civil infrastructure - srm university infrastructure. b.tech - i year – ii semester . lesson plan...
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CIVIL INFRASTRUCTURE
B.Tech - I Year – II SEMESTER
LESSON PLAN
Sub Code : CI0102 Subject Name : Elements of Building Material Science and Architecture Class : I B.Tech (Civil Infra) Year / Sem : II Semester Date : 2010 – 2011 Jan to May 2011 Lecture Number
Topic Reference / Books (Chapter Reference)
1. Overview of the syllabus stones, Bricks, Cement – Manufacturing process Types applications - Properties
1,3 (2 hours)
2. Methods of testing stones, Bricks and Cement 1,3 (2 hours) 3. Mortar, concrete, steel and timber – Manufactures
process Types, applications – Properties, Testing procedures
1,3 (2 hours)
4. Methods of improving ductility and fire resistance of concrete – reinforced concrete
1,3 (2 hours)
5. Fibre reinforced concrete, prestressing principles ferrocement – high strength concrete and high performance concrete – Admixtures
1,3 (2 hours) Handout
6. Wood based products, paints, varnishes, distempers – Types, process of manufacture and application
1,3 (2 hours)
7. Asbestos, glass, tiles, terracotta, porce lain, stone ware earthen ware – types, process of manufacture and application
1,3 (2 hours)
8. Geo synthetics, polymer products, fibre reinforced plastics - Types process of manufacture and application
1,3, 4 (2 hours)
9. Materials for thermal insulator, acoustic modification – paradigm of sustainable technology and green concrete
1,3 & 4 (2 hours)
10. Blended cement concrete, geo polymer concrete bacterial concrete, Recycled concrete
1,3 – Ref. (2 hours)
11. Smart concrete, Self health monitoring concrete reactive powder concrete
1,3 – Ref. (2 hours)
12. Readymixed concrete, Self compacting concrete, high density concrete low density concrete, Roller compacted concrete – TMT bars
1,3 – Ref. (2 hours)
13. Ass. I 14. Ass. II 15. Model Exam
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 Approved by Dr.M.LAKSHMIPATHY Dr.R.Annadurai HOD / CIVIL
FACULTY OF ENGINEERING & TECHNOLOGY SRM UNIVERSITY
LESSON PLAN
Academic year 2010 – 11 Date:18.01.2011
Sub: Principles of Environmental Science Subj. Code: GE0104 Semester: II Class: Common to all branches Total No. of hours: 30
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
(primary, secondary and tertiary) and
4
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 - In – situ conservation
11
- 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 - Open dumping
17
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
IV SEMESTER CIVIL INFRA STRUCTURE
SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING
12.01.2011 LESSON PLAN
SUB CODE & TITLE: CI0202 & STRENGTH OF MATERIALS II-YEAR B.TECH / INFRA SEM: IV
EVEN SEMESTER: 2010-2011 Lesson
No Topics No.of
hrs References
1 Determination of deflection curve – Computation of Slopes and Deflections in Beams - Double integration method
06 01
2 Macaulay’s method 04 01
3 Area moment method 04 01 4 Conjugate beam method - effect of shear on deflection –
Deflection of leaf springs. 04 01
5 Strain energy and Strain energy density - Strain energy in axial load, flexure, Shear and Torsion - Strain energy and complimentary energy – Castigliano’s and Engessor’s Energy theorem
03 01
6 Principle of virtual work – Application of Energy theorem for computing deflection in Determinate structures-Beams, pin jointed plane frames and rigid plane frames
03 01
dummy unit load method - Williot Mohr’s diagram - Maxwell’s reciprocal theorem
02 01
7 Euler’s theory of long columns – Critical loads for Prismatic columns with different end conditions –
03 02
8 Rankine Gordon’s formula and Secant formula –Eccentrically loaded long columns. Combined bending and axial load – IS code recommendations.
03 02
9 Spherical and deviatric components of stress tensor – determination of Principal stresses and Principal planes – Volumetric strains – Dilatation and Distortion.
03 02
10 THEORIES OF FAILURE – Maximum Principal stress theory – Maximum shear stress theory
02 01
Strain energy theory – Distortion energy theory – Principal strain theory – application in analysis of stress.
02 01
11 Unsymmetrical bending of Beams of Symmetrical and Unsymmetrical Sections
02 03
Box Sections and its importance – Curved bars – Winkler Bach formula – Shear Centre-simple problems only.
02 03
12 Static friction- inclined plane and bearings-Kinematics and kinetics of particles-D’Alembert’s principle- flywheel.
02 03
Total 45
References: 1. Rajput R.K., Strength of Materials, S.Chand of Company Ltd - New Delhi.2001. 2. Punmia.B.C., Ashok Kumar Jain, Arun Kumar Jain, Strength of Materials and
Theory of Structures, Vol 1, Laxmi Publications, 9th edition.1992. 3. Beer and Johnson , “Mechanics for Engineers”, Statics and Dynamics, Mc Graw
Hill Book Company,1987 Prepared By Approved By K.GUNASEKARAN, AP (S.G) Dr.R.Annadurai. HOD / CIVIL
LESSON PLAN 2010-2011 EVEN SEMESTER SUBJECT CODE/ TITLE: CI 0204/ STRUCTURAL DESIGN - I YEAR/BRANCH: II B.TECH / 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 - uses and application - applicable IS codes for light gauge 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
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 Approved By Mr.A.Balamurugan Dr.R.Annadurai HOD/Civil
SRM UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING
LESSON PLAN CI0206 HYDRAULIC STRUCTURES
S.NO Topics To Be Covered No.of.Hours References 1 Unit-1: Theories of seepage and weirs 2 Failure of Hydraulic design 1 1,2 3 Bligh’s Theory 2 1,2 4 Lane’s theory 2 1,2 5 Khosla’s theory 1 1,2 6 Components of diversion head works 1 1,2 7 Types of weirs 1 1,2 8 Silt control devices 1 1,2 9 Unit-2:Canal falls and Regulators 10 Location for a wall 1 1,2 11 Types of falls 1 1,2 12 Design of siphon well drop 2 1,2 13 Canal regulators 1 1,2 14 Design of cross and head regulators 2 1,2 15 Canal escapes. 1 1,2 16 Unit-:Cross Drainage Works 17 Types and design of cross drainage works 2 1,2 18 Aqueduct 2 1,2 19 Siphon aqueduct 2 1,2 20 Super passage 2 1,2 21 Canal siphon 2 1,2 22 Unit-4: Reservoir Planning 23 Types of reservoir 2 1,2 24 Storage Capacity of reservoir 2 1,2 25 Yield of a reservoir 2 1,2 26 Fixation of capacity of reservoir 2 1,2 27 Unit-5: Dams 28 Types of dams 1 1,2 29 Methods of selecting suitable dams 1 1,2 30 Gravity dames 1 1,2 31 Types of spill ways 1 1,2 32 Energy dissipators 1 1,2 33 Earth dams 1 1,2 34 Methods of constructing earth dams 1 1,2 35 Seepage control in earth dams 1 1,2 36 Arch dams – design principles 2 1,2
Text books 1. Garg S. K., Irrigation Engineering and Hydraulic Structures” Khanna Publishers, Delhi. 2. Sathyanarayana Moorthy C.S, Design of minor Irrigation & Canal Structures, Wiley Eastern Limited, 2002.
Prepared By Approved By Mrs.T.Deepa Dr.R.Annadurai HOD/Civil
LESSON PLAN CI 0208 Advanced surveying and remote sensing
Semester-IV InfraStructure L -3 T- 0 P- 0 C- 3 Sl No Topics to be covered
No. of Hrs
Reference
1 BASIC PRINCIPLES OF REMOTE SENSING Introduction Definition -
2 1,3
2 Historical - Remote Sensing in India -. 2 1,3 3 Electromagnetic Radiation ( EMR )- Electromagnetic Spectrum - 2 1,3 4 Effect of Atmosphere on EMR 2 1,3 5 - EMR with matter 1 1,3 EDM, TOTAL STATION, GPS SURVEYING 6
Electro-optical system, Measuring Principle, 2 1,3
7 Working Principle, Sources of error, 2 1,3 8 Total station, Microwave system Measuring and working
principle, 2 1,3
9 Sources of error, GPS - 2 1,3 10 Fundamentals - Introduction space, Control segments -
Observation principle, Orbit Representation 1
PHOTOGRAMMETRY SURVEYING 11
Introduction -
1 1,2
12 terrestrial and aerial photographs - 2 1,2 12 photo theodolite - applications - vertical and oblique photographs - 2 13 height determination contouring - photographic interpretations - 2 1,2 14 stereoscopy - parallax bar. 2 1,2 PLATFORMS AND SENSOR SYSTEMS
15 Introduction - Airborne Platforms -
1 1,4
16 Space borne Platforms - Sensors - 2 1,4 17 Definition - Parameter - Spectral Band Selection 2 1,4 18 - Scanners - Radiometer - 2 1,4 19 Radar - Path-Row System 2 1,4 APPLICATIONS OF REMOTE SENSING
20 Introduction - Merits and Demerits of Remote Sensing Data -
1 1,4
21 Applications of Remote Sensing for Resources Mapping - 2 1,4 22 Geology, Groundwater, Land use and Land cover, 2 1,4 23 Soil Mapping, Flood Mapping, 2 1,4 24 Disaster Structures Mapping, Coastal Studies, Environmental
Impact Assessment 2 1,4
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 3. Burnside, C.D., Electromagnetic Distance Measurement, Beekman Publishers, 1971 4. 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 APPROVED BY
Dr.R.Annadurai Dr.R.Annadurai
HOD/CIVIL
OTHER DEPARTMENT LESSON PLAN - ARCHITECTURES
SRM UNIVERSITY
Faculty of Engineering and technology Department of civil Engineering
AR0118-STRUCTURAL CONCEPTS IN ARCHITECHTURE B.ARCH II SEM B Lesson plan – 2011 Sl.no
Topics to Be covered
Hours Reference book Remarks
1
Loads - Static Loads - Dynamic Loads.
4 1 First cycle test
2
Fire Loads - Effect of Temperature and Settlement
5 1
3
Properties of Structural Materials Elasticity, young’s modulus, Advantage, disadvantage of structural materials
5 2
4
Choice of Structural Material for Domestic Buildings
2 2,1 First cycle test
5
Industrial Buildings, Tall Buildings and Long Span Buildings
2 1,2
6
History of Spanning, Concept of Moment, composition of resolution of forces
3 1,2 Assignment only
7
Theory of Bending Moments and Shear Force.
6 1,2 Assignment only
8 Concepts of various structural systems - .
3 1
9 Cables - Trusses - Arches - Cable Roofs - Space Frames - Flat Slabs.
6 1 Model exam includes all chapters
10 Theory of Vaults and Domes - Construction of Masonry Vaults and Domes .
3 1,3
11 Concepts of Reinforced Concrete Shells, Domes and Vaults - Folded Plate Roofs - tensile structures
6 1,3
45
Reference books
1. Mario Salvadori, Robert Heller, Structure in Architecture, Prentice International Series in Architecture, New Jersey, 1963
2. Strength of materials -RAMAMIRUTHAM’
3. Design of space structures –Dr Subramanian
PREPARED BY Approved by B.SIVAKUMAR Dr.Annadurai,
H.O.D.CIVIL
SRM UNIVERSITY –Faculty of Engineering and technology Department of civil Engineering
AR0218 TIMBER AND STEEL STRUCTURES B.ARCH I V SEM A Lesson plan –2011
Sl.no
Topics to Be covered
Hours Reference book Remarks
1
Properties, strength and types of timber used as structural components in timber construction - Permissible stresses in timber
4 1 First cycle test
2
- Design of Columns and beams as per BIS codes. Types of Timber Roof Trusses used for small spans.
5 1
3
Introduction Properties of Indian standard rolled steel section - Use of IS 800 and steel tables
5 1
4
Permissible and stresses in tension, compression and shear
4 2,1
5
Connections: Welded and riveted connections - Types of failure - Design of welded and riveted connections for members subjected To axial forces
5 1,2
6
Tension and compression members - Design of single angle and double angle sections in tension - Design of compression members
4 1,2 Second cycle test
7
Slenderness ratio - Design of simple and compound sections - Design of lacings and battens.
6 1,2
8 - . Principal beams, allowable stresses, General specifications, Design of laterally supported beams.
3 1
9 Types of roof trusses - Selection of trusses according
6 1
to the span - Estimation of gravity loads and wind loads - Use of BIS and book SP-38 in
Model exam includes all chapters
analyzing and design of trusses - gusseted plate connections (Theory Only).
3
TOTAL 45
Text books
1..Ramachandra .S, Design of steel structures Vol. I, Standard publication, New Delhi, 1992
2.Dayaratnam .P, Design of Steel Structures, Wheelers Publishing Company Co. Ltd, 1990
PREPARED BY Approved by B.SIVAKUMAR Dr.Annadurai,
H.O.D.CIVIL
SRM University Kattankulathur, Department of Civil Engineering B.Arch IV Semester 2010-2011
Lesson Plan. L T P C ARE 0316 Reinforced Concrete Structures 3 0 0 3
Sl. No
Topic No Of Periods Reference Book
1 Introduction to Limit state design Limit state design of beams Singly reinforced beam Doubly reinforced beam Design of continuous beam Use of sp -16 for the design
2 2 2 2
1,2,3 1,2,3 1,2,3 1,2,3
2 Design of Flat Slabs Advantages of flat slab construction Components of flat slab Configuration of columns Direct design method
1 1 1 3
1,2,3 1,2,3 1,2,3 1,2,3
3 Limit state design of columns Long and short columns Rectangular and circular columns Uniaxial and biaxial bending Use of sp16 for the design
2 2 1 2
2,3 2,3 2,3 2,3
4 Limit state Design of foundation Individual square footing Strip footing Combined footing Rectangular sloped footing Eccentric footing
3 1 1 2 2
3,4 3,4 3,4 3,4 3,4
5 Deep foundation Pile foundation – Types Design of end bearing pile Design of under reamed pile Pile cap design
1 2 1 1
4 4 4 4
Text Books
1. SP 16 – Design Aids for IS456 – 1978 2. IS456 – 2000 code of practice for plain and Reinforced concrtete 3. UnniKrishna pillai.s and Devadoss menon Reinforced concrete design, Tata
Mcgraw Hill Published co Ltd. 4. Ramamrutham.S and Narayanan R Reinforced concrete structure, Dhanpat Rai
Publication New Delhi. PREPARED BY Approved by Mr.D.Arul Prakash. Dr.Annadurai, H.O.D.CIVIL
SRM University Kattankulathur, Department of Civil Engineering
B.Tech Architectural Engineering IV Semester 2010-2011 Lesson Plan. L T P C
ARE 0202 Structural Analysis 2 2 0 3
Sl. No
Topic No Of Periods Reference Book
1 Introduction to Statically indeterminate Structures 1 1,2 2 Two and three dimensional Pin joined and rigid
joined structures 1 1,2
3 Theorem of three moments SFD and BMD for continuous beam SFD and BMD for Propped Cantilever SFD and BMD for fixed beam
3 3 2
1,2 1,2 1,2
4 Indeterminate trusses Energy method Lack of fit – temperature effects
3
2,3
5 Slope deflection method Analysis of continuous beam Rigid plane frame without sway Rigid plane frame with sway
3 3 3
2,3 2,3 1,2
6 Moment distribution method Analysis of continuous beam Rigid plane frame without sway Rigid plane frame with sway
3 3 3
2,3 2,3 1,2
7 Introduction to Kani’s method and column analogy method
2
3,4
8 Plastic moment of resistance plastic modulus Shape factor – Load factor Plastic Hinge and mechanism Analysis of indeterminate beams and frames
1 1 2 2
2,3,4 2,3,4 2,3,4 3,4
9 Rolling loads single concentrated load Uniformly distributed load System of moving loads
1 1 2
1,2 1,2 1,2
Curve of BMD and SFD Equivalent UDL
2 2
1,2 1,2
Text Books
5. Junnarkar S.B.Mechanics of Structures Vol 2 Charotar publishing house.
6. V.N.Vazirani and M.M.Ratwani, Analysis of structures Volume II – Khanna publishers
7. Khurmi R.S. Theory of Structures S.Chand and Co.Ltd New Delhi 8. R.L.Jindal Indeterminate structures
PREPARED BY Approved by Mr.D.Arul Prakash. Dr.Annadurai,
H.O.D.CIVIL
CE-EWRI GROUND WATER ENGINEERING 3 0 0 3 LESSON PLAN
S.No. TOPICS TO BE COVERED LECTURE HRS REFERENCE
GEO-HYDROLOGY 1. Introduction – Water bearing formations 1 1, 2 2. Geological formation of water supply 1 1, 2 3. Subsurface distribution of water 1 1, 2 4. Hydrological cycle 1 1, 2
5. Sources of groundwater, types of aquifers 1 1, 2
6. Aquifer parameters 1 1, 2 7. Problems 1 1, 2 8. Problems 1 1, 2 9. Ground water in different rocks 1 1, 2
GROUND WATER MOVEMENT 10. Ground water flow – concepts 1 1, 2
11. Permeability, Transmissibility – Problems 1 1, 2
12. Darcy’s law and its limitation, Properties of aquifer materials 1 1, 2
13. Radial flow in an unconfined aquifer 1 1, 2 14. Radial flow in confined aquifer 1 1, 2
15. Unsteady flow conditions – Thesis method 1 1, 2
16. Jacob’s method and Chow’s method 1 1, 2 17. Unconfined aquifer constants 1 1, 2
18. Well losses, well efficiency and well interfaces 1 1, 2
WELLS AND EXPLORATION 19. Types of wells, water well design 1 1, 2 20. Drilling of tube wells, drilling methods 1 1, 2 21. Percussion drilling, rotary drilling 1 1, 2
22. Auger core drilling and water jet methods 1 1, 2
23. Construction of wells - collector wells – infiltration wells 1 1, 2
25. Construction of strainer type tube wells, cavity type tube wells 1 1, 2
26. Construction of gravel pack wells and open wells 1 1, 2
27. Testing yield of tube wells, verticality of tube wells 1 1, 2
28. Incrustation and corrosion of tube wells 1 1, 2
S.No. TOPICS TO BE COVERED LECTURE HRS REFERENCE
EVALUATION OF AQUIFER PARAMETERS 29. Pumping test analysis 1 1, 2 30. Recuperation test – problems 1 1, 2 31. Well characteristics 1 1, 2 32. Well capacity 1 1, 2 33. Confined and unconfined aquifers 1 1, 2 34. Hydraulics of open wells 1 1, 2
35. Ground water investigation – geological methods 1 1, 2
36. Geophysical methods 1 1, 2 37. Remote sensing methods 1 1, 2
ENVIRONMENTAL GROUNDWATER 38. Groundwater development 1 1, 2 39. Hydrological maps, quality of GW 1 1, 2 40. Groundwater quality 1 1, 2 41. Groundwater contamination 1 1, 2 42. Seawater intrusion & control measures 1 1, 2 43. Groundwater recharge – methods 1 1, 2
44. Groundwater modeling, mathematical modeling 1 1, 2
45. Numerical modeling 1 1, 2 REFERENCE BOOKS 1. Raghunath H.M., "Groundwater", Wiley Eastern Ltd., 1986 2. Todd D.K., "Groundwater Hydrology", John Wiley and Sons, 1987
PREPARED BY Approved by Mr.R.Sathyanathan. Dr.Annadurai,
H.O.D.CIVIL