B.Tech : I – year - II Semester
LESSON PLAN
Sub Code Subject Name Class
: : :
CE0102 Elements of Building Material Science and Architecture II Semester
Lecture Number
1.
2. 3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13. 14. 15.
Topic
Overview of the syllabus stones, Bricks, Cement – Manufacturing process Types applications - Properties Methods of testing stones, Bricks and Cement Mortar, concrete, steel and timber – Manufactures process Types, applications – Properties, Testing procedures Methods of improving ductility and fire resistance of concrete – reinforced concrete Fibre reinforced concrete, prestressing principles ferrocement – high strength concrete and high performance concrete – Admixtures Wood based products, paints, varnishes, distempers – Types, process of manufacture and application Asbestos, glass, tiles, terracotta, porce lain, stone ware earthen ware – types, process of manufacture and application Geo synthetics, polymer products, fibre reinforced plastics - Types process of manufacture and application Materials for thermal insulator, acoustic modification – paradigm of sustainable technology and green concrete Blended cement concrete, geo polymer concrete bacterial concrete, Recycled concrete Smart concrete, Self health monitoring concrete reactive powder concrete Readymixed concrete, Self compacting concrete, high density concrete low density
concrete, Roller compacted concrete – TMT bars Ass. I Ass. II Model Exam
Reference / Books (Chapter
Reference) 1,3 (2 hours)
1,3 (2 hours) 1,3 (2 hours)
1,3 (2 hours)
1,3 (2 hours) Handout
1,3 (2 hours)
1,3 (2 hours)
1,3, 4 (2 hours)
1,3 & 4 (2 hours)
1,3 – Ref. (2 hours)
1,3 – Ref. (2 hours)
1,3 – Ref. (2 hours)
Reference / Test Books
1. Varghese P.C “Building Materials, Prentice Hall, India 2005 2. Rangwala S.C. Engg. Materials, Charotor Publishing House, 1980
3. Surendra Singh, Building Materials, Vikas Publishing Company, New Delhi,
1996 4 Arora and Bindra S.P., Building Construction, Planning Techniques and
Method of Construction “, Dhanpat Rai Sons, New Delhi 1988.
Reference Books
1. Gurucharan Singh, Building Construction and Materials, Standard Book House, Delhi 1988.
2. Shetty M.S. Concrete Technology, S Chand and company, New Delhi, 1988.
3. Lecture Notes on Special Concretes, special Concrete, 2007, Department of Civil
engineering, SRM Engineering College, Kattankulathur.
Prepared By Mr.J.Rajprasad L.Krishnaraj
Approved By Dr.R.Annadurai
HOD/Civil
Title Topics Lecture No. Environment and Ecosystems
Environmental Education - Definition - Scope - Importance - Objectives
1
Ecosystem - Definition - Concept of an ecosystem - Types of ecosystem – terrestrial, aquatic - Terrestrial ecosystem - Types - Forest ecosystem – types and location - Tropical, temperate forests, rainforest,
grassland, tundra, deciduous forests - Desert ecosystem
Hot and cold deserts (climatic conditions, animals and plants)
2
Aquatic ecosystems - Types - Aquatic ecosystem – definition - Types – freshwater and marine - Freshwater – lotic and lentic - Pond, lake (plants and animals)-
Eutrophication - River ecosystem - Wetlands - Marine ecosystem
Zones - oceanic, profundal, benthic, intertidal, estuaries, coral reefs, salt marshes
3
Structure and function of an ecosystem - Biotic components – producers, consumers
4
FACULTY OF ENGINEERING & TECHNOLOGY SRM UNIVERSITY
LESSON PLAN
Sub: Principles of Environmental Science Subj. Code: GE0104 Semester: II Class: Common to all branches Total No. of hours: 30
(primary, secondary and tertiary) and decomposers with examples
- Abiotic components – light, temperature, humidity, pH
- Nutrient cycling - Energy flow in an ecosystem – bio
geochemical cycle Nitrogen cycle, carbon cycle, oxygen cycle and water cycle
- Stability of an ecosystem
Food chain – definition - Types – grazing, parasitic and detritus with
examples - Food web – definition and importance
5
Ecological pyramids – definition - Types – Number, biomass and energy
(upright and inverted pyramids) - Ecological succession – definition - Types – primary and secondary - Stages involved
6
Bio diversity Biodiversity – Introduction, Definition - Levels of biodiversity - Genetic diversity – definition, explanation,
examples - Species diversity – definition, example,
species richness, species evenness, keystone, alien, exotic, extinct, indicator and sentinel species
- Ecosystem diversity – definition, explanation
7
Value of biodiversity - Consumptive use – explanation , example - Productive use– explanation, example - Social – explanation, example - Ethical– explanation, example - Aesthetic– explanation, example - Option– explanation , example
8
Threats to biodiversity - Main causes for reduction in biodiversity - Habitat loss, Fragmentation, deforestation,
introduction of exotic species - Poaching of wildlife
9
Endangered and Endemic species of India - Definition - Red data book
10
Conservation of biodiversity - Explanation - Importance
11
- In – situ conservation - Explanation - Project Tiger - Project Elephant - Project Rhinocerous - Advantages - Disadvantages
Ex – situ conservation - Explanation - Advantages - Disadvantages
12
Pollution and Waste Management
Air pollution - Classification of pollutants-Primary and
secondary - Gases – SOx, NOx, CO, CO2, H2S- sources
causes and effects - Particulate matter – sources, causes and
effects
13
Control measures of air pollution - Gravity settling, cyclone collector,
electrostatic precipitator, wet scrubber, bag house filters
- Internal combustion engine - Aforestation - Cleaning of exhaust gases
14
Water pollution - Classification of pollutants - Types of sources-Point sources and non point
sources - Effects
15
Waste water treatment - Preliminary - Primary - Secondary (activated sludge and trickling
filter) - Tertiary treatment
16
Solid waste management- Definition - Types of solid waste - Classification - Process of management - Collection, transport, storage, disposal- - Incineration - Land filling - Composting
17
- Open dumping Effects of Municipal waste, hazardous and biomedical waste
- Process of waste management - Disposal methods - Autoclaving - Pyrolysis - Incineration - Microwaving - Shredding
18
Current Environmental Issues
Environmental ethics – issues and possible solutions 19
Population explosion, climatic change, ozone layer- depletion
20
Global warming, acid rain and green house effect 21 Sustainable development – definition and objectives, hurdles of sustainable development
22
Environmental dimensions of sustainable Development
23
Environmental audit for sustainable development Types of environmental audit
24
Environmental Protection
National Concern for environment 25
International Concern for environment Environmental protection acts in India
- Water act and Air act 26
Wild life and forest conservation act 27 Functions of State and Central pollution control
boards 28
International efforts - Rio declaration – Agenda 21 - Vienna convention
29
- Kyoto protocol - Johannesburg summit
30
Internal Marks (Max. 50) Weightage
Cycle Test I 10 Cycle Test II 10 Surprise Test 05 Attendance 05 Model Exam 20
TOTAL 50 Marks
External Exam (Weightage Max.) 50 Marks
Lecture No.
Topic covered No. of Hours
Reference
1 Overall view of the syllabus 1 1,2,3,4,5,6 2 Determination of deflection 1 1,2 3 Double integration method 3 1,2 4 Macaulay’s method 5 1,2 5 Conjugate beam method 3 1,2 6 Moment-Area method 2 1,2 7 Effect of Shear on Deflection 1 1,2 8 Deflection of spring 1 1,2 Cycle Test I 9 Energy concepts – theorems – Principle of virtual
works 4 1,2,3,4
10 Deflection of beams(unit load method) 4 1,2,3,4 11 Deflection of pin jointed frames(unit load
method) 4 1,2,3,4
12 Maxwell’s reciprocal theorem with solved examples
2 1,2,3,4
13 Willot Mohr Diagram 1 1,2,3,4 14 Euler’s theorem for columns 3 1,2 15 Rankine’s theory for columns 3 1,2 16 Eccentrically loaded columns – combined
bending and axial load (middle third rule) 4 1,2
Cycle Test II 17 State of stress in 3-Dimensions – matrix
formulation – determination of Principal stresses in 3-Dimensions
4 5
18 Theories of failure 2 1,2 19 Problem solving in theories of failure 2 1,2 20 Finding product moment of inertia and Principal
Moment of Inertia 2 1,2
21 Unsymmetrical bending – biaxial bending of 2 1,2
Lecture Hours (L)
Tutorial Hours (T)
Practical Hours (P)
Credits (C)
2 2 0 3
B.Tech II year -IV - Semester
SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN CE0202 – STRENGTH OF MATERIALS
purlins(channels, angle sections) Model Examination 22 Shear centre 2 1,2 23 Curved bars – hooks 2 1,2 24 D’Alemberts Principle – Equation of motion of
SDOF system – Solution of undamped system 2 6
Note: The faculty members handling the course may conduct surprise test according to their convenience.
Reference:
1. 2.
3.
4.
5. 6.
Rajput R.K., Strength of Materials, S.Chand of Company Ltd - New Delhi.2001 Punmia.B.C., Ashok Kumar Jain, Arun Kumar Jain, Strength of Materials and Theory of Structures, Vol 1, Laxmi Publications, 9th edition.1992 Beer and Johnson , "Mechanics for Engineers", Statics and Dynamics, Mc Graw Hill Book Company,1987 Gupta.S.P., Pandit.G.S., Gupta.R, Theory of Structures, Vol.I Tata McGraw Hill Publishing Company, 1999 Dr.Sadhu Singh, Theory of Elasticity, pg 1-5, 26,27, Khanna Publishers, Delhi Paz,M, Structural Dynamics – Theory and Computations, CBS Publications, New Delhi, 1983
Prepared by Dr. S. Elavenil Dr. K. Gunasekaran
Approved by Dr.R.Annadurai
HOD/CIVIL
Lecture No.
Topics Covered No. of
hrs.Reference
1 INTRODUCTION - Type of steel Structures - Properties of Indian standard rolled steel sections
1 1
2 Allowable stresses in steel- Types of load 1 1 3 Load analysis- applicable codes for load
estimation - load combination- general design requirements -increase in allowable stresses
1 1
4 Light gauge steel as structural material - usesand application - applicable IS codes for lightgauge steel.
1 1
5 JOINTS - Bolted and welded connections- failure of joints - permissible stresses for various types of bolts and welds
1 1
6 Design of bolted connections for members subjected to axial forces
5 1
11 Strength of fillet and butt-welded joints- design of brackets, design of welded joints for eccentrically loaded connections.
4 1
15 Design of simple and built up members subjected to tension- tension splices
4 1
19 Maximum slenderness ratio maximum slenderness ratio of compression member- IS code provisions of compression member- design of simple and built up compression members with lacing and battens
3 1
22 Design of slab base and gusseted base 2 1 24 Design of simple beams based on strength
and stiffness as per IS code 2 1
FACULTY OF ENGINEERING AND TECHNOLOGY DEPARTMENT O F CIVIL ENGINEERING SRM UNIVERSITY, KATTANKULATHUR
SUBJECT CODE/ TITLE: CE 0204 / STRUCTURAL DESIGN – I (STEEL)
26 Design of built up beams - curtailment of flange plates- connection of flange plates and beams- Need for lateral support for compression Flange
2 1
28 Design of Welded Plate Girder (simple design - no stiffeners)
2 1
30 Types of roof trusses for different spans 1 1
31 Estimation of dead, live and wind loads 1 1 32 Design of joints 2 1 34 Design of purlins - Use of SP 38 - Use of
Rolled steel sections and pipes for roof trusses
2 1
36 Design of Gantry Girder. Introduction to tension structures.
2 1
38 Design of light gauge steel members Local and post buckling of thin element
1 4
39 Light gauge steel compression members 3 4 42 Light gauge steel Tension members 1 4 43 Light gauge steel Beams 2 4 45 Light gauge steel connections. 1 4
References:
1. N.Subramanian., Design of Steel Structures, Oxford University press, NewDelhi, 1st Edition. 2008.
2. IS CODES: IS 800, IS 801, IS 811 AND SP6 (1) (Steel & Light gauge sections)
3. Dr.V.L.Shah, Limit State Design of Steel Structures, Structures Publications, 2009.
4. Dr. B. C. Punmia and Ashok Kr. Jain and Arun Kr. Jain, Comprehensive Design of Steel Structures, 1998, Laxmi Publications.
Prepared By K.Gomathi Ms.S.Hemamalini
Approved By Dr.R.Annadurai
HOD/Civil
S.No. TOPICS TO BE COVERED LECTURE HRS
REFERENCE
1. Pressure and Pressure head of a liquid, Pascal’s law
1 1, 2
2. Absolute and Gauge pressure 1 1, 2
3. Measurement of pressure, types of manometers
1 1, 2
4. Advantages and limitation of manometers
1 1, 2
5. Mechanical gauges, Bourdan tube gauge 1 1, 2 6. Problems in Manometers 1 1, 2 7. Problems in Manometers 1 1, 2 8. Problems in Manometers 1 1, 2 9. Problems in Manometers 1 1, 2
VELOCITY & DISCHARGE MEASUREMENT
10. Velocity and discharge, Pitot tube & current meter
1 1, 2
11. Floats and their types 1 1, 2 12. Venturimeter – Problems 1 1, 2 13. Orificemeter – Problems 1 1, 2 14. Rotometer , Types of notches 1 1, 2 15. Rectangular and triangular notch 1 1, 2
16. Trapezoidal, Stepped notch, Broad, Narrow and Ogee weir
1 1, 2
17. Problems in notches 1 1, 2 18. Discharge due to error in head 1 1, 2
OPEN CHANNEL FLOW
19. Definitions, types of channels, types of flows
1 1, 2
20. Chezys, Kutter and Mannings formula 1 1, 2 21. Problems 1 1, 2 22. Most economical section – Rectangular 1 1, 2
23. Most economical section – Trapezoidal 1 1, 2
25. Non uniform flow, specific energy and curves
1 1, 2
26. Problems 1 1, 2 27. Hydraulic jump & problems 1 1, 2
28. Measurement of flow of irregular channels
1 1, 2
CE0206 APPLIED HYDRAULIC ENGINEERING
LESSON PLAN
3 0 0 3
S.No. TOPICS TO BE COVERED LECTURE HRS
REFERENCE
PUMPS 29. Classification of Pumps, Centrifugal
pump, Component & Working 1 1, 2
30. Velocity triangle, workdone, losses and efficiency, specific speed
1 1, 2
31. Problems 1 1, 2 32. Problems 1 1, 2 33. Multistage pump, Characteristic curves 1 1, 2
34. Reciprocating pump, component and working
1 1, 2
35. Discharge, workdone, coefficient of discharge, slip, Indicator diagram
1 1, 2
36. Effect of acceleration and friction , Air essel
1 1, 2
37. Problems 1 1, 2 TURBINES
38. Components of Hydro Electric Power plant
1 1, 2
39. Classification , Pelton wheel 1 1, 2 40. Problems 1 1, 2 41. Kaplan turbine – Problems 1 1, 2 42. Francis turbine – Problems 1 1, 2 43. Problems 1 1, 2 44. Draft tube theory, specific speed 1 1, 2 45. Cavitation and selection of turbines 1 1, 2
REFERENCE BOOKS
1. P.N. Modi and S.M. Seth, Hydraulics and Fluid Mechanics, Standard Book House, 2005.
2. Rajput R.K., Fluid Mechanics and Hydraulic Machines, S.Chand and Company Ltd., 2005
PREPARED BY Dr. G. Baskar Mr.R.Sathyanathan.
Approved by Dr.Annadurai, H.O.D.CIVIL
SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN CE 0208 Advanced surveying and remote sensing
Semester-IV L -3 T- 0 P- 0 C- 3
Sl No Topics to be covered No. of Hrs Reference BASIC PRINCIPLES OF REMOTE SENSING
1 2 3 4 5
Introduction Definition Historical - Remote Sensing in India -. Electromagnetic Radiation ( EMR )- Electromagnetic Spectrum - Effect of Atmosphere on EMR - EMR with matter
2 2 2 2 1
1,3 1,3 1,3 1,3 1,3
EDM, TOTAL STATION, GPS SURVEYING 6
Electro-optical system, Measuring Principle, 2 1,3
7 8
Working Principle, Sources of error, Total station, Microwave system Measuring and working
2 2
1,3 1,3
principle, 9 10
Sources of error, GPS - Fundamentals - Introduction space, Control segments -
2 1
1,3
Observation principle, Orbit Representation PHOTOGRAMMETRY SURVEYING
11 12 12 13 14
Introduction terrestrial and aerial photographs - photo theodolite - applications - vertical and oblique photographs - height determination contouring - photographic interpretations - Stereoscopy - parallax bar.
1 2 2 2 2
1,2 1,2 1,2 1,2
PLATFORMS AND SENSOR SYSTEMS 15
Introduction - Airborne Platforms - 1 1,4
16 17 18 19
Space borne Platforms - Sensors - Definition - Parameter - Spectral Band Selection - Scanners - Radiometer - Radar - Path-Row System
2 2 2 2
1,4 1,4 1,4 1,4
APPLICATIONS OF REMOTE SENSING 20 21 22 23 24
Introduction - Merits and Demerits of Remote Sensing Data - Applications of Remote Sensing for Resources Mapping - Geology, Groundwater, Land use and Land cover, Soil Mapping, Flood Mapping, Disaster Structures Mapping, Coastal Studies, Environmental
1 2 2 2 2
1,4 1,4 1,4 1,4 1,4
Impact Assessment Total 45
TEXT BOOKS 1. C.S.Agarwal, P.K.Garg, Remote Sensing, Wheekrs Publishing Co., 2000 2. P.R.Wolf, Elements of Photogrammetry, Tata MaGrawHill Co., 1997 Burnside,
C.D., Electromagnetic Distance Measurement, Beekman Publishers, 1971 3. M.Anji Reddy, Remote sensing and Geographical information system, B.S
Publications, 2006
REFERENCE BOOKS 1. Leudr.D.R., Aerial Photographic Interpretation, McGrawHill, 1959 2. Arora.K.P., Surveying ,Volume III, Standard Book House, 2000
Prepared by Dr.R.Annadurai
Approved by Dr.R.Annadurai
HOD/CIVIL
SL.NO .
TOPIC PLANNED HOURS
REFERENCE
1 Properties and characteristics of various engineering materials
2 1,2,3,4 & 5
2 Building technology 2 1,2,3,4 & 5 3 Basics of Engineering Mechanics, Applied
Mechanics and Strength of Materials 2 1,2,3,4 & 5
4 Cycle Test 1 2 1,2,3,4 & 5 5 Elements of Engineering Geology 2 1,2,3,4 & 5 6 Elementary analysis of determinate and
indeterminate structures 2 1,2,3,4 & 5
7 Quiz 1 1 1,2,3,4 & 5 8 Overview of design of Steel and Timber structures 2 1,2,3,4 & 5 9 Overview of Fluid Mechanics and Machinery 2 1,2,3,4 & 5 10 Cycle Test 2 2 1,2,3,4 & 5 11 Overview of Elements of Irrigation and Hydraulic
Structures 2 1,2,3,4 & 5
12 Overview of Surveying and Remote Sensing 2 1,2,3,4 & 5 13 Quiz 2 1 1,2,3,4 & 5 14 Seminar / Group Discussion 2 1,2,3,4 & 5 15 Model Exam 3 1,2,3,4 & 5
SRM UNIVERSITY LESSON PLAN
SUBJECT CODE : CE0210 SUBJECT NAME : COMPREHENSION I
B.Tech (CIVIL) IV SEM
REFERENCES : 1. Khanna's Conventional & Objective Type Questions & Answers On Civil
Engineering PB (Paperback)- R Agor, Khanna Publishers (rs ) (2010) 2. Elements Of Civil Engineering - R Agor, Khanna Publishers (2004) 3. Civil Engineering : Through Objective Type Questions 3/e PB, by Gupta &
Gupta, ISBN : 9788123907970 Publisher : CBS 4. Civil Engineering (Conventional and Objective Type) by Gupta J.K.,
R.S.Khurmi, ISBN : 812192605X Publisher : S Chand 5. Civil Engineering (Objective Types) 2007 by Dr. P. Jaya Rami Reddy
Prepared By Mrs.S.Santhanaselvi, Mrs.S.Pradeep
Approved By Dr.R.Annadurai.
HOD / CIVIL
Instructional objectives Student Outcomes
a e k
1. Preparation of influence line diagrams for indeterminate structures X X
2. Analysis of arches and suspension cables X X
3. Plastic theory and its application in analysis of indeterminate structures X X
4. Matrix methods of analysis - Flexibility method and stiffness method - which are basis for almost all structural analysis software available
X X X
Instructional objectives
no.
Instructional objectives (IO)
1 Preparation of influence line diagrams for indeterminate structures
2 Analysis of arches and suspension cables 3 Plastic theory and its application in analysis of indeterminate structures 4 Matrix methods of analysis - Flexibility method and stiffness method - which are basis
for almost all structural analysis software available
Student outcome number
Student outcome (SO)
a an ability to apply knowledge of mathematics, science, and engineering e an ability to identify, formulate, and solve engineering problems k an ability to use the techniques, skills, and modern engineering tools necessary for
engineering practice.
Lesson Plan- CE0302- Structural Analysis –II
Student outcomes
Mapping of Instructional Objectives (IOs) with Student Outcomes (SOs) CE0302- Structural Analysis -II
CE0302-LP-12-13
Sl. No
Topic No. of hours
IOs SO Reference
1. Introduction -brief recap of SA I, MOS, SM- overview of syllabus
2 1,2,3 ,4
a,e,k 1-9
UNIT-2- ARCHES AND SUSPENSION CABLES 2. Three hinged arch-Horizontal thrust, vertical reactions,
thrust in the section, radial shear, Bending moment1 2 a.e 2,3,4,6,8,9
3. Analysis of parabolic three hinged arch. 2 2 a,e 2,3,4,6,8,9 4. Analysis of parabolic three hinged arch at different
levels. 1 2 a,e 2,3,4,6,8,9
5. Influence lines for horizontal thrust, bending moment, normal thrust and radial shear
1
6. Analysis of circular three hinged arch. 1 2 a,e 2,3,4,6,8,97. Analysis of Two hinged parabolic arch.
Rib shortening, support movements and temperature effects
2 2 a,e 2,3,4,6,8,9
8. Influence lines for horizontal thrust, bending moment, normal thrust and radial shear
1 2 a,e 2,3,4,6,8,9
9. Analysis methods for fixed arches 1 2 a,e 2,3,4,6,8,9 10. Introduction of cables and suspension bridges. 2 2 a,e 2,3,4,6,8,911. Length of the cable, Maximum tension - Types of
supports - Forces in Towers. 2 2 a,e 2,3,4,6,8,9
Cycle Test -I 2 2 a,e 2,3,4,6,8,9 UNIT-3 PLASTIC ANALYSIS OF STRUCTURES
12. Plastic Analysis-Introduction 1 3 a,e 2,3,4,6,8,913. Shape factor for ciular,rectangular and triangle sections 1 3 a,e 2,3,4,6,8,914. Shape factor for Tee and I section 1 3 a,e 2,3,4,6,8,915. Plastic hinge-Method of plastic analysis 1 3 a,e 2,3,4,6,8,916. Plastic analysis of indeterminate beams 2 3 a,e 2,3,4,6,8,917. Plastic analysis of indeterminate frames 3 3 a,e 2,3,4,6,8,9 UNIT-I INFLUENCE LINES-STATICALLY INDETERMINATE STRUCTURES
18. Introduction -Influence lines for continuous beams and frames -Maxwell Betti's Theorem Muller Breslau Principle
1 1 a,e 2,3,4,6,8,9
19. Qualitative IL diagrams for beams and frames 1 1 a,e 2,3,4,6,8,9 20. Influence line diagram for vertical reactions of end and
interior supports of continuous beams. 2 1 a,e 2,3,4,6,8,9
21. Influence line diagram for support BM of continuous beams
1 1 a, e 2,3,4,6,8,9
22. Influence line diagram for span BM and SF of continuous beams
2 1 a,e 2,3,4,6,8,9
Cycle Test - II 2 1,3 a,e 2,3,4,6,8,9 UNIT-V MATRIX STIFFNESS METHOD
23. Introduction 1 4 a,e,k 1,3,5,7 24. Direct stiffness method - continuous beams 2 4 a,e,k 1,3,5,7 25. Direct stiffness method -portal frames 2 4 a,e,k 1,3,5,7 26. Concepts -Element and Global stiffness matrices -- Co-
ordinate transformations - Rotation matrix - Transformation of stiffness matrices
2 4 a,e,k 1,3,5,7
27. Load vectors and displacement vectors 1 4 a,e,k 1,3,5,7
CE0302 Structural Analysis - II
Lecture Hours
(L)
Tutorial Hours
(T)
Practical Hours
(P)
Credits
(C)
2 2 0 3
Lesson Plan – 2012-13
Revision: 0 dated 3/01/2013
CE0302-LP-12-13
Sl. No
Topic No. of hours
IOs SO Reference
28. Analysis of Continuous Beams, pin jointed plane frames and rigid plane frames using element approach
2 4 a,e,k 1,3,5,7
29. Introduction to software packages in structural analysis. 1 4 a,e,k 1,3,5,7
UNIT-IV MATRIX FORCE METHOD- FLEXIBILITY METHOD 30. Introduction – flexibility method- Concepts-co-ordinates
-element transformation approach 2 4 a,e,k 1,3,5,7
31. Analysis of Indeterminate pin jointed plane frames 1 4 a,e,k 1,3,5,7 32. Analysis of continuous beams 2 4 a,e,k 1,3,5,7 33. Analysis of rigid jointed plane frames 2 4 a,e,k 1,3,5,7
34. Direct flexibility method for continuous beams and frames
3 4 a,e,k 1,3,5,7
Model Examination 3 1-4 a,e,k 1-9 Total hours 60
The faculty members handling the course may conduct surprise test according to their convenience.
TEXT BOOKS
1.
2. 3.
Pandit.G.S.,Gupta.S.P., Structural Analysis- A Matrix approach, Tata McGraw-Hill Publishing Company Ltd, New Delhi.1994 Bhavikatti.S.S, Structural Analysis, Vol.1andVol.2, Vikas Publishing House Pvt.Ltd.,1999 Vaidhyanathan.R and Perumal.P, Comprehensive Structural Analysis, Volume I and II, Lakshmi Publications (P) Ltd.New Delhi.2004
REFERENCE BOOKS
4. 5.
6.
7.
8. 9.
Sterling Kinney.J., Indeterminate Structural Analysis, Narosa Publishing House.1987 Jr. William Weaver and James .M.Gere, Matrix Analysis of Framed Structures, CBS Publishers and Distributors, Delhi, 1995 Rajasekaran S. and Sankarasubramanian .G., Computational Structural Mechanics, Prentice Hall of India, 2001 Manickaselvam.V.K, Elementary Matrix Analysis of Structures, Khanna Publishers, New Delhi, 1994 Thadani.B.N., Desai.J.P., Structural Mechanics, Weinall Book Corporation, 1998 Punmia, B.C., Ashok Kumar Jain, Arun Kumar Jain, Theory of Structures, Laxmi Publications, 2004
Prepared by Prof. G. Augustine Maniraj Pandian
3-01-2013
CE0302-LP-12-13
SL.NO .
TOPIC PLANNED HOURS
REFERENCE
1 Introduction-over view of syllabus 1 1,2,A & C 2 RETAINING WALLS -introduction 1 1,2,A & C 3 Cantilever wall-behaviour 1 1,2,A & C 4 Design of cantilever retaining wall 3 1,2,A & C 5 Design of counter-fort retaining walls 2 1,2,A & C 6 WATER TANKS Introduction - uncracked theory
and types of water tanks 1 1,2,A, C & D
7 Introduction to working stress design method 1 1,2,A, C & D 8 Design of Circular Tanks 2 1,2,A, C & D 9 Cycle Test 1 2 A&D 10 Design of Rectangular Tanks – L/B < 2 2 1,2,A, C & D 11 Design of Rectangular tanks - L/B > 2 2 1,2,A, C & D 12 OHT - Intze type 1 1,2,A, C & D 13 Design of Staging 2 1,2,A, C & D 14 Surprise Test 1 A&D 15 YIELD LINE THEORY - Concept of yield line
theory 1 1,2,A & C
16 Derivations 2 1,2,A & C 17 Determination of collapse load and Design of
Rectangular, Triangle, Circular slabs 3 1,2,A & C
18 FLAT-SLABS - Design of flat slab type of construction
2 1,2,A, B & C
19 Direct design method as per BIS code - use of design aids (SP16)
4 1,2,A, B & C
20 Cycle Test 2 2 1,2,A & C 21 PRESTRESSED CONCRETE STRUCTURES
Basic concepts - Principle of prestressing methods - materials required
2 1,2,C & E
22 Stress and strength concept - load balancing concept -
2 1,2,C & E
23 losses of prestress 2 1,2,C & E 24 Simple cable profile - analysis of sections
subjected to flexure - End block- detailing only2 1,2,C & E
25 Model Exam 3 A,B, D & E
DEPARTMENT OF CIVIL ENGINEERING SRM UNIVERSITY
LESSON PLAN SUBJECT CODE : CE0304 SUBJECT NAME : STRUCTURAL DESIGN III B.Tech (CIVIL) VI SEM
TEXT BOOKS
1.
2.
Punmia, B.C., Ashok Kumar Jain, Arun Kumar Jain, Reinforced Concrete Structures, Laxmi Publications, New Delhi, 1988 Jain. A. K., Reinforced Concrete Structures, Nem Chand & Brothers, Roorkee, 2002
REFERENCE BOOKS
A. Code of practice for Plain and Reinforced Concrete IS456-2000, BIS, New Delhi B. Design Aids for Reinforced Concrete to IS 456, Special Publication (SP16), BIS
New Delhi,1980 C. Purushothaman, P., Reinforced Concrete Structural Elements, Tata MacGraw Hill
Publishing Company Limited, New Delhi,1984 D. “Code of practice for concrete Structures for the storage of liquids,”- IS3370-
1965, (Part 1 to 4) - BIS, New Delhi E. Code of practice for Prestressed Concrete Structures – IS1343-1980, BIS, New
Delhi
Prepared By Dr.S.Elavenil Mrs.S.Santhanaselvi
Approved By Dr.R.Annadurai. HOD / CIVIL
SRM University Kattankulathur, Department of Civil Engineering VI Semester
Lesson Plan CE0306 FOUNDATION ENGINEERING
UNIT
1
Topic 1. Introduction - Objectives of soil
exploration - Methods of exploration 2. Geophysical methods 3. Borings 4. Penetration tests (SPT & SCPT)
2 1 2 1
No Of Periods
Reference Book
1,2
5. Depth of exploration - Number and disposition of bore holes
6. Sampling and sample disturbance - Selection of foundation based on soil condition.
1 2
1,2,3
2
1. Bearing Capacity - Types of failure 2. Terzaghi's formula Skempton's
formula BIS formula 3. Effect of water table
1 4 2 2
1,2
4. Allowable bearing pressure - bearing pressure based on SPT value 2
5. Plate load test 6. Methods of improving bearing
capacity.
2 1,2,3
3 1. Types of foundation 2. Assumptions in conventional design 3. Method of proportioning
1 2 2
1,2
4. Design of combined and raft foundation - Codal provisions
5. components of settlement - 4
immediate and time dependent settlement - causes of settlement method of minimizing settlement - codal provisions.
4 1,2,3
4
1. Function of Piles - Classification of
pile 2. Load carrying capacity - Static and
Dynamic formulae 3. Pile load test - Pile group - Spacing -
Pile cap- Negative skin friction 4. Introduction to well foundations-
diaphragm walls-anchors
2 4 4 2
5
1. Lateral earth pressure - Rankine's
theory 2. soil stratification - Coulomb's theory
2 2 2
1,2
3. Graphical method (Culmann's method alone)
4. Stability of slopes - Infinite and finite 3
slopes - Types of failure -Causes of failure
2 2
1,2,3
5. Slip circle methods 6. Friction circle method.
Text Books
1. Punmia,B.C., Soil Mechanics and Foundations, Laxmi Publications Pvt Ltd., 2000
2. Venkatramaiah.C., Geotechnical Engineering, New Age International Publishers, 1995
REFERENCE BOOKS
1. Joseph E.Bowles, Foundation Analysis and Design, McGrawHill Publishing Co.,
1986 2. Peck,R.B., Hanson and Thornburn, Foundation Engineerng, Wiley Eastern Ltd.,
1974 3. Tomlinson,M.J., Foundation Engineering, Wiley Eastern Ltd., 1980
Prepared By Mrs.MaryRebekahsharmila
Approved By Dr.R.Annadurai
HOD/Civil
Lesson Plan CE 0308 Environmental Engineering – II
Semester VI L -3 T- 0
P- 0 C- 3 Sl No
1 Topics to be covered Water TreatmentDefinition of unit process & unit operations –
No. of Hrs 2
Reference 1,3
objectives of water treatment. 2 3 4 5
Methods & sequence of treatment of water. Typical flow sheet treating hard groundwater turbid surface water Aeration, coagulation, flocculation filtration & disinfection Sedimentation – flocculation – filter units – miscellaneous
2 2 2 2
1,3 1,3 1,3 1,3
methods – iron & manganese removal 6 Deflouridation & demineralization 1 1,2,3
Cycle Test- I 7 8 9
Sewage treatment - Primary treatment - objectives Screening Grit chamber and primary sedimentation tanks design.
3 2 3
1,3 1,3 1,3
Surprise Test I 10 11 12
Secondary treatment -Principles, functions and design Activated sludge unit and trickling filter Septic tank - Imhoff tank-sludge digestion tank - oxidation pond.
2 3 3
1,3 1,3 1,3
Cycle Test- II 13 Sewage disposal and sludge treatment- Sewage Disposal - 3 1,3
Dilution 14 15
Self purification of running streams - oxygen sag curve Land disposal - sewage farming - deep well injection - soil
3 3
1,3 1,2,3
dispersion system. Surprise Test II
16 Sludge management and solid waste-Objectives of sludge 3 1,3 treatment
17 18
Properties and characteristics of sludge-sludge digestion Thickening - dewatering - conditioning - drying beds - biogas
2 2
1,3 1,3
recovery. 19 Collection and disposal in rural and urban contexts, management 3 1,3
of long-term ill effects. Total 45
Text Books 1. Garg S K, Environmental Engg., Vol I & II, Khanna Publishers, New Delhi, 1994 2. Panneerselvam R, Environmental Engg., Vol I & II, SPGS Publishers, Chennai
88 3. Duggal K N, Elements of Environmental Engg., S Chand & Company Ltd., New
Delhi, 2002
Reference Books Manual on Water Supply & Treatment and Sewerage & Sewage Treatment, CPHEEO, New Delhi. 1999
Prepared By J.S.SUDARSAN K.Prasanna
Approved By Dr.R.Annadurai
HOD/Civil
Lesson No
Topics No.of hrs
References
1 overview of all civil engineering topics covered in V and VI semesters including the related topics covered in I to IV semesters to have a concept of this subject by the students
1 --
2 Basics of Engineering Mechanics 2 1
3 Overview of Mechanics of Solids 2 2 4 Overview of Strength of Materials 2 2 5 Overview of Structural Analysis 2 3 6 Overview of Design of Concrete 2 4 7 Overview of Masonry structures 2 4 8 Overview on Geotechnical Engineering 2 5 9 Overview of Elements of Water resources Engineering 2 6 10 Overview of Irrigation and Hydraulic Structures 2 6 11 Overview on Environmental Engineering 2 7
seminar/group discussion sessions
SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN SUB CODE & TITLE: CE0310 & COMPREHENSION II
III-YEAR B.TECH SEM: VI
References: 1. Punmia.B.C., Ashok Kumar Jain, Arun Kumar Jain, Mechanics of Materials,
Laxmi Publications (P) Ltd., 2003 2. Rajput.R.K. Strength of Materials, (Mechanics of Solids), S.Chand and Company
Ltd., New Delhi, 2004 3. Vaidhyanathan.R and Perumal.P, Comprehensive Structural Analysis, Volume I
and II, Lakshmi Publications (P) Ltd.New Delhi, 2004 4. Unnikrishna pillai, S. and Deavadas Menon, Reinforced Concrete Design, Tata
MacGraw Hill Publishing Company Limited, New Delhi, 1998 5. Garg S.K., Physical and Engineering Geology, Khanna Publication, New Delhi,
1999 6. Santhosh Kumar Garg, Irrigation Engineering and Hydraulic Structures, Khanna
Publishers, 2000 7. Garg .S.K. Environmental Engineering, Vol. I & II, Khanna Publishers, New
Delhi, 1994
Prepared By Dr. K.GUNASEKARAN
Approved By
Dr.R.Annadurai. HOD / CIVIL
Lecture Number
Topic Number of Periods
Reference
1. Tank Sluice – Design 4 1,3 2. Tank Sluice – Drawing 4 1,3 3. Tank Weir – Design 4 1,3 4. Tank Weir – Drawing 4 1,3 5. Canal Head Regulator – Design 4 1,2 6. Canal Head Regulator – Drawing 4 1,2 7. Canal Cross Regulator – Design 4 1,2 8. Canal Cross Regulator – Drawing 4 1,2 9. Canal Drop – Design 4 1,2 10. Canal Drop – Drawing 4 1,2 11. Aqueduct – Design 4 1,3 12. Aqueduct – Drawing 4 1,3 13. Syphon Aqueduct – Design 4 1,3 14. Syphon Aqueduct – Drawing 4 1,3 15. Escape – Design 4 1,2 16. Escape – Drawing 4 1,2
LESSON PLAN
CE 0312 IRRIGATION STRUCTURES DESIGN AND DRAWING
L 2
T 0
P 2
C 3
TEXT BOOKS
1. Sathyanarayana Murthy.C., “Design of Minor Irrigation and Canal Structures”, Wiley Eastern Limited, 2002.
2. Santhosh Kumar Garg, “Irrigation Engineering and Hydraulic Structures”, Khanna Publishers, 2000.
3. Sharma.R.K., “Irrigation Engineering and Hydraulic Structures”, Oxford and IBH Publishing Company, 2002.
Prepared By Dr.G.Baskar
Approved By Dr.R.Annadurai.
HOD / CIVIL
LESSON PLAN L T P C 2 0 2 3
SI.NO LESSON TOPIC
Plan ned
Hour
Actual Hou r
Textboo k
1 Introduction-Principles of Management - different types of construction projects 2 2
2 Project Life Cycle- phases in project life cycle- Pre-feasibility report and clearance 5 2
3 project estimate - Techno Economic feasibility report - Detailed project report 5 1
4 Introduction - work breakdown structure 4 1
5 plan development process- scheduling-definition -types of construction schedules-scheduling techniques-CPM - Terms and definitions 5 1
6 Quantity of materials - time of purchase- 2 1
7 nventory control - terms and definitions - types of inventory -EOQ -reasons for maintain inventory - different tools for inventory. 4 1
8 Classification of major construction equipment- 2 1
9 Introduction- resurce allocation-resource leveling-resource loading graph 4 1
10 cost control - earned value concepts- "S" curve technique in cost control 3 2,3 11 Risk cost management- stages in risk management- controlling the risk. 2 2,3
12 ntroduction to optimization- Linear programming - formulation of LP problems- solving LP problem using graphical method- 2 2,3
Total Hours 40
B.Tech IV – year -VIII semester
SRM UNIVERSITY, KATTANKULATHUR -603 203 Faculty of Engineering and Technology
Department of Civil Engineering Degree / Specialization : B.Tech / Civil Engineering Year / Semester : IV / VIII Subject Code / Title : CE 402 Construction Planning And Management Staff : J.RAJPRASAD / Assistant Professor (O.G) / CIVIL
Reference Books (Theroy)
1. Chitkara.K.K construction poject Management,Planning scheduling&control, Tata McGraw Hill,1990 2. N.D.Vohra Quantitative Techniques in management, McGraw Hill, 1995
3. Joy P.K ,Total Project Management
Reference Books (Practice) 1 C.S. Krishnamoorthy and S.Rajeev, Computer Aided Design, Narosa publishing house, New Delhi, 1991 2 . H.B. Harrison, Structural Analysis and Design, vol. I & II, Pergamon press, 1991
3. Billy E.Giliet Introduction to Operation Research - Computer Oriented Algorithmic 4. Approach, Tata McGraw Hill,1990 5. Paulson. B.R., Computer Applications in Construction, McGraw Hill, 1995 6. Feigenbaum.L., Construction Scheduling with Primavera Project Planner, Prentice Hall Inc., 1999
Prepared by HOD / CIVIL
(J.RAJPRASAD) Dr.R.Annadurai
SI.NO TOPICS TO BE COVERED NO OF hrs REQUIRED
REFERENCE BOOKS
1 GEOTECHNICAL PROBLEM 1.1 Occurrence and distribution 2 1
1.2 Moisture equilibrium 2 1 1.3 Soil, structure, environmental
interaction, distress symptoms 3 1
1.4 Case histories 2 1 2. EXPANSIVE SOIL PROPERTIES
2.1 Clay mineralogy ,Swell potential 4 1 2.2 Field exploration 2 1 2.3 Laboratory tests for identification 2 1
3. HEAVE PREDICTION 3.1 Methods of prediction of heave 2 1
3.2 Empirical methods 2 1 3.3 Double oedometer tests 2 1 3.4 Soil moisture suction 2 1 3.5 Field observations, Shrinkage. 2 1
4. FOUNDATION DESIGN 4.1 Recommendations for type of
foundation in expansive soils 2 1
4.2 Design consideration 3 1 4.3 Individual and continuous footings 2 1 4.4 Stiffened mats ,underreamed piles
Codal provisions 3 1
5. STABILIZATION 5.1 Method - mechanical stabilization 2 1
5.2 Cement stabilization - Bituminous stabilization
3 1
5.3 Chemical stabilization - Thermal stabilization.
3 1
LESSON PLAN
CE EGT4 FOUNDATIONS ON EXPANSIVE SOIL
3
Lecture
Tutorial
0
Practical
0
Credit
3
Reference Books: 1.Parcher J.V&R.E. Means, Soil Mechanics and Foundations, Columbus, 1968 Approved by: HOD /CIVIL
LESSON PLAN
B.Tech Civil Engineering-VIII Semester January 2013
Course Code CE-EGIS1
Course Name Geographical Information System
Prerequisites NIL
Category Professional Subject
Instructional objectives
Instructional objectives no.
Instructional objectives
1. To understand the GIS, background, development and components of GIS 2. To study the data capturing for GIS techniques and data base management 3. To study the analysis of various spatial and non-spatial data in GIS 4 To study the generation DEM and making model 5 To appreciate the application of GIS
Student outcomes
Student outcome number
Student outcome
(a) an ability to apply knowledge of mathematics, science, and engineering
(d) an ability to function on multidisciplinary teams
(e) an ability to identify, formulate, and solve engineering problems
(j) a knowledge of contemporary issues
(k) an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice
Lecture No
Date Topic Instructional objectives
Student outcome
Reference
UNIT -1INTRODUCTION
1 Definition of GIS , Historical background
1 a 1,2
2 Concepts - Basic Requirements-GIS Softwares
1 a, e 1,2
3 Elements of GIS 1 a, e 1,2 4 Cartography- definition and
importance 1 a 1,2
5 Map definition - Types 1 a 1,2 6 Co-ordinate –Different co ordinate
system - Importance 1 a 1,2
UNIT-II-DATA BASE MANAGEMENT 7 Introduction - Types of data 1,2 a 1,2,3 8 Spatial data – Non spatial data 1,2 a,e 1,2,3
CYCLE TEST -1 9 Data input – Methods 1,2 a,e 1,2,3 10 Data output 1,2 a,e 1,2,3 11 Vector data- structure – Merits and
demerits 2 a,e 2,3
12 Topology 2 a,e 2,3 13 Raster data – Structure- Merits and
demerits 2 a,e 1,2,3
UNIT - III DATA ANALYSIS
14 Introduction - - Data retrieval 2,3 d 1,3 15 Spatial data analysis 2,3 d,e,j 1,3 16 Non-spatial data analysis 2,3 d,e,j 1,3 17 Spatial interpolation 2,3 d,e,j 1,2,3
CYCLE TEST -2 18 Reclassification techniques 3 d,e,j 2,3 19 Buffer analysis 3 d,e,j 2,3 20 Overlay analysis, 3 d,e,j 1,2,3 21 Vector overlay analysis, 3 d,e,j 2,3 22 Topological overlay 3 d,e,j 2,3 23 Raster overlay analysis 3 d,e,j 1,2,3 24 Measurement of length, perimeter
and area 3 d,j 2,3
25 Queries 3 d,j 2,3 UNIT IV DIGITAL ELEVATION MODEL AND ANALYSIS
26 Introduction - Data capture 4 a,d 1,3 27 Generation of DEM - Parameters 4 a,d,j 1,3 28 Modeling surfaces- Application of
DEM 3,4 a,d,j 1,3
29 Cost and Path analysis - Digital terrain Visualization.
3,4 d,j,k 1,2,3
TIN 4 d,j,k 1,3 30 DTM and DEM - advantages 4 d,j,k 1,3
31 DTM and DEM - disadvantages 4 d,j,k 1,3 UNIT-V - APPLICATION OF GIS
32 Use of GIS in Resource mapping 5 j,k 1,3 33 Use of GIS in Groundwater 5 j,k 1,3 34 Use of GIS in Flood monitoring
Wetland management 5 j,k 1,3
35 Use of GIS in Forest management 5 j,k 1,3 36 Land use and Land cover analysis 5 j,k 1,3 37 Use of GIS in Regional and urban
planning 5 j,k 1,3
38 Use of GIS in Geology 5 j,k 1,3 39 Use of GIS in Agriculture and soil 5 j,k 1,3 40 Integrated with remote sensing 5 j,k 1,2,3
MODEL EXAMINATION
TEXT BOOKS 1. M. Anji Reddy, Textbook of Remote Sensing and Geographical Information systems, BS Publications, Hyderabad.2011. ISBN : 81-7800-112-8 2. Chestern, Geo Informational Systems - Application of GIS and Related Spatial
Information Technologies, ASTER Publication Co., 1992 3. Jeffrey Star and John Estes, Geographical Information System - An Introduction,
Prentice Hall, 1990 REFERENCE BOOKS 1. Burrogh P.A., Principles of Geographical Information System for Land Resources
Assessment, Oxford Publications, | ISBN-13: 978-0198545927,1986 2. Robert Laurini, Fundamental of Spatial Information Systems, CPPS Publications, 1996 3. C.S. Agarwal and P.K. Garg. Text Book on Remote Sensing in Natural Resources, Monitoring and Management.2000. Wheeler publishing Co & Ltd., New Delhi 4. A.M. Chandra and S.K. Ghosh. Remote Sensing and Geographical Information system . Narosa Publishing House, New Delhi. 2006
Faculty members handling
Section Faculty Name Signature
D Dr.R.Annadurai
C Dr.R.Sivakumar
B Mr.Sachiknada Nanda
A Mr. T.Magendran