction to Finite Element in Engineering”, Pearson Education, New Delhi, India.

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CE – 439 Industrial StructuresCourse Category : DE-VI L - T -.P : 3 - 1 – 0 Credit : 4

Unit 1 Industrial steel building frames: Types of frames, bracing, crane girders and columns, workshop sheds, trussed bents, Pressed steel tank, circular tank

Unit 2 Transmission and Communication towers: Types and configuration, Analysis and design.

Unit 3 Chimneys; Loads and stresses in chimney shaft, Earthquake and wind effect, Stresses due to temperature difference, combined effect of loads and temperature, temperature. Design of chimney; Silos and Bunkers; Jassen’s theory, Airy’s theory, Shallow and deep bins, Rectangular bunkers with slopping bottom, Rectangular bunkers with high side walls; Steel stacks; introduction, force acting on a steel stack, design consideration, design example of stacks.

Unit 4 Concrete Shell Structures: Folded plate and cylindrical shell structures; Introduction, structural behaviour of long and short shells, beam and arch action, analysis and design of cylindrical shell structures, Analysis and design of folded plates.

Unit 5 Machine foundations; introduction, machine vibration, structural design of foundation to rotary machines, impact machines, vibration characteristics, design consideration of foundation to impact machine, grillage, pile and raft foundation.

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CE – 440 Advanced Hydraulic StructuresCourse Category : DE-VI L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Introduction: Minor Irrigation Projects, crops and Crop seasons. Canal Irrigation. Canal outlets. Canal Regulation. Design of retaining walls.

Unit 2 Design of Canal falls, Design of distributary’s head Regulator and Cross Regulator, Canal Escapes Design of Intakes and Canal Drop.

Unit 3 Design of Cross- Drainage structures, uplift pressure under weir, protection works.

Unit 4 Sediment Control Devices.

Text / Reference Books:C. S. Murty, “Design of Minor Irrigation and Canal Structures”Baban, “Design of Diversion Weirs”G. L. Asawa “Irrigation Engineering”

80

CE – 441 Advanced Foundation EngineeringCourse Category : DE-VI L - T -.P : 3 - 1 - 0 Credit : 4

Unit 1. Foundation in Expansive Soil: Clay Mineralogy, Methods of Foundation in Expansive Soils, Bearing Capacity of single and Multi-under–Reamed Pile Foundation. IS: 2911(Part III)

Unit 2. Shallow Foundation: Hansen’s and Vesie’s Bearing Capacity theory. IS Code Method for Bearing Capacity. Standard Penetration Test, Cone Penetration Test and Plate Load Test. Effect of Raising and Lowering of Water Table on Bearing Capacity and Settlement. Raft or Mat Foundations. Influence of Inclined and Eccentric Loads.

Unit 3. Deep Foundation: Indian Standard for Pile Load Test. Bearing Capacity of Pile Groups in Cohesive and Cohesionless Soils. Shear and Settlement Criteria, Bearing Capacity of Well Foundations.

Unit 4. Wave Propagation: Waves in an Infinite, Homogeneous and Isotropic Elastic Medium, Longitudinal Shear and Rayleigh Waves, Elements of Seismic Methods. Direct Arrival Survey, Reflection Survey and Refraction Survey.

Text / Reference Books1. Shenbaga R.Kaniraj, “Design Aids in Soil Mechanics and

Foundation Engineering”, Tata McGraw-Hill, New Delhi, India.2. H.A. Buchholdt, “Structural Dynamic for Engineers”, Thomas

Telford Publication, New York, USA.3. Joseph E. Bowles,” Foundation Analysis and Design”, The

McGraw-Hill Companies, New Delhi, India.4. T. William Lambe and Robert V. Whitman, “Soil Mechanics”,

JohnWiley , New York, USA.

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CE - 442 Advanced Environmental EngineeringCourse Category: DE/OE L - T - P: 3 - 1 - 0 Credits:4.0

Advanced treatment of water and wastewater, Concept of various unit operations adsorption, ion exchange, reverse osmosis and their application in wastewater reclamation and reuse. Advanced environmental chemistry and microbiology. Waste water disinfection

Text / Reference Books:R.L. Droste, “Theory and Practice of water and wastewater

treatment” Wiley Interscience,Shuval. “Water Renovation and Reuse, “Academic PressBenefield, “Process Chemistry for Water and wastewater

Treatment”, Prentice – Hall

CE-443 River EngineeringCourse Category : DE-VI L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Sediment properties, bed forms in alluvial streams and their prediction, Résistance to flow in alluvial streams.

Unit 2 Transport of sediment load, estimation of bed load, suspended load and total load, Aggradation and degradation, Local scour, Hydraulic geometry of alluvial streams, cross section, longitudinal profile and plan forms, meandering of rivers, geomorphic cycle.

Unit 3 Type of river training works, guide bunds, Groynes, levees, cutoff, pitched island, temporary spurs, stabilization of rivers.

Unit 4 River models: choice of scale for different entities, distorted models, distortation of scale, simulation of sediment transport and the geometry.

Text / References Books:

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1. W.H. Graf, “Hydraulics of Sediment Transportation”, Mc. Graw-Hill, N.Y., USA.

2. R J Garde and K G Rangaraju, “Sediment Transport and Alluvial river Problems”, Wiley,New Delhi, India.

CE - 444 Disaster ManagementCourse Category : DE-VI L - T - P : 3 - 1 - 0 Credit : 4

Understanding of Disasters: Earthquake, flood, cyclone, landslide etc. Preparedness and Mitigation: Disaster mapping, predictability, forecasting and warning, disaster preparedness plans, Land use zoning for disaster management.Reconstruction and rehabilitation: Disaster resistant housing, retrofitting, repair and re-strengthening.Man made disasters: Nuclear, chemical and biological disasters, building fire.Disaster Management and Awareness: Human behaviour and response, community participation and awareness, public awareness programmes.

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OPEN ELECTIVES

CE - 481 Fundamentals of Environmental EngineeringCourse Category: OE L - T - P: 3 - 1 - 0 Credits: 4.0

Fundamentals of chemistry concepts in Environmental Engineering, Fundamentals of Microbiology in Environmental Engineering, Fundamentals of physico chemical and biological processes of water and wastewater treatment, Mass balance and energy balance approach, Environmental Pollution and standards – air, water, land and noise

Text / Reference Books:1. Howard S. Peavy, et. Al., Environmental Engineering”’

McGraw-Hill Book Co. 2. Sawyer and McCarty, ‘ Chemistry for Environmental

Engineering” McGraw-Hill Book Co.3. McKinney, “Microbiology for Sanitary Engineers McGraw-Hill

Book Co.

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CE - 482 Remote SensingCourse Category: OE L - T - P: 3 - 1 - 0 Credits: 4.0

Unit 1. Remote Sensing : Basic PrinciplesIntroduction. An overview of concepts of Remote Sensing. Electromagnetic spectrum and its properties. Sources of electromagnetic radiation and interaction with Earth’s atmosphere. Radiation laws, Kischoff ‘s, Stefan – Boltzman and Wein's displacement laws. Interaction with Earth’s surface.

Unit 2. Remote Sensing Platforms and SensorsIntroduction and characteristics of imaging instruments of remote sensing.Spatial, spectral and radiometric resolution. Optical, near infra-red and thermal imaging sensors ( ASTR, AVHRR, IRS – LISS, LANDSAT, SPOT).Microwave imaging sensors (ERS 1/2, JERS, SAR, RADARSAT, SIR).

Unit 3.Remote Sensing Image Interpretation and AnalysisIntroduction, Elements of Image interpretation.Type of multispectral images, black and white and false color composite images. Data format for digital satellite imagery, Image classification (supervised and unsupervised). Image interpretation and digital processing techniques

Unit 4. Remote Sensing ApplicationsGeomorphologic studies, morphometric analysis, terrain evaluation and digital elevation modeling. Geological mapping with the help of recognition elements and image characters. Interpretation of rock types, deformation features, tectonic features and ground water potential. Application of GPS and GIS in civil engineering for study of environment, natural hazards, water resources, built-up urban system.

Text / Reference Books:

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1. Mathur, P. M. 1998: Computer Processing of Remotely-Sensed Images., John Wiley and Sons, UK.

2. Campbell, J. B. 1996: Introduction to Remote Sensing., IInd Edition, Taylor and Francis, London.

3. Paine, D.P., 1981: Aerial Photography and Image Interpretation for Recourse Management,., John Wiley.

4. Sabins, F.F., 1985: Remote Sensing Principles and Applications., Freeman.

5. Lillesand, T. M. and Keiffer, R.W., 1987: Remote Sensing and Image Interpretation., John Wiley

6. Moffit, F. H. and Mikhail, E. M., 1980: Photogrammetry, Harper and Row

CE - 483 Water Resources and Watershed ManagementCourse Category : DE/OE L - T - P : 3 - 1 - 0 Credit : 4

Unit 1 Types of watershed and their characteristics. Purpose of planning of watershed projects, Guidelines for project formulation, Management strategies, system concept, systems components and constraints.

Unit 2 Hydrologic cycle and its effect on man’s activity, erosion process and sediment yield, conservation practices, water resources and environmental problems, water quality management planning, Design of water resources systems.

Unit 3 Environmental impact assessment, adverse effects of dams and reservoir on environment, watershed management with multiple use concept.

Unit 4 Project economics: pattern of financing and credit, cost benefit analysis, Economic evaluation, project implementation and management, problems of execution and management.

Text / Reference Books:1. K.C. Patra, “Hydrology and water Resources Engineering”

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CE - 484 Project ManagementCourse Category: OE L - T - P: 3 - 1 - 0 Credits: 4.0

Construction organization: overview of construction, development and organization of projects, Construction organization structure.

Construction materials management: Economy in material management, inventory management and control, purchase and store management, specialized buying and vendors management.

Construction equipment management: equipment performance characteristics, selection, planning and matching of construction equipment, equipment management.

Construction contract management: legal aspects of contract, contract procedures and document, important contract clauses, quality control during construction.

Construction accounting: nature and role of accounting, accounting process and book of accounts, accounting conventions and final account, inventory valuation and depreciation.

Construction finance management: scope of financial management, working capital management, capital investment decision.

Construction human resources management: introduction to human resource management, labour legislation, industrial relations, women in construction.

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Course Structure

M. Tech. Programmein

Civil Engineering

Structural Engineering

Environmental Engineering

Hydraulic Structures

88

4 – Semester Course of M. Tech. in STRUCTURAL ENGINEERING

First SemesterCourse

No.Course Title L T P Sessional

Marks UniversityExam. Total

MarksTheory P/VCE - 601 Higher Numerical Analysis 4 1 - 25 75 - 100CE - 602 Theory of Elasticity and Plasticity 4 1 - 25 75 - 100CE - 603 Plates and Shells 4 1 - 25 75 - 100CE - 604 Advanced Structural Analysis 4 1 - 25 75 - 100CE - 605 Advanced Concrete Design 4 1 - 25 75 - 100

Elective - I 4 1 - 25 75 - 100Total 24 6 - 150 450 - 600

Second SemesterCE - 606 Finite Element Analysis 4 1 - 25 75 - 100CE - 607 Structural Dynamics 4 1 - 25 75 - 100CE - 608 Advanced Steel Design 4 1 - 25 75 - 100CE - 609 Construction Planning and

Management4 1 - 25 75 - 100

Elective – II 4 1 - 25 75 - 100Elective - III 4 1 - 25 75 - 100

Total 24 6 - 150 450 - 600L = Lecture, T = Tutorial, P = Practical, V = Viva- Voce

89

Course No.

Course Title L T P Sessional Marks

UniversityExam. Total MarksTheory P/V

Third SemesterCE - 701 Earthquake Resistant Design of

Structures4 1 - 25 75 - 100

CE - 790 Seminar-I - - 2 50 - - 50CE - 791 Lab./Project - - 6 60 - 40 100CE - 792 Dissertation (Preliminary) - - - 100 - - 100

Total 4 1 8 235 75 40 350Fourth SemesterCE - 792 Dissertation - - - 150 - 100 250CE - 793 Seminar-II* - - 2 - - 50 50

Total - - 2 150 - 150 300* Related to Dissertation Work

Grand Total for the whole course (4-semesters) 52 13 10 685 975 190 1850

90

LIST OF ELECTIVES for M. Tech in STRUCTURAL ENGINEERINGCourse

No.Course Title Course

No.Course Title

CE - 641 Advanced Soil Mechanics and Foundation Engineering

CE - 646 Offshore Structures

CE - 642 Advanced Construction Materials CE - 647 Building ServicesCE - 643 Stability Analysis of Structures CE - 648 Disaster Mitigation and ManagementCE - 644 Tall Buildings CE - 649 Reliability Based DesignCE - 645 Advanced Bridge Design CE - 650 Design of Industrial Structures

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4 – Semester Course of M. Tech. in HYDRAULIC STRUCTURES

First SemesterCourse

No.Course Title L T P Sessional

MarksUniversity Exam. Total

MarksTheory P/VCE - 611 Design of Irrigation Works 3 - 2 25 75 - 100CE - 612 Reservoir Engineering 4 1 - 25 75 - 100CE - 613 Fluvial Hydraulics 4 1 - 25 75 - 100CE - 614 Rigid Dam 4 1 - 25 75 - 100CE - 615 Earth and Rock fill Dams 3 - 2 25 75 - 100

Elective - I 4 1 - 25 75 - 100Total 22 4 4 150 450 - 600

Second SemesterCE - 616 Advanced Engg. Hydrology 4 1 - 25 75 - 100CE - 617 Hydropower Structures 4 1 - 25 75 - 100CE - 618 Advanced Hydraulics 4 1 - 25 75 - 100AM - 611 Higher Mathematics 4 1 - 25 75 - 100

Elective – II 4 1 - 25 75 - 100Elective - III 4 1 - 25 75 - 100

Total 24 6 - 150 450 - 600

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Course No.

Course Title L T P Sessional Marks

University Exam. Total MarksTheory P/V

Third SemesterCE - 711 Spillways and Energy Dissipaters 4 1 - 25 75 - 100CE - 790 Seminar-I - - 2 50 - - 50CE - 794 Lab./Project - - 6 60 - 40 100CE - 795 Dissertation (Preliminary) - - - 100 - 100

Total 4 1 8 235 75 40 350Fourth SemesterCE - 795 Dissertation - - - 150 - 100 250CE - 796 Seminar-II - - 2 - - 50 50

Total - - 2 150 - 150 300

Grand Total for the whole course (4-semesters) 50 11 14 685 975 190 1850

LIST OF ELECTIVESCourse No. Course Title Course No. Course TitleCE - 601 Higher Numerical Analysis CE - 662 Water Resources EngineeringCE - 609 Construction Planning and Management CE - 663 Experimental Methods in FluidsCE - 621 Water Reclamation and Reuse CE - 664 Hydrogeology and Ground Water ModelingCE - 625 Air Pollution Control CE - 685 Solid and Hazardous Waste

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CE - 661 Flow Through Porous Media AM - 612 Computational Fluid Dynamics4 – Semester Course of M. Tech. in ENVIRONMENTAL ENGINEERINGFirst SemesterCourse

No.Course Title L T P Sessional

MarksUniversity Exam. Total

MarksTheory P/VCE - 621 Water Reclamation and Reuse 4 1 - 25 75 - 100CE - 622 Environmental Chemistry 3 - 2 25 75 - 100CE - 623 Ecology and Environmental

Microbiology 3 - 2 25 75 - 100

CE - 624 Physical and Chemical Process of Water and Wastewater Treatment

4 1 - 25 75 - 100

CE - 625 Air Pollution and Control 4 1 - 25 75 - 100Elective - I 4 1 - 25 75 - 100

Total 22 4 4 150 450 - 600Second SemesterCE - 626 Biological Process of Wastewater

Treatment4 1 - 25 75 - 100

CE - 627 Industrial Wastewater Treatment 4 1 - 25 75 - 100CE - 628 Environmental Engg. Process Lab. 2 - 5 25 75 - 100CE - 629 Wastewater Treatment Plant

Design and Operation4 1 - 25 75 - 100

Elective – II 4 1 - 25 75 - 100Elective - III 4 1 - 25 75 - 100

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Total 22 5 5 150 450 - 600

Course No.

Course Title L T P Sessional Marks

University Exam. Total MarksTheory P/V

Third SemesterCE - 721 Water Treatment Plant Design and

Operation4 1 - 25 75 - 100

CE - 790 Seminar-I - - 2 50 - - 50CE - 797 Lab./Project - - 4 60 - 40 100CE - 798 Dissertation (Preliminary) - - - 100 - - 100

Total 4 1 6 235 75 40 350Fourth SemesterCE - 798 Dissertation - - - 150 - 100 250CE - 799 Seminar-II - - 2 - - 50 50

Total - - 2 150 - 150 300

Grand Total for the whole course (4-semesters) 48 10 17 685 975 190 1850

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LIST OF ELECTIVES for M. Tech. in ENVIRONMENTAL ENGINEERINGCourse No. Course Title Course No. Course TitleCE - 601 Higher Numerical Analysis CE - 685 Solid and Hazardous Waste ManagementCE - 681 Dispersion and Effects of Pollution

In EnvironmentCE - 686 Environmental Policies and Impact

AnalysisCE - 682 Statistical Procedures in

Environmental MonitoringCE - 687 Industrial Water Treatment and Corrosion

ControlCE - 683 Instrumental Methods for

Environmental AnalysisCE - 688 Anaerobic Technology for Waste water

TreatmentCE - 684 Environmental Toxicology

96

Syllabi

M. Tech. Programme

97

STRUCTURAL ENGINEERING

I - Semester

CE – 601 Higher Numerical Analysis (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Linear equations and eigenvalue problems; Accuracy of approximate calculations; Non-linear equations, interpolation; Differentiation and evaluation of single and multiple integrals; Numerical solution of differential equation, finite difference methods, Initial and boundary value problems; Newton’s method, variational and weighted residual methods, Introduction of FEM.

CE – 602 Theory of Elasticity and Plasticity(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Theory of stresses; Infinitesimal and finite strain; Strain–displacement relationships; Elastic constants; Stress and displacement functions; Plane problems in cartesian and polar co-ordinates; Elements of plasticity failure and yield criteria; flow rule, velocity field; Plastic stress-strain relationships; Incremental plasticity.

CE – 603 Plates and Shells (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Plates; basic concept, governing equations, boundary conditions, solution of rectangular and circular plates by classical methods, numerical methods; plates of various shapes, design criteria; Shells; basic concepts, membrane and bending analysis of cylindrical shells, shell of revolution, edge perturbations and secondary stresses ; numerical solutions; Approximate design methods for doubly curved shells; design criteria, code specification and parametric proportioning, stability considerations; Folded plates; forms, structural action, method of analysis, design considerations

98

CE – 604 Advanced Structural Analysis (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Matrix methods in skeletal structural analysis; force and displacement methods with application to plane and space frame problems; organization of computation, programming considerations; Non-linear analysis due to plasticity in frames.

CE – 605 Advanced Concrete Design (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Limit state design concept in flexure, shear, torsion and combined stresses, slender column; Safety and serviceability, control of cracks and deflections; Design of RC framed structures with ductility detailing; Yield line analysis of slabs, yield line mechanism, equilibrium and virtual work methods, Hillerberg’s strip method.Design of pre-stressed members for shear, torsion and bond; End blocks; Continuous beams and frames, slab and grid floor, tension and compression member, circular pre-stressing, pipes, tanks and special structures.

II - Semester

CE – 606 Finite Element Analysis (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Introduction, various types of finite elements, parametric and local coordinates, discretization, energy and variational approaches, convergence criteria, Applications: plane stress and plane strain problems; axisymetric solids, plate and shell structures, field problems.

99

CE – 607 Structural Dynamics (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Types of vibration and ground motions; Free and forced vibrations of single degree of freedom system, response to harmonic, periodic, impulsive and general dynamic loading, response of SDOF to earthquake; Free vibration of lumped multi degree of freedom system; Approximate methods for obtaining natural frequencies and mode shapes; Frequency domain analysis of lumped multi degree of freedom system using normal mode theory, Time domain analysis using numerical integration scheme; Free and forced vibrations of continuous system; Dynamic analysis of tall and massive structures.

CE – 608 Advanced Steel Design(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Design of steel bridges, plate girder bridge and truss girder bridge; Analysis and design of steel chimneys and tanks. Design of steel towers (transmission line and microwave towers); loads, classification and design procedure; Design of circular tubular sections; Brittle fracture and fatigue in steel structures, Plastic design of steel structure.

CE – 609 Construction Planning and Management (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Construction organization; overview of construction, development and organization of projects, Construction organization structure. Construction materials management: Economy in material management, inventory management and control, purchase and store management, specialized buying and vendors management. Construction equipment management; equipment performance characteristics, selection, planning and matching of construction equipment, equipment management. Construction contract management: legal aspects of contract, contract procedures and document, important contract clauses, quality control during construction; Construction accounting; nature and role of accounting, accounting process and book of accounts, accounting conventions and final account, inventory valuation and depreciation. Construction finance management; scope of financial management,

100

working capital management, capital investment decision; Construction human resources management; introduction to human resource management, labour legislation, industrial relations, women in construction.

III - Semester

CE – 701 Earthquake Resistant Design of Structures (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Characteristics of earthquakes: Earthquake terminology, magnitude, intensity, measurement of ground motion, frequency-magnitude relationship, liquefaction. Strong ground motion: Acceleration time histories, peak parameters (peak ground acceleration / velocity / displacement), response spectrum, site effects. Earthquake analysis of structures: Idealization of structures, response spectrum analysis, equivalent force concepts, torsionally coupled systems. Concepts of earthquake resistant design: objectives, ductility, ductility reduction factor, over-strength, response reduction factor, design response spectrum, lateral stiffness, building configuration, base isolation, concept of structural control. Building codes: Performance of buildings in past earthquakes, historical perspective of code development, Indian code (IS: 1893), provisions for buildings, Retrofitting and strengthening of structures (IS: 13935). Detailing for reinforced concrete and masonry buildings, provisions of IS: 13920, IS: 4326, IS: 13927, IS: 13928

CE – 702 Computational Lab/Project(L-T-P : 0-0-6) Sessional : 60 marks University Exam: 40 marks

Analysis and design of selected structures / structural elements / models.

Electives

CE – 641 Advanced Soil Mechanics and Foundation Engineering

(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Soil exploration for hydraulic structures and buildings, SPT, dynamic, static cone penetration tests and geophysical method; Bearing capacity,

101

settlement and lateral pressure; Design of shallow foundations; Spread, strip and combined footings (conventional and elastic line methods); Raft footing, Design of deep foundations; Piles and pile groups, pile caps; design of retaining walls and sheet piles; Principles of design of cofferdams and diaphragm walls; design of machine foundations.

CE – 642 Advanced Construction Materials (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Concrete and other cementitious composite materials; Timber, steel metals and alloys; Plastic and rubber; Paint, varnishes and coats; Glass, gypsum, Ceramics and tiles; Prefabricated systems; Prefabricated concrete, ferrocement and fibre reinforced concrete structural components; Reconstituted wood, particle board, insulation board, plywood and mineral wood.

CE – 643 Stability Analysis of Structures(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Buckling of axial and eccentrically loaded columns, beam-column, frames; Torsional instability; Flexural buckling of shells, Local buckling of plate and shell element, post buckling behaviour of columns, plates and shells

CE – 644 Tall Buildings (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Types of structural systems; types of loads; method of analysis; stability of tall structures; selection of foundation for tall buildings. Bluff body aerodynamics; aero-elastic phenomena; wind directionality effects; structural response and design considerations; standard provisions for wind loading. Introduction to earthquake engineering and earthquake resistant design of buildings; earthquake motion and response; general principles and design criteria for buildings; codal provisions, asiesmic design of structures; dynamic analysis; effect of torsion; design of stack like structures; earthquake forces in tall buildings. Shear in buildings; need and location of shear walls in tall buildings; analysis and design of shear walls.

CE – 645 Advanced Bridge Design (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

102

Geometric and Hydraulic design considerations, Loading and standards for highway and railway bridges, Introduction and selection of type. Reinforced and Pre-stressed Concrete Bridges: types and standard forms, Balanced cantilever Bridge, Arch bridges, Bowstring girder bridges, Pre-stressed Bridges; Steel Bridges: Plate girder bridge, Box girder bridge, Cable Stayed Bridge, Cantilever bridge; Design of pier and abutments, pile and well foundations, Bearings, Seismic design considerations.

CE – 646 Offshore Structures (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Introduction to offshore structures, classification, fixed and floating offshore structures, Wave theories, estimation of wave forces, Morison’s equation, wind and current loadings, Analysis and design of steel offshore structures, Pressure induced stresses, Analysis and design of concrete offshore plateform; Overview of offshore foundation.

CE – 647 Building Services (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Climatic factors, classification of tropical climates, thermal comfort factors, comfort indices, insulation materials, thermal qualities, thermal response of buildings, mechanical and structural means of thermal control. Energy conservation in buildings, design of building for minimum energy, low energy materials, construction techniques and environmental control, electrification, Lightning protection and earthingMoisture control in buildings; ventilation system, natural and artificial ventilation, air-conditioning systems, water supply, drainage and solid waste disposal system, fenestration. Acoustical design considerations; materials, reverberation, noise and its control, illumination, design luminaries and their characteristics, codal requirements. Fire protection and equipment, codal provisions, elevators, escalators and conveyors; Preventive maintenance; Building Bye-Laws and standards

CE – 648 Disaster Mitigation and Management (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Understanding of Disasters: Earthquake, flood, cyclone, landslide etc. Preparedness and Mitigation: Disaster mapping, predictability, forecasting and warning, disaster preparedness plans, Land use zoning for disaster management.Reconstruction and rehabilitation: Disaster resistant housing, retrofitting, repair and re-strengthening. Man made

103

disasters: Nuclear, chemical and biological disasters, building fire. Disaster Management and Awareness: Human behaviour and response, community participation and awareness, public awareness programmes.

CE – 649 Reliability Based design (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Importance of reliability based design in Civil Engineering, historical review, Characteristic values, Cornell reliability index, first order second moment reliability index, Hosofer and Lind reliability index, Determination of design points, calculation of failure probabilities, reliability of series and parallel system, Stochastic model for material strength and loads, applications.

CE – 650 Design of Industrial Structures (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Planning of industrial structures; Design of single and multi-bay industrial structures in steel and concrete; Bunkers and Silos; Pressure vessels and Chimneys; Cooling towers; Large span roof structures; Suspension roof structures; Structural aspect of machine foundations.

104

ENVIRONMENTAL ENGINEERING

I - Semester

CE – 621 Water Reclamation & Reuse(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Effluent quality from wastewater treatment plants; Water reclamation processes; Advanced wastewater treatment, reverse osmosis, adsorption ion exchange, Reuse of water for irrigation, industry, ground water recharge, potable water, Treatment flowsheets for various uses, Water quality criteria, Case studies

CE – 622 Environmental Chemistry(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Units of measurement, Chemical Kinetics, Acid base chemistry, Solubility concepts, Oxidation-reduction reactions, Chemical equilibria, Organic chemistry, Aquatic chemistry, Atmospheric chemistry, Pesticides, Surfactants and their biodegradability, Laboratory practice for determination of ions and solids.

CE – 623 Ecology and Environmental Microbiology(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Principles of ecology, Food chain, Trophic levels, Ecosystems, Biochemistry of natural compounds, Classification of microorganisms, Growth pattern of microorganisms, Biochemical reactions, Microbiology of aerobic and anaerobic processes, Biochemical pathways, Metabolism, Energy concepts, Pathogenic diseases, Basic microbiology of water air and soil, Application of microbiology for pollution control, Laboratory Practice

105

CE – 624 Physical & Chemical Processes of Water and Wastewater Treatment

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Water quality, Gas Transfer and aeration, Coagulation, Flocculation, Sedimentation, Flotation, Filtration, Chemical Precipitation, Disinfection, Water stabilization, Adsorption, Ion Exchange , Reverse osmosis

CE – 625 Air Pollution & Control(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Classification and sources of air pollutants, Principles of meteorology and diffusion of pollutants, Dispersion models, Theory and description of control devices and their applications, Sources and effects of noise pollution, Kinetics of noise, Measurement and control of noise pollution.

II - Semester

CE – 626 Biological Processes of Wastewater Treatment(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Types of reactors, Reactor profiles, Plug flow reactor and completely mixed reactors, kinetics of microbial growth and substrate utilization, types of biological reactors, activated sludge process, trickling filter, biological nitrification and denitrification, stabilization ponds, Anaerobic processes – Fundamentals and process design parameters.

CE - 627 Industrial Wastewater Treatment(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Wastewater characteristics, Material and energy balance, Industrial waste surveys, Industrial effluents and their characteristics, Equalization, Neutralisation, Strength and volume reduction, Overview of wastewater treatment processes, Aerobic and anaerobic treatment of industrial wastewaters, Identification of treatment flowsheets and wastewater treatment for selected industries.

CE – 628 Environmental Engineering Processes Lab.(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

106

Analysis of unit operations related with water and wastewater treatment, sedimentation, coagulation and flocculation, aeration, chemical precipitation, Hydraulic characteristics of reactors, aerobic and anaerobic biological treatment.

CE – 629 Wastewater Treatment Plant Design and Operation

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Wastewater treatment flowsheets, Screens, Grit channel, Activated Sludge Process, Extended Aeration, Trickling Filter, Aerated Lagoons, Stabilization ponds, UASB reactor, Sludge Treatment

III - Semester

CE – 721 Water Treatment Plant Design and Operation(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Treatment flowsheets, Mass balance calculations, Treatment plant hydraulics, Flow measurement, Parshall flume Manifold hydraulic design, Aeration Rapid mixing, Flocculation, Sedimentation, Granular media filtration, Hydraulic profile, Chemical precipitation, chlorine contact tank, Sludge handling

Electives

CE –681 Dispersion and Effects of Pollutants in Environment

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Impacts of pollutants on environment , Environmental Pollution, Effluent disposal into lakes, rivers and oceans, Ocean outfall design, Dispersion of contaminants in air and water – surface and ground water, Pollutant transport

107

CE – 682 Statistical Procedures in Environmental Monitoring

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Statistical characteristics of data, Normal/Gaussian Distribution, Confidence interval, Probability plots, Regression analysis, Statistical aspects of data anlysis, Risk assessment, Design of experiments, Optimisation Methods

CE – 683 Instrumental Methods for Environmental Analysis

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Theory and methods of analysis of air, water and wastewater for contaminants, Priciples of instrumentation, Laboratory experiments using advance electronic instrumentation, Ion selectivity electrodes- theory and applications, Principles in colorimetric and spectrophotometric analysis, Flame photometry, Atomic absorption spectrophotometry, Gas- Liquid Chromatography

CE – 684 Environmental Toxicology(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Introduction to general toxicity, toxicology organic and inorganic compounds, identification of toxicants in water and wastewater treatment, dose-response relationship, effects of pollutants on biological treatment of wastewaters. Effects of environmental toxicants on humans and microorganisms.

CE – 685 Solid and Hazardous Waste Management(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Solid Wastes- origin, characteristics, quantity and analysis, Effects of solid wastes- municipal, agricultural and industrial, Storage, collection and transport of solid wastes, Solid waste disposal and treatment, Sanitary landfill, Composting, Incineration, Pyrolysis, Biogas recovery, Refuse treatment for product recovery, Hazardous wastes- classification, alternatives in management, Treatment- biological and chemical, Disposal of hazardous wastes

108

CE – 686 Environmental Policies and Impact Analysis(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Disposal of pollutants in environment and their effects, Air and water quality criteria, standards, framework for environmental assessment, Prediction and assessment of impact on air water and biological environment, Socio economic environment, Methods of impact analysis, EIA techniques for industrial facility construction and operation, Legal aspects- Legislation in the Indian context, Acts related to air and water, Case Studies

CE – 687 Industrial Water Treatment and Corrosion Control

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Water quality criteria for industrial supply, Cooling water systems, Problems in cooling water systems, Corrosion, scale formation and fouling. Corrosion – types and control techniques- Inhibitors, cathodic and anodic protection. Anticorrosive coatings. Factors affecting scale depostion and fouling. Scaling and fouling control. Biofilm formation and control.

CE – 688 Anaerobic Technology for Wastewater Treatment

(L-T-P : 4-1-0) Sessional marks : 25 University Exam marks: 75

Anaerobic treatment- Fundamental concepts, Applications, Process Monitoring and Control, Anaerobic treatment of wastewaters in suspended growth and fixed film processes, Process design, UASB Process design for various types of wastewaters, Anaerobic sludge digestion, Selected case studies.

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HYDRAULIC STRUCTURES

I - Semester

CE – 611 Design of Irrigation work(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Hydraulic structures on permeable foundation, Effect of 3-dimensional seepage on structure of finite width. Planning of an irrigation project, Failure of hydraulic structures founded on permeable soil, Design of flumed glacis fall, guide bund, head regulator, silt excluder, silt ejector, level crossing, canal siphon and design of super critical transitions.

CE – 612 Reservoir Engineering(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Reservoirs: Types, Site selection, site Investigations physical characteristics, Determination of elevation-area and elevation capacity curves, various zones of reservoir, water surface profile, yield, water losses, selection of capacity of reservoir for constant and variable demand. Allocation of storage space in a reservoir: Criteria of fixation of storage space for various purposes, Peak flood estimation, Flood routing, Reservoir operation, Wind setup and waves in reservoir. Reservoir Sedimentation: Mechanics of sedimentation, Estimation of silt load-sampling method and empirical formula, life of a reservoir, distribution of sediment in a reservoir. Probability concepts in reservoir planning and design: Basic concept of probability theory, Common probability distribution, Random number generation, least square analysis and

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correlation coefficient, Synthetic stream flow generation, Concept of Risk, Reliability and safety factor, for a Reservoir.

CE- 613 Fluvial Hydraulics(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Sediment properties, Initiation of motion, Bed forms, Bed load, suspended load and total load equations, Velocity distribution in alluvial streams, Sediment sampling Design of stable channels in alluvium. Regime concept and rational methods: Hydraulics of alluvial rivers, Meandering, aggradation, degradation and localized scour problems. River models. Sediment flow through pipes.

CE – 614 Rigid Dams(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

General: Types, characteristics, Relative merits and demerits, Site investigations and selections, preparation and treatment of the foundation grouting. Gravity dams : Forces acting, Stability requirements, design criteria, modes of failure and factor of safety, methods of analysis, dam profile. Stress analysis in Gravity dams, Normal and shear stresses, Principal stresses, Internal stresses, Zoning of gravity dams, galleries in dams, stress concentration around openings, joints in dams, construction of gravity dams. Arch Dam : General consideration, types and characteristics, Forces acting on Arch dams, Design criteria, Cylinder theory and elastic theory of design, Construction of arch dams. Buttress dam : Merits, Types and characteristics, Forces acting, design of deck buttresses, Unit column theory, Construction of buttress dam.

CE – 615 Earth and Rockfill Dams(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Basic design considerations, Foundation exploration for Earth and Rockfill dams, seepage theory. Control of seepage through embankment dams, Treatment of foundations for embankment dams. Cracking of earth dams, Stability analysis. General characteristics of Rockfill dams as its design considerations. Quality controln construction of embankments, monitoring of post-construction behavior: River diversion during construction.

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II - Semester

CE - 616 Advanced Engineering Hydrology(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Design storms, Probable maximum precipitation, Stream flow measurement, Stream flow generation, Separation of stream flow components, Derivation of unit hydrograph, Synthetic unit hydrograph, Statistical and Probability analysis of hydrological data, Probability and stochastic methods of flood frequency, Regional flood frequency analysis, Risk, Reliability and safety factor, Flood routing, Linear regression and Correlation, Mathematical models in hydrology.

CE – 617 Hydro Power Structure(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Genera: Hydro Power potential of India and world, Various sources of energy, Estimation of Hydro Power potential. Classification of Hydel schemes: terminology, Load duration curve, Primary and Secondary powers, Storage and pondage. Intakes: types, Penstocks, Classification and design, Tunnels; purpose and lining, Draft tubes; Hydraulic design of draft tubes. Water Hammer Analysis: Rigid and elastic column theories, Surge chambers, classification and Hydraulic design of surge chambers. Turbines: Setting of turbines, Preliminary design and layout of Hydro - power schemes, substructures and superstructures.

CE – 618 Advanced Hydraulics(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks Compound channels, Channel control, Sharp crested, Broad crested and Proportional wier, Free and submerged flows, flows through sluice gate, Transitions. Jump in expanding and contracting channels and in channels with abrupt drops and rise, Location and control of jump, forced jump, Hydraulic jump at interface, Velocity variation in hydraulic jump. Sub critical and supercritical expanding and contracting transitions, determination of flow profile and energy loss, flow through channel bends, flow past bridge piers and islands, steady non-uniform flow, Back water calculation at islands, confluences in non-prismatic channels. Self aerated flows, Fundamental characteristics, Insertion of air entrainment, air contracentration distribution, Turbulent diffusion and dispersion in

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steady open channel flow. Deep water waves, progressive waves, Solitary waves, Dam-break problem, Spatially varied flow, Flow profile for increasing and decreasing discharges, side weirs.

AM – 611 Higher Mathematics(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Frobenius method of series solution, Legendre polynomials and their properties, Chebychey polynomials, Solution of boundary value problem by Greens function method. Fourier transform and its applications to solution of differential equations.Optimization : Formulation of linear programming problem, Solution by graphical and Simplex methods, Duality. Probability, sample space, events. Solution of simple problems using laws of Probability. Conditional probability, Dependent and Independent events. Addition and Multiplication theorems of Probability. Repeated trials. Random Variables, Binomial, Normal and other distributions

III - Semester

CE – 711 Spillways and Energy Dissipaters(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Types of spillways, stability, Performance and design, Energy dissipaters and stilling basin, Intake gates and valves, Outlet works, Stream-bed protection works.

CE – 794 Lab. Project(L-T-P : 0-0-6) Sessional : 60 marks University Exam: 40 marks

(a) Experiments:Experiment on Loss coefficients.Scour at bridge pierScour due to a JetStudy of venturiflume in Channels.Roughness Determination in Channels.Study the Characteristics of runoff hydrograph.Detailed study of Hydraulic Jump in Rectangular Channel.

(b) Project: Analysis and design of selected hydraulic structures / structural elements / models.

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Electives

CE – 601 Higher Numerical Analysis(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Linear equations and eigenvalue problems; Accuracy of approximate calculations; Non-linear equations, interpolation: Langrange, Newton’s and Hermite interpolation; Differentiation and evaluation of single and multiple integrals; Numerical solution of differential equation, finite difference methods, Initial and boundary value problems.

CE – 609 Construction Planning and Management (L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Construction organization: overview of construction, development and organization of projects, Construction organization structure. Construction materials management: Economy in material management, inventory management and control, purchase and store management, specialized buying and vendors management. Construction equipment management: equipment performance characteristics, selection, planning and matching of construction equipment, equipment management. Construction contract management: legal aspects of contract, contract procedures and document, important contract clauses, quality control during construction. Construction accounting: nature and role of accounting, accounting process and book of accounts, accounting conventions and final account, inventory valuation and depreciation. Construction finance management: scope of financial management, working capital management, capital investment decision.Construction human resources management: introduction to human resource management, labour legislation, industrial relations, women in construction.

CE – 621 Water Reclamation & Reuse(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Effluent quality from wastewater treatment plants, Water reclamation processes, Advanced wastewater treatment, reverse osmosis, adsorption ion exchange, Reuse of water for irrigation, industry, ground water recharge, potable water, Treatment flow sheets for various uses, Water quality criteria, Case studies.

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CE – 625 Air Pollution & Control(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Classification and sources of air pollutants, Principles of meteorology and diffusion of pollutants, Dispersion models, Theory and description of control devices and their applications, Sources and effects of noise pollution, Kinetics of noise, Measurement and control of noise pollution

CE – 661 Flow Through Porous Media(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Linear and non-linear seepage through porous media, Equations of motion, Seepage model, Kozney and Carmon equation, steady state seepage: Unconfined aquifers: with positive and negative recharge, Leaky artesian aquifers; one and two layered systems, Aquifers with inclined impervious boundary , Method of images, Partially penetrating wells, Non-equilibrium seepage, Determination of aquifer constants, sea water intrusion in costal aquifers, model studies and numerical analysis of ground water problems: Finite element and finite difference technique.

CE – 662 Water Resources Engineering(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Objectives of water resources development, Economic and Technologic concepts, Graphic techniques, Simplified river-basin system, Conventional planning process, Simulation analysis, Mathematical models.

CE – 663 Experimental Methods in Fluids(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Introduction to Instruments and their representation, Selection of Instruments, Data Transmission Elements, Indicating and Recording Elements. Introduction to Force, Motion Measurements, Pressure, Temperature and Flow Measurements. Basic statistical concepts. Normal Distribution, Test of outlier, Graphical Representation and curve fitting of data. Reliability of Statistical Analysis.

CE - 664 Hydrogeology and Ground Water Modeling(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

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Porosity and Related Parameters, Laboratory parameters, Grain Size Analysis. Confirmed, Homogeneous and Heterogeneous Aquifer, Confined one dimensional steady state Flow in aquifer. Confined one dimensional Flow in Aquifer with varying thickness. Aquifer with and without infiltration, confined non-leaky Aquifers. Sudden change at the Boundary, Hydrogeological Parameters, flow nets. Water walls steady static flow. Group of wells, wells near boundaries, Three step modeling concept. Time series modeling, numerical ground water flow Modeling, calibrated models, Pumping Tests.

CE – 685 Solid and Hazardous Waste Management(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Solid Wastes; origin, characteristics, quantity and analysis, Effects of solid wastes- municipal, agricultural and industrial, Storage, collection and transport of solid wastes, Solid waste disposal and treatment, Sanitary landfill, Composting, Incenaration, Pyrolysis, Biogas recovery, Refuse treatment for product recovery, Hazardous wastes- classification, alternative in management, Treatment- biological and chemical, Disposal of hazardous wastes.

AM – 612 Computational Fluid Dynamics(L-T-P : 4-1-0) Sessional : 25 marks University Exam: 75 marks

Complex Analysis: Analysis functions, Equipotential curves and streamlines and their orthogonality, complex potential, Potential flow, Singularities of potential functions and their types. Sources and sinks. Image system to form the complex potential. Doublets Complex integration, Laurentz Series, Residue Theorem and its applications. Numerical Solution of system of equations: Nonlinear equations by Newton-Raphson and general iterative methods. Numerical solution of a system of differential equations by Runge-Kutta methods of order two and four. Numerical Solution of ordinary differential equations and partial differential equations: Solution of Boundary value problems by weighted residual methods: Collocation, Galerkin and Rayleigh-Ritz methods, Parabolic equations: Schmidt and Crank-Nicholson Schemes, Elliptic equations: Five points scheme, Hyperbolic equations: Explicit and implicit schemes.