b.tech. (civil engineering) batch 2011-2014 programme
TRANSCRIPT
B.Tech. (Civil Engineering)
Batch – 2011-2014
Programme Structure
Third Semester Course Code Course Name L T P C
MA1301 Engineering Mathematics – III 4 0 0 4
CV1301 Fluid Mechanics – I 3 1 0 4
CV1302 Structural Analysis – I 3 1 0 4
CV1303 Building Science & Technology 4 0 0 4
CV1304 Surveying – I 3 1 0 4
CV1305 Engineering Geology 4 0 0 4
CV1330 Surveying Practice – I 0 0 6 2
CV1331 Material Testing Lab – I 0 0 3 1
Total 21 3 9 27
Fourth Semester Course Code Course Name L T P C
MA1401 Engineering Mathematics – IV 4 0 0 4
CV1401 Fluid Mechanics – II 3 1 0 4
CV1402 Structural Analysis – II 3 1 0 4
CV1403 Structural Design – I 3 1 0 4
CV1404 Surveying – II 4 0 0 4
XX14xx Open Electives - I 3 0 0 3
CV1430 Building Design & Drawing 0 0 3 1
CV1431 Fluid Mechanics Lab 0 0 3 1
CV1432 Material Testing Lab – II 0 0 3 1
CV1433 Geology Lab 0 0 3 1
Total 20 3 12 27
Fifth Semester Course Code Course Name L T P C
CV1501 Geotechnical Engineering – I 3 1 0 4
CV1502 Structural Design – II 3 1 0 4
CV1503 Water Resource Engineering 4 0 0 4
CV1504 Environmental Engineering – I 4 0 0 4
CV1505 Transportation Engineering – I 4 0 0 4
CV15xx Programme Electives – I 3 0 0 3
CV1530 Soil Mechanics Lab 0 0 3 1
CV1531 Surveying Practice – II 0 0 3 1
Total 21 2 6 25
Sixth Semester Course Code Course Name L T P C
MB1621 Essentials of Management & Engineering
Economics
3 1 0 4
CV1601 Geotechnical Engineering – II 3 1 0 4
CV1602 Structural Design – III 4 0 0 4
CV1603 Transportation Engineering- II 4 0 0 4
CV16xx Programme Electives – II 3 0 0 3
XX16xx Open Electives – II 3 0 0 3
CV1630 Structural Drawing 0 0 3 1
CV1631 Computer Lab – I 0 0 3 1
Total 20 2 6 24
Seventh Semester Course Code Course Name L T P C
CV1701 Estimating, Costing And Valuation 3 1 0 4
CV1702 Construction Planning, Organisation And
Equipments 4 0 0 4
CV1703 Elements Of Earthquake Resistant Design Of
Structures 4 0 0 4
CV1704 Environmental Engg.-II 4 0 0 4
CV1705 Structural Design -IV 4 0 0 4
CV17xx Program Elective-III 3 0 0 3
CV1730 Computer Lab - II 0 0 3 1
CV1731 Environmental Engg. Lab 0 0 3 1
CV1780 Project Survey & Seminar 0 0 3 1
Total 22 1 9 26
Eighth Semester Course Code Course Name L T P C
CV1881* Industrial Training/ Tour 0 0 0 1
CV1882 Project Work/ Practice School 0 0 0 20
Total 0 0 0 21
*will be done in the summer and evaluated in eighth semester
Programme Elective
CV1561 Advanced structural Analysis
CV1562 Open Channel flow and Sediment Transportation
CV1563 Finite Element Method of Analysis
CV1661 Hydrological Analysis
CV1662 Air Pollution and Control
CV1663 National Building Code Requirement
CV1664 Ground Water Engineering
CV1665 Design of Hydraulic Structures
CV1666 Advanced Reinforced Concrete Design
CV1761 Urban Transportation Systems
CV1762 Ground Improvement Techniques
CV1763 Coastal Engineering
CV1764 Design of foundations and Earth Retaining
structures
CV1765 Bridge Engineering
CV1766 Environmental Impact and Assessment
Open Electives: (Interdisciplinary)
CV1491 Introduction to Finite Element Method of
Analysis
CV1492 Introduction to Remote Sensing and GIS
CV1493 Elements of Concrete Technology
CV1691 Environmental Management
CV1692 Contract Management
CV1693 Advanced Fluid Dynamics
SYLLABI
MA1301 ENGINEERING MATHEMATICS III [4 0 0 4]
Introduction of vector: Brief idea of scalar and vector, product
of two vectors as well three vectors and properties, Brief idea of
scalar and vector product of four vectors and properties; Vector
Calculus: Gradient, Divergence and curl, Line, Surface and
Volume integrals, Related theorems, Fourier series; Fourier
transform: Fourier sine and cosine transforms, Fourier integrals,
PDE, Derivation and solution of wave equation and heat
equations; Probability and distribution: Binomial, Poisson,
Uniform, normal, gamma and exponential.
Text Books: 1. Grewal B.S., Higher Engineering Mathematics, Khanna Publishers,
Delhi, 2006.
2. Kreyzig E. Advanced Engineering Mathematics, Wiley Eastern, 2006.
References: 1. Spiegel M.R., Vector Analysis, S Chand Publishing Co., 1968.
2. Meyer P.L., Introduction to Probability and Statistical Applications,
Addison-Wesley Pub. Co., 1970.
CV1301 FLUID MECHANICS - I [3 1 0 4]
Introduction: Fluid properties, Ideal and real fluids, Fluid
pressure and its measurement, Hydrostatics: Forces on plane and
curved surfaces, Centre of pressure, Stability of floating and
submerged bodies; Kinematics of Fluid Motion: Lagrangian and
Eulerian approach, Classification of Flows: Steady, Unsteady,
Uniform, Non-Uniform, Laminar and Turbulent; Stream, Path
and Streak lines, Stream tube, Continuity equation, Velocity
potential function and stream function, Flow net. Dynamics of
Fluid Motion: Euler’s equation of motion, Bernoulli’s equation
and its applications- Venturimeter, Orifice meter and Pitot tube,
Momentum equation and its application to moving and stationary
vanes. Flow through Pipes: Reynolds’ experiment, Steady
laminar flow through a circular pipe, Head loss due to friction,
Darcy- Weisbach equation for head loss, Minor losses in pipe
lines, Pipes in series and parallel, Water hammer in pipes.
Dimensional Analysis: Dimensionless parameters and their
significance, Buckingham’s Pi theorem and model similarities.
References:
1. Garde R.J. and Mirajgaokar A.G., Engineering Fluid Mechanics
(Including Hydraulic Machines), Nem Chand & Bros, Roorkee, Second
Edn, 1983. 2. Modi P.N. & Seth. S.M., Hydraulics and Fluid Mechanics, Standard
Book House, New Delhi, 2005. 3. Subramanya K., Theory and Applications of Fluid Mechanics (Including
Hydraulic Machines), Tata McGraw- Hill Publishing Company Limited,
New Delhi, 2011. 4. Jain A.K., Fluid Mechanics Including Hydraulic Machines, Khanna
Publishers, Delhi, 2004.
CV1302 STRUCTURAL ANALYSIS - I [3 1 0 4]
Introduction: Overview and scope of the subject; Analysis of
determinate plane trusses: Method of joints and Method of
sections; Shear force and bending moment diagrams for
statically determinate beams: relationships between SF, BM,
and load intensity; Bending and Shearing stresses in statically
determinate beams; Deflection: Determination of slope and
deflection in statically determinate beams using Macaulay's
method, Moment-area method and Conjugate beam method.
Stability of columns: Slenderness ratio, failure by buckling,
Euler's formula, concept of equivalent length for different support
conditions, limitation of Euler's formula, Rankine-Gordon
Formula; Torsion of circular shaft: Simple torsion theory, solid
and hollow circular shafts, power transmitted by shafts; Analysis
of arches and suspension bridges: Analysis of three hinged
parabolic and segmental arches, Determination of horizontal
reaction, normal thrust, radial shear and bending moment,
Analysis of suspension bridge with three hinged stiffening girder.
References: 1. Bhavikatti, S.S., Structural Analysis – II, Vikas Publishing House Pvt.
Ltd., 2011.
2. Hearn E.J., Mechanics of Materials, Vol. I, Pergamon Press, 1991.
3. Rajput R.K., Strength of Materials, S Chand& Co., 2004.
4. Gahlot, P.S. and Gehlot, D., Fundamentals of Structural Mechanics,
CBS Publishers & Distributors Pvt. Ltd.
5. Subramanian, R., Strength of Materials, Oxford University Press,
2012.
CV1303 BUILDING SCIENCE & TECHNOLOGY [4 0 0 4]
Plastering, Painting and Flooring: Types, properties, White
washing, Colour washing and distempering of walls. Plastic
emulsion, Enamel and powder Coat painting of walls, Painting of
wood and metal works, Granolithic, Concrete, Mosaic, Ceramic,
Marble, Terrazzo and Synthetic material flooring Roofs: Sloped
roofs – Leaning roofs, Coupled and Collared roofs; Timber
trusses: King post and Queen post trusses; Shoring,
Underpinning, and Scaffolding. Bricks & Tiles; Lime: Types
and their application; Timber: properties, defects and
preservation, Types and uses; Tar, Bitumen and Asphalt,
Modern Building Materials: Plastic, FRP, rubber, glass, Ferro-
cement, glass, ceramics and paints; Corrosion: types and
Corrosion prevention methods; Cements: Types, composition,
properties and uses, physical tests on cement, Concrete
Technology: Ingredients of concrete, properties & tests on fresh
and hardened concrete as per IS codes.
References: 1. SP 20, Handbook on Masonry Design and Construction, B.I.S.
Publication, 1991.
2. SP 62 (S&T), Handbook on Building Construction Practices, B.I.S. Publication, 1997.
3. Punmia B.C., Building Construction, Lakshmi Publications, New
Delhi, 2003.
4. Neville A. M, Properties of Concrete, McGraw-Hill, Singapore, 1989.
CV1304 SURVEYING – I [3 1 0 4]
Introduction: Principles of Surveying - methods - Plane and
geodetic - Principles of chain surveying: offsets, Cross staff and
principles of optical square - Error in offset - obstacles in
chaining; Compass Survey: Principles, Prismatic compass,
Surveyors compass, Bearings and Included angles - Declination -
Local attraction - Graphical adjustment of compass traverse -
latitudes and Departures; Plane Table survey: Methods .
Computation of Areas and Volumes: Areas calculation, Volume
calculation; Levelling: Introduction - Simple levelling -
Differential levelling - Errors in Levelling - Curvature and
Refraction- Sensitiveness of bubble tube - Cross sectioning,
Profile and Reciprocal Levelling. Contours: Introduction -
Application and uses - Methods- Characteristics Use of
planimeter; Theodolite Survey: Introduction and description of
Theodolite - Repetition and Reiteration- Trignometric levelling;
Study of Minor Instruments: Hand level, Abney level,
Electronic theodolite, Ceylon ghat tracer, Indian pattern
clinometer, Box sextant.
References: 1. Subramanian R., Surveying and Levelling, Oxford University Press
2012.
2. Chandra A.M., Plane Surveying, New Age International Pvt. Ltd.,
2011.
3. Punmia B.C., Surveying and Leveling Vol. I and II, Lakshmi Publishers, New Delhi 2005.
4. Arora K.R., Surveying, Vol. I, Standard Book house, New Delhi, 2003.
CV1305 ENGINEERING GEOLOGY [4 0 0 4]
Introduction: Geology and Civil Engineering, Earth as a planet,
its structure and composition; Elements of Engineering
Seismology: Interior of the Earth. Earthquake occurrence in the
world causes of earthquake, Plate tectonics, Earthquake
mechanism, Seismic zoning map of India and its use;
Earthquake Phenomenon: Focus, Epicenter, Seismic waves,
magnitude, intensity, intensity scale and its correlation with
ground acceleration, Characteristics of strong ground motions and
attenuation. Earthquake recording instruments; Physical
Geology: Origin and development of river systems, Erosion,
Transportation and Deposition by rivers, weathering
(deterioration) of rocks. Kinds of weathering, agencies, causes
and products of weathering; Structural Geology: Outcrop, dip &
strike, clinometer, Compass, Definition, Different parts of folds,
faults, joints and unconformity and their recognition in the field
and their importance in Civil engineering projects; Petrology:
Sources of rocks - minerals - definition, Physical proportion of
important rock forming and ore minerals; Rock as building
material - Rock cycle. Classification of rocks into Igneous,
Sedimentary and Metamorphic; Engineering Geology:
Geological considerations in selection of sites for Dams,
Reservoirs, Tunnels, Bridges & Highways, Landslides, their
causes and prevention.
References: 1. Mukherjee P.K., A Text Book of Geology, World Press, Kolkata, 2003. 2. Reddy D.V., Engineering Geology for Civil Engineering, Oxford and
IBH Publishing Co. Pvt. Ltd., New Delhi 1995.
CV1330 SURVEYING PRACTICE- I [0 0 6 2]
Chain survey- To conduct direct and indirect ranging,
Construction of Geometric figures using chain and tape - triangle,
pentagon, trapezium, and hexagon. To erect perpendicular from a
given point using, Chain tape and Cross staff. Compass Survey-
Study of compass and construction of regular pentagon and
hexagon, Construction of a quadrilateral, Distance b/w two
inaccessible points. Plane table surveying -Radiation and
intersection methods, Solving three point problem by Bessel's
solution, Plane table traversing. Levelling Study of instrument,
Simple levelling, Height of instrument method, Rise and fall
method including inverted staff reading, To find difference in
level b/w two points by reciprocal leveling. Theodolite -Study of
the instrument, Method of repetition, Method of reiteration,
Measurement of vertical angles, To find RL when base of object
is inaccessible, single plane method, double plane method,
Distance b/w inaccessible points, Theodolite Traversing.
References: 1. Kanetkar T.P. and Kulkarni S.V., Surveying and Levelling, Part I and
II, PuneVidyarthi Griha Prakashana – Pune, 1996 2. Punmia B.C., Surveying, Vol. I, Lakshmi Publications, New Delhi,
2005.
CV1331 MATERIAL TESTING LAB – I [0 0 3 1]
Tension test on mild steel, Compression test on cast iron,
Compression test on timber, Shear test on mild steel specimen,
Torsion test on mild steel specimen, Rockwell hardness test,
Brinell's Hardness test, Impact tests: a)Izod b)Charpy, Bending
test on wood, Fatigue test (Demonstration), Test on Bricks -
Compressive Strength, Absorption, Efflorescence, Tests on
Flooring and Roofing Tiles: Wear resistance (Dorry's abrasion
Test), Knife Edge Load Absorption, Tests on Bitumen: Specific
Gravity, Viscosity, Softening Point, Flash and Fire Point,
Ductility, Penetration Value, Compressive strength of Laterite
Stone.
References: 1. Suryanarayana A.V.K., Testing of Metallic Materials, Prentice Hall of
India, New Delhi, 1990. 2. Khanna & Justo, Highway Materials Testing, Nemchand, New Chand,
1989.
3. Technical Teachers, Training Institute, Laboratory Manual of Strength of Materials, Oxford University Press, 1983.
MA1401 ENGINEERING MATHEMATICS - IV [4 0 0 4]
Numerical analysis: Solution of Linear algebraic equations and
Matrix Inversion, Eigen values, Numerical Integration, Solution
of non-linear equations, Solution of differential equations;
Optimization Techniques: single variable, Multiple variable;
Finite element method: Strong form, Weak form, Calculus of
variation, Approximate methods, Least square method, Finite
difference method: Application of finite difference technique,
Statistically determinate and indeterminate beams, Buckling of
columns.
Text Books:
1. Salvadori M.G. & Baron M.L., Numerical Methods in Engineering, PHI, 1961.
References: 1. Muthu K.U. and Raju N.K., Numerical Methods for Engineering
Problems, Macmilan Publishers India Ltd., 2000.
2. Sastry S.S., Introductory Methods of Numerical Analysis, PHI, 2005.
CV1401 FLUID MECHANICS – II [3 1 0 4]
Flow in open Channels: Chezy's and Manning's formulae,
Section factor for uniform flow computations, Hydraulically
efficient channel cross sections, Specific energy curve, Critical
flow and its computations, Froude’s Number and its significance;
Gradually varied flow (GVF): Dynamic equation of GVF,
Characteristics and Classification of flow profiles, Step method of
computation of back water curve (M1) type only; Rapidly varied
flow: Hydraulic jump in a rectangular channel, Loss of energy in
a hydraulic jump, Venturi, Standing wave and Parshall flumes;
Hydraulic turbines: Description and general working principles
of Pelton, Francis and Kaplan turbines, Work done and
efficiencies of impulse and reaction turbines, Governing of
turbines, Selection of turbines; Centrifugal Pump: Description
and general working principle of centrifugal pumps, Work done
and efficiencies, Multistage pumps, Pumps in series and pumps in
parallel.
References: 1. Modi P.N. and Seth S.M, Hydraulics and Fluid Mechanics, Standard
Book House, New Delhi, 2005. 2. Chow V.T., Open channel Hydraulics, Tata McGraw - Hill Publishing
Co., Ltd., New Delhi, 1985.
3. Garde R.J. and Mirajgaokar A.G., Engineering Fluid Mechanics (including Hydraulic Machines), Nem Chand & Bros, Roorkee,
Second Edn, 1983.
4. Raju K.G.R., Flow through Open Channels, Second Ed. Tata McGraw- Hill Publishing Company Limited, New Delhi, 1993.
CV1402 STRUCTURAL ANALYSIS - II [3 1 0 4]
Strain Energy: Due to axial force, Shearing force, Bending
moment and Twisting moment, Law of conservation of energy,
Virtual work on rigid and Elastic bodies, Betti's theorem,
Maxwell's law of reciprocal deflections and Castigliano's
theorem; Deflection: By strain energy methods, Unit load method
and Castigliano's method; Analysis of two hinged parabolic
arches: Determination of horizontal reaction, Normal thrust,
Radial shear and Bending moment; Rolling Loads and Influence
Lines: Determination of maximum S.F. and B.M. at a section and
absolute maximum B.M. and S.F. in the beam, Influence lines for
beams with hinges; Analysis of Simple Statically Indeterminate
Beams: By strain energy, Consistent deformation methods and
Three-Moment theorem, Analysis of statically indeterminate
beams, Bents and Frames - Using slope deflection, Moment
distribution methods.
References: 1. Bhavikatti S.S., Structural Analysis – II, Vikas Publishing House Pvt.
Ltd., 2011.
2. Bhavikatti S.S., Structural Analysis, Vikas Publishing House Pvt. Ltd.,
1999.
3. Reddy C.S., Basic structural Analysis, Tata McGraw Hill, New Delhi, 2004.
4. Vaidyanathan R. and Perumal R., Comprehensive Structural Analysis
Vol. I & II, Laxmi Publications, New Delhi, 2004. 5. Gupta S.P., Pandit G.S. and Gupta R., Theory of Structures, Tata
McGraw Hill, 1999
6. Santhakumar A.R., Concrete Technology, Oxford University Press
2011.
7. Punmia B.C., Jain A.K. and Jain, A.K., Theory of Structures, Laxmi
Publications.
8. Ramamurutham S., Theory of Structures, Dhanpat Rai and Sons, 2010.
9. Thandavamoorthy T.S., Structural Analysis, Oxford University Press,
2012.
CV1403 STRUCTURAL DESIGN-I [3 1 0 4]
Concrete Mix Design as per IS code procedure. Straight line
Theory: Determination of neutral axis, Stress and Strain, and
Moment of resistance of singly reinforced and doubly reinforced
sections, Determination of short term, long term deflections of
R.C. beams & Crack width; Limit state method: Principles,
Design of Singly reinforced, Doubly reinforced, and Flanged
beams; Design of One way and two way slabs: for various
boundary conditions; Design of columns: combined axial load
and biaxial bending of short columns, Use of SP16 hand book.
References: 1. Verghese P.C., Limit State Design of Reinforced Concrete, Prentice
Hall of India, New Delhi, 1999.
2. Shah H.J., Reinforced Concrete, Vol. I, Charotar Publishing house, Anand, 2005.
3. Raju N.K., Reinforced Concrete Design: Principles and Practices,
New Age International, 2010. 4. Syal I.C. and Goel A.K., Reinforced Concrete Structures S. Chand and
Co. 2012.
5. Gambhir M.L., Fundamentals of Reinforced Concrete Design, PHI Learning, 2012.
6. Gambhir M.L., Design of Reinforced Concrete Structures, PHI
Learning, 2012. 7. Punmia B.C. and Jain A.K., R.C.C. Designs (Reinforced Concrete
Structures), Laxmi Publications, 2006.
8. Pillai S.U. and Menon D., Reinforced Concrete Design, Tata McGraw
Hill, 1998.
BIS Publications: 1. IS: 456, Code of Practice for Plain and Reinforced Concrete, Bureau
of Indian Standards, New Delhi, 2000.
2. SP-16 - 1980 Design Aids for Reinforced Concrete IS 456 - 1978.
Bureau of Indian Standards, New Delhi.
CV1404 SURVEYING - II [4 0 0 4]
Tacheometry: Principles, methods, Analytic Tacheometer,
Distance and Elevation formulae; Curves: Introduction, Simple
curve, Compound curve, Reverse curve, Transition curve,
Lemniscate curve, Vertical curve; Construction Surveying:
Introduction , Equipment for setting out pipe line, Building and
structures, Staking out a highway; Photogrammetric Surveying:
Terrestrial principles, Photo theodolite, Horizontal and Vertical
distances of points from photographic measurement; Aerial
Photogrammetry: Aerial camera , Scale of vertical photograph,
Drag and lift , Computation of flight plan. Underground
Surveys: Introduction, application of underground surveys,
Auxiliary Theodolite; Hydrographic Survey: Shore line survey,
methods of Sounding, locating, reduction of soundings and
plotting and problems; Electronic Distance Measurement.
References: 1. Subramanian R., “Surveying and Levelling”, Oxford University Press
2012.
2. Chandra A.M., “Plane Surveying”, New Age International Pvt. Ltd.,
2011.
3. Arora K.R., Surveying, Vol. I and II, Standard Book House, New Delhi,
1993.
4. Punmia B.C., Surveying Vol. I and II, Lakshmi Publications, New Delhi, 2005.
CV1430 BUILDING DESIGN AND DRAWING [0 0 3 1]
Foundations: Masonry foundations, RCC Footings - Isolated,
Combined and Raft footings; Doors and Windows: Wooden and
Aluminium doors, PVC and Steel doors such as Collapsible
Doors, Wooden windows, Aluminium windows; Designing and
Drawing of Residential Buildings: Plan, Elevation and Sectional
views of Single bedroom house with Mangalore tiled roof, Double
bedroom house with RCC roof; Designing and Drawing of
Public Buildings: Plan, Elevation and Sectional views of School,
Bank, and Health Centre for the given Line Diagram;
Introduction to Auto cad: Drafting plan and elevation of single
bed room RCC building with flat roof.
References: 1. BalagopalPabhu T.S., Paul K.V. and Vijayan C., Building Design of
Civil Engg. Drawing, Spades Publishers, Calicut. 1999.
2. Rangwala S.C., Elementary and Advanced Building Construction.
CV1431 FLUID MECHANICS LAB [0 0 3 1]
Calibration of V - Notch, Rectangular notch, Cippoletti Notch;
Broad crested weir, curved weir; orifices, mouth pieces;
Venturimeter, orifice meter; venturi flume, standing wave flume;
Determination of Friction factor of pipes; Tests on Impact of jet
on Vanes, Centrifugal pump, Pelton turbine, Francis turbine and
Kaplan Turbine.
References: 1. Modi P.N. and Seth S.M., Hydraulics and Fluid Mechanics Standard
Book House, New Delhi, 2005
2. Streeter V.L. and Wiley E.B, Fluid Mechanics, McGraw Hill Co. New
York, 1998.
CV1432 MATERIAL TESTING LAB - II [0 0 3 1]
Determination of specific gravity of cement, Determination of
Fineness of cement, Determination of standard consistency of
cement, Determination of setting times of cement, Determination
of soundness of cement, Determination of strength of cement,
Determination of specific gravity of fine aggregate,
Determination of specific gravity of coarse aggregate,
Determination of fineness modulus of fine aggregate,
Determination of fineness modulus of coarse aggregate,
Determination of bulking of sand, Determination of clay (or silt)
content in sand, Determination of workability of concrete by
slump test, Determination of workability of concrete by
compaction factor test, Determination of workability of concrete
byVee - Bee consistometer Test, Determination of compressive
strength of concrete, Determination of tensile strength of
concrete, Determination of flexural strength of concrete,
Determination of permeability of concrete, Determination of
modulus of elasticity of concrete, Determination of aggregate
impact value, Determination of aggregate abrasion value ( Los
Angeles Test ), Alkali - Aggregate reaction - Demonstration,
Flakiness and Elongation Indices of Aggregates - Demonstration,
Rebound Hammer, Profometer, Corrosion analyser, Ultrasonic
tester - Demonstration.
References: 1. Shetty M.S., Concrete Technology, S. Chand and Co, 2006. 2. Neville and Brooks, Concrete Technology, Pearson Education, 2003.
3. Singh G., Materials of Construction, Std. Publishers, 1998.
CV1433 GEOLOGY LAB [0 0 3 1]
Identification and description of the following minerals with uses
and distribution in India. Rock forming Minerals: Quartz group -
rock crystal, Amethyst, Rose crystal, agate, flint, Jasper,
Orthoclase, Microcline, Plagioclase, Muscovite, Biotite, Koaline,
Calcite, Magnesite, Dolomite, Hornblende, gypsum, Olivine,
Corundum, Garnet, Talc, Asbestose, Chlorite. Ore minerals:
hematite, Magnetite, Limonite, Chromite, Chalcopyrite, Pyrite,
Galena, Azurite, Malacite. Megascopic study of the following
rocks with their composition, texture, structure, and engineering
importance- Granite, gabro, dunite, pegmatite, dolomite, basalt,
obsidian, pumice, conglomerate, breccia, sandstone, limestone,
shale, laterite, gneiss, slate, quartzite and marble. Interpretation of
geologic maps with horizontal inclined, folded, faulted and
unconformity. Determination of thickness of strata on horizontal
ground, Dip and strike problems, Borehole problems and their
uses in dams, tunnels and reservoir site.
References: 1. Reddy M.T.M., Engineering Geology Practicals, New Age International
Publishers, New Delhi 2002.
2. Gurappa K.M., Structural Geology Maps and Problems, 1975.
3 Gokhale W., Manual of Geological Maps, CBS publications, New Delhi
1987.
CV1501 GEOTECHNICAL ENGINEERING - I [3 1 0 4]
Introduction; Weight-Volume Relationship; General and
Index properties of soils: Field Identification, Classification of
soils: Soil structure, Clay mineralogy; Total, Effective and
Neutral stresses; Flow through soil: Permeability, capillarity,
Seepage analysis, Laplace equation, Flow nets; Compressibility
of soils: Compaction and consolidation; Stress distribution in
soil mass: Boussinesq Equation, Westergaard Analysis, Contact
Pressure; Shear strength: Mohr-Coulomb equation, Methods of
determination of shear strength, Stress path.
References: 1. Terzaghi K. and Peck R.B., Soil Mechanics in Engineering Practice, A
Wiley International Edition, 2nd Edition, New York 1967. 2. Punmia B.C., Soil Mechanics and Foundations, Laxmi Publications,
6th edition 2005.
3. Ranjan G. and Rao A.S.R., “Soil Mechanics and Foundation
Engineering”, New Age International Publisher, New Delhi
CV1502 STRUCTURAL DESIGN - II [3 1 0 4]
Introduction: scope and use of structural steel. Partial safety
factors; Structural fasteners: Bolted connections-Design of lap
joints, butt joints and bracket connections. Welded connections:
Strength of welds, design of lap joints, butt joints and bracket
connections. Design of Tension members: Design of axially
loaded tension member - Sections with welded and bolted
connections. Design of Compression members: Design of
axially loaded compression member -Laced and battened
columns, Design of column splices. Column bases: simple slab
base and gusseted base for axially loaded column. Design of
flexural members: Design of beams -laterally supported and
laterally unsupported compression flange. Design of plate
girder: proportioning of web, proportioning of flanges, stiffeners.
Design of truss members and joints: connection between
column and trusses.
References: 1. Subramanian N., Design of Steel Structures, Oxford University press,
New Delhi 2008.
2. Duggal S.K., Limit State Method of Design of Steel Structures, Tata
McGraw-Hill, New Delhi 2010.
3. Subramanian, N., Steel Structures: Design and Practice, Oxford
University Press., 2010
4. Shiyekar M.R., Limit State Design in Structural Steel, PHI Learning
Pvt. Ltd., 2011.
5. Ghosh K.M., Analysis and Design: Practice of Steel Structures, PHI Learning Pvt. Ltd. 2010.
BIS Publications: 1. IS 800-2007: General Construction in Steel-Code of Practice (Third
Revision), Bureau of Indian Standards, New Delhi. 2. SP: (6)-1964: Hand Book for Structural Engineers, Bureau of Indian
Standards, New Delhi.
CV1503 WATER RESOURCES ENGINEERING [4 0 0 4]
Introduction: Scope and need of the subject, Available potential
and present status of its utilization. Hydrology: Definition and
scope, Hydrologic cycle, Peak flows, rainfall and runoff process,
infiltration, flood hydrograph, concept of unit hydrograph.
Irrigation Engineering: Necessity, benefits and ill effects of
irrigation; soil water relationships; water requirements of crops;
methods of irrigation; waterlogging and design of drainage
system. River Engineering: Basic concepts of resistance and
sediment transport in rivers. Canal Irrigation: Types of canals
and their functions; parts of a canal system, preparation of canal
project. Methods of design of stable channels – Lacey, Kennedy
and Lane’s methods; design of lined channel; L –sections and
cross sections Types of structures on canal, design considerations
from surface and sub-surface flows, Energy dissipation. Falls,
cross- drainage works, cross and distributary head regulators.
Reservoir Planning: Purpose and types; investigations; reservoir
capacity, reservoir sedimentation. Design of Diversion and
Storage works: Diversion head works; River training works;
Dams- Gravity and earth dams their functions and basic principles
of design.
References:
1. Singh B., Fundamentals of Irrigation Engineering, Nem Chand & Bros, Roorkee, 9th Edn. 1997.
2. Modi P.N., Water resources and Water Power Engineering, Standard
Book House Publications, Delhi 1988. 3. Varshney R.S., Gupta S.C. and Gupta R.L., Theory and Design of
Irrigation Structures, Vol.1, Channels and Tube Wells, Nem Chand &
Bros, 7 th Edn. 2000. 4. Varshney R.S., Gupta S.C. and Gupta R.L., Theory and Design of
Irrigation Structures, Vol.2, Canals and Storage Works, Nem Chand
& Bros, 6 th Edn. 1993. 5. Viessman and Knapp, Introduction to Hydrology, Harper and Row
Publishers, Singapore 1989.
6. Modi P.N., Irrigation, Water Resource and Water Power, Standard book house publications, Delhi 1988.
CV1504 ENVIRONMENTAL ENGINEERING - I [4 0 0 4]
Protected water supply: Need, Essentials of water supply,
Project documents preparation; Population forecasting:
Different methods, Rate of demand - factors affecting and its
variation; Sources of water: intakes, Water borne diseases and
their control; Quality of water: Treatment of water, Softening of
water, Removal of iron and manganese, Defluoridation,
Desalination; Distribution of water :Distribution methods,
Systems of supply, Service reservoirs and their capacity, Layouts
of distribution, Pipe appurtenances; Air Pollution: Important air
pollutants and their sources, Effects of air pollution on human
health and on materials, Control measures.
Reference:
1. Manual on Water Supply and Treatment CPHEEO, Ministry of Urban development, New Delhi 1991.
CV1505 TRANSPORTATION ENGINEERING-I [4 0 0 4]
Highway engineering: Introduction, Scope of highway
engineering, Highway classification, factors controlling highway
alignment, Engineering survey for highway location. Highway
Economics and Finance:-Methods of Economic Analysis-Motor
vehicle operation cost, Highway finance; Geometric Design:
Elements of highway, factors effecting friction, Camber, types of
camber, Width of formation, Sight distance-stopping and
Overtaking, Horizontal curve, Extra widening, Super elevation,
Transition curve, Vertical curves-Summit and Valley Curves.
Pavements Design: - Types of pavements, Factors which
influences design and selection of different types of pavements,
Brief study on pavement materials, Design of Flexible pavements-
C.B.R, Group Index and IRC method, Design of Rigid
pavements- IRC method, Types of failure in pavements, Types of
joint in rigid pavements. Highway Drainage System:-Types of
drainage and design. Traffic Engineering: Traffic engineering,
Vehicular and road user characteristics, Traffic studies, Speed and
delay studies and problems, Origin and destination studies,
Traffic density, Traffic volume study and traffic volume, Relation
between speed, Travel time and traffic volume, Traffic density
and passenger car units, Traffic signs and traffic signals, Design
problems. Transportation Planning: Transportation planning and
stages in transport planning, Trip generation, Trip distribution
models, Trip assignment, and modal split.
References: 1. Khanna S.K. and Justo C.E.G., Highway Engineering, 8th Edition,
Nemchand and Bros., Roorkee 2001.
2. Kadiyali L.R., Traffic Engineering and Transportation Planning, 6th Edition, Khanna Publisher, New Delhi 2000.
3. Huang Y.H., Pavement Analysis and Design, Prentice Hall, 2003.
4. Hutchinson B.G., Principles of Urban Transportation System Planning, McGraw-Hill, 1974
CV1530 SOIL MECHANICS LABORATORY [0 0 3 1]
Determination of moisture content, Specific gravity, Atterberg's
limits, In-situ unit weight, Coefficient of permeability, Grain size
analysis, Compaction tests, Shear strength parameters, CBR.
CV1531 SURVEYING PRACTICE - II [0 0 3 1]
Tacheometric surveying: Determination of Tacheometric
constants, gradient of a line, Location of offsets. Curve
Surveying: (Using Chain and Tape): Setting out simple curve
by offset from long - chord, Successive bisection of arcs, Setting
simple curves by offset from chord produced. Curve Surveying:
(Using theodolite): Setting out a compound curve, Setting out a
reverse curve, Setting out a transition curve (Bernoullis
Leminscate), Setting out a combined curve. Total Station
Method-Generating general plan, Generating contour plan; Study
of Instrument: Hand level, Clinometers, Abney level, Use of
Planimeter, Box sextants, nautical sextants, Ceylon ghat tracer.
References: 1. Punmia B.C., Surveying and Levelling Vol. I and II, Lakshmi
Publishers, New Delhi 2005.
2. Arora K.R., Surveying, Vol. I, Standard Book house, New Delhi 1993.
MB1621 ESSENTIALS OF MANAGEMENT AND
ENGINEERING ECONOMICS [3 1 0 4]
Management: Definition of Management, Nature and scope of
management, Functions of managers, corporate social
responsibility, Theories of Planning, Organizing, Staffing,
Leading and Controlling; Engineering Economics: Introduction
to Micro and Macro Engineering Economics, Value, Utility,
Consumer & Producer goods, Factors of Production, Law of
demand and supply, Elasticity of demand & supply, Equilibrium
of demand and supply; Time value of Money, Economic
Evaluation of Alternatives, Replacement analysis and
Depreciation.
References: 1. Koontz D., (Latest Edition), Essentials of Management McGraw Hill,
New York. 2. Drucker P., (Latest Edition) Management, Task and Responsibility.
Allied Publishers.
3. Drucker P., The Practice of Management, Butterworth Hein Mann 2003.
4. Tuesen G. J. & Tuesen H. G., Latest Edition Engineering Economy,
Prentice Hall of India, New Delhi. 5. Paul D.L., Latest Edition Engineering Economy, Macmillan, New
York.
6. Blank L. T. & Tarquin A. J. Latest Edition Engineering Economy McGraw Hill, New York.
7. Riggs J.L, Bedworth D.D., Randhawa S.U., Latest Edition Engineering Economics Tata McGraw - Hill Publishing Company Ltd,
New Delhi.
CV1601 GEOTECHNICAL ENGINEERING - II [3 1 0 4]
Geotechnical investigations; Theories of Earth Pressure and
Retaining Structures; Stability of slopes; Bearing capacity of
shallow footings: Settlement analysis, Deep Foundations: Pile
foundations, Load capacity of Piles, Under-reamed piles and
Bored compaction piles, Group action piles, Negative Skin
friction; Well foundations: Caissons, Machine foundations;
Environmental Geo-technology.
References: 1. Bowels J.E., Foundation Analysis and Design, McGraw-Hills Book
Company 4th Edition, 1998.
2. Arora K.R., Soil Mechanics and Foundation Engineering, Standard, Publishers and Distributors, 7th Edition, 2008.
3. Punmia B.C, Soil Mechanics and Foundations, Laxmi Publications,
16th Edition, 2005.
CV1602 STRUCTURAL DESIGN -III [4 0 0 4]
Flat Slabs: Interior panels, direct design method .Stair cases:
Types of stairs, design of dog legged and open newel types;
Design of Slender Columns: columns subjected to combined
axial load and biaxial moments; Column footings: Types of
footing, design of isolated and rectangular combined footings;
Retaining walls: Types of retaining walls, design of cantilever
and counter-fort type retaining; Water tanks: Design of water
tank as per IS code 3370, rectangular and circular tanks resting on
ground; Structural Steel connections: beam to beam and beam
to column connections.
References:
1. Punmia B.C., Limit State Design of Reinforced Concrete. Laxmi
Publications, New Delhi 2007.
2. Subramanian N., Design of Steel Structures, Oxford University press,
New Delhi 2008.
3. Syal I.C. and Goel A.K., Reinforced Concrete Structures S. Chand and Co. 2012.
4. Gambhir M.L., Fundamentals of Reinforced Concrete Design, PHI
Learning, 2012 5. Gambhir M.L., Design of Reinforced Concrete Structures, PHI
Learning, 2012
6. Punmia B.C. and Jain A.K., R.C.C. Designs (Reinforced Concrete Structures), Laxmi Publications, 2006.
7. Pillai S.U. and Menon D., Reinforced Concrete Design, Tata McGraw
Hill, 1998.
BIS Publications: 1. IS: 456 - 2000, Plain and Reinforced Concrete Code of Practice, BIS,
New Delhi.
2. IS: 3370 - Part II-1965 & IV-1967, Code of Practice for Concrete
Structures for the Storage of Liquids, BIS, New Delhi. 3. IS: 800 - 2007, General Construction in Steel-Code of Practice, BIS,
New Delhi.
4. SP: 16-1984, Design Aids for Reinforced Concrete, BIS, New Delhi.
CV1603 TRANSPORTATION ENGINEERING-II [4 0 0 4]
Railway engineering: Introduction, Scope, terminology, Survey,
Tractive resistance, Permanent way, Components parts rail and
rail fastenings, ballast, sleepers, Railway creep, Anti-creep
devices, coning of wheel, wear of rail. Alignment Details; Points
and crossing: Necessity of turnouts, Switches and track junction,
Design of turnouts; Railway Station and Yards: Types and
classification, equipment in Station Yards, Signals-
Classification, function, Control on movement of train by
different methods. Interlocking: Types and function.
Airport engineering: Introduction, History and development,
Aviation organizations and their functions, Aircraft
characteristics and its influence on airport planning, Airport
Planning, Site selection, Obstructions, Airport configuration;
Geometric Design: Runway orientation, Basic runway lengths,
Geometric design of Runway and Exit taxiways; Airport
Capacity: Runway and Terminal capacity and its improvement,
Delay related capacity, Gate position and gate capacity, Terminal
area, Aircraft parking system. Visual aids and Air traffic control
system: - Flight rules, Navigational and landing aids, VASI, PAPI
enroute air traffic control, ILS, MLS; Pavement Design: ESWL
concepts, FAA method and LCN-PCN method of pavement
design; Airport Drainage System:-Design runoff, Surface and
subsurface drainage.
References: 1. Saxena S.C. and Arora S.P, A Text Book of Railway Engineering.
2. Srinavasan R. & Rangawala, Harbour, Dock and Tunneling
Engineering. 3. Horenjeff R. and McKelvey F. Planning and Design of Airports,
Fourth edition, McGraw Hill Company, New York, 1994.
4. Ashford N. and Wright P.H., Airport Engineering, Third edition, John Wiley and Sons, New York, 1992.
CV1630 STRUCTURAL DRAWING [0 0 3 1]
Stair cases: dog- legged and open newel types; Column footing:
Rectangular combined footing; Water tanks: Rectangular and
circular tanks - On the ground; Design of Steel Columns and
Beams: Built up column - column splices - column bases
subjected to axial loads, Lacings, Battening; Roof trusses -
Design of roof truss purlin and bearing plate; Welded Plate girder;
Beam-beam and Beam-column connections.
References: 1. Krishnamoorthy, Structural Design and Drawing, (Concrete
Structures), CBS Publications, New Delhi 2008.
2. Duggal S.K., Limit State Design of Steel Structures, Tata McGraw Hill Education Private Limited - New Delhi 2008.
CV1631 COMPUTER LAB - I [0 0 3 1]
Writing and Executing computer programme in C language /
MAT Lab for the following; Solution of system of simultaneous
equations by a) Gauss Elimination method b) Gauss Jordan
elimination method c) Choloskey Decomposition method, d)
Gauss Siedal and Jacobi iterative methods; Matrix inversion by a)
Gauss Elimination method, b) Gauss Jordan Elimination method;
Determination of Eigen value and Eigen vector by a) Iteration
methods b) Jacobi method. Determination of Integral of the given
equation by a) Trapezoidal rule b) Simpsons rule c) Gaussian
Quadrature; Finding the deflection of beams by Finite difference
method; Determination of critical loads of columns.
References: 1. Raju N.K. & Muthu K.U., Numerical Methods for Engineering
Problems, Macmillan India Ltd., New Delhi 2001.
2. Rajasekaran S., Numerical Methods for SCV1 and Engineering,
Wheeler and Co. Pvt. Ltd., New Delhi, 1992. 3. Rajaraman V., Computer Oriented Numerical Methods, Prentice Hill
of India New Delhi, 1980.
4. Chapra S.C. and Canale R.P., Numerical Methods for Engineers, McGraw Hill International Edition, 1988.
CV1701 ESTIMATING, COSTING AND VALUATION
[3 1 0 4]
Estimation: Introduction, Definition, Types of estimate,
Approximate estimate, Units of measurement: IS 1200, Work
charged establishment, Plinth area, Carpet area. Estimate of
building, doors and windows, RCC work, Different types of roof,
Measurement of earth-work by cross-sections, Spot levels,
Contours, Mass diagram and its characteristics; Specification-
Definition, Types, Principles, Detailed specification for different
components of the buildings; Rate Analysis: Purpose, Factors
effecting, Overhead charges, Turn out of work, Rate analysis for
different items of building; Contract-Functioning and
organization of PWD; Tender and its notification, EMD and
Security deposit; Contracts: Types of contract, Termination of
contract, Work slip qualification of contractor, Responsibilities of
engineer, owner, and contractor; Valuation: Purpose of
valuation, Scrap value, Salvage value, Market value, Factors
which affect the value, Sinking fund, Year's purchase,
Depreciation.
References: 1. Chakraborti M., Estimating, Costing, Specification & Valuation in
Civil Engineering, Published by the Author, Sixteenth edition, 2003.
2. Dutta B.N., Estimating and Costing in Civil Engineering, UBS Publishers' Distributors Ltd. Sixteenth reprint, 2000.
CV1702 CONSTRUCTION PLANNING, ORGANISATION
AND EQUIPMENTS [4 0 0 4]
Introduction to Construction Management: Classification of
construction works, Various stages in the Construction of a
Project, Construction team, Work Breakdown; Structural
Planning for Construction Projects: Steps involved in planning,
Objectives of planning, Stages. Scheduling - Definition, Bar
charts and Milestone charts Introduction, Terms and definition,
Network representation, Rules for drawing a network diagram,
Fulkerson's rule; PERT Analysis: Time estimates, Calculate of
slack, Critical path; CPM analysis : CPM and PERT, Float,
Critical path; Cost Analysis: Direct cost, Indirect cost, Total
project cost, Cost slope. Project updating: Data required for
updating, flowchart; Construction organizing: Principles of
organisation, Type of organisation for construction team;
Management of Construction: Equipment Classification of
construction equipment, Factor affecting selection, Time and
motion studies, Cost of owning and operation and related
problems.
References: 1. Sengupta B. and Guha M., Construction Management and Planning,
McGraw Hill Companies. 1998
2. Punmia B.C. and Khandelwal K.K., Project Planning and Control with PERT and CPM, Laxmi Publications, 2002.
CV1703 ELEMENTS OF EARTHQUAKE RESISTANT
DESIGN OF STRUCTURES [4 0 0 4]
Introduction: Plate tectonics, Elastic rebound theory of
earthquake, Seismic zoning map of India, Seismic waves,
Seismograms, Earthquake magnitude and intensity. Introduction
to theory of vibrations: Free vibration of single degree un-
damped and damped systems, Forced vibration (Harmonic
Loading) of single degree un-damped and damped systems;
Resonance. Introduction to MDOF system, Primary and
secondary effects of earthquake; Case studies of important
earthquakes: Indian earthquakes, Major world earthquakes;
Effect of structural irregularities on the performance of RC
buildings during Earthquakes: Vertical irregularities, Plan
configuration problems; equivalent static method (is 1893);
Ductile detailing of RC frames as per IS 13920 (1993),
Restoration and retrofitting of exciting structures.
References: 1. Agarwal P. and Shrikhande M., Earthquake Resistant Design of
Structures, Prentice-Hall of India Private Limited, New Delhi. 2006.
2. Murty C.V.R, Earthquake Tips- Learning Earthquake Design and
Construction, National Information Centre of Earthquake Engineering, IIT Kanpur 2005.
BIS Publications: 1. IS: 1893 (Part 1) - 2002, Criteria for Earthquake Resistant
Design of Structures, Bureau of Indian Standards, New Delhi
2. IS: 13920 - 1993, Ductile Detailing of Reinforced Concrete Structures Subjected to Seismic Forces- Code of Practice, Bureau
of Indian Standards, New Delhi
CV1704 ENVIRONMENTAL ENGINEERING - II [4 0 0 4]
Sewage disposal: Aims and objectives, Systems of sanitation,
Systems of sewage disposal, Investigation of sanitary projects,
Quantity of sanitary sewage and storm sewage; Design of sewers:
Flow variations, Partial flow diagrams; Laying of sewers:
Jointing and testing of sewers, Sewer appurtenances, Pumping of
sewage: House drainage systems, Systems of plumbing, Typical
layout plan showing house drainage. Characteristics of sewage:
Treatment and Disposal of sewage, Primary and secondary
treatment, Sludge disposal: Digestion of sludge, Sludge
digesters. Disposal of sewage: Septic tanks, Oxidation ponds,
Oxidation ditch, Tertiary treatment of sewage, Solid waste
disposal, Hazardous waste and its disposal, Biomedical waste
Management and E - waste management. Industrial Effluent
Treatment
References: 1. Ministry of Urban development., Manual on Sewage and Sewage
Treatment CPHEO, New Delhi.
2. Metcalf and Eddy, Waste Water Engg., Treatment and Reuse, Tata
McGraw Hill, New Delhi.1974.
CV1705 STRUCTURAL DESIGN -IV [3 1 0 4]
Introduction &Basic principles of pre-stressing: Load
balancing concept, Stress concept, Centre of thrust, Pre-
tensioning and Post tensioning systems, Tensioning methods and
end anchorages. Analysis of sections for flexure: Stresses in
concrete due to pre-stress and loads, Stresses in steel due to loads.
Losses of pre-stress, Short term and long term deflections of un-
cracked members, I.S. code provisions; Limit state of collapse
and serviceability: I.S. Code recommendations- Ultimate
flexural and shear resistance of sections; shear reinforcement
Limit state of serviceability: Control of deflection and cracking,
Transmission length, Bond stress, Anchorage stresses, I.S. code
provisions for the design of end block reinforcements. Design of
pre-tensioned and post-tensioned symmetrical and
unsymmetrical sections: Permissible stresses, Design of pre-
stressing force and eccentricity, Limiting zone of pre-stressing
force and eccentricity, Cable profile - Magnels chart.
References: 1. Raju N.K., Pre-stressed Concrete, Fourth Edition, Tata McGraw Hill,
New Delhi, 2007.
2. Dayaratnam P., Pre-stressed Concrete Structures, Oxford and IBH
Publications, New Delhi, 1996.
3. Pandit G.S. and Gupta S.P., Prestressed Concrete, CBS Publishers &
Distributors Pvt. Ltd., 2009.
BIS Publications: 1. IS: 1343-1980, Code of Practice for Prestressed Concrete, Bureau of
Indian Standards, New Delhi, 1981.
2. SP16:1980, Design Aids for Reinforced Concrete, Bureau of Indian Standards, New Delhi, 1992.
CV1730 COMPUTER LAB - II [0 0 3 1]
Analysis of plane trusses, Space trusses, plane frames, Grids and
space frames using NISA software package, Analysis of plane
trusses, Space trusses, Plane frames, Space frames using STAAD
software package, Design of trusses and frames using STAAD
package, Study of GIS and Remote Sensing software packages,
Demonstration of packages in Engineering Management - MS-
Project, and Estimation.
CV1731 ENVIRONMENTAL ENGINEERING LAB
[0 0 3 1]
Determination of solids - total solids, Suspended solids, Dissolved
solids, Volatile solids, Fixed solids, settlable solids, Turbidity
determination and Jar test, Determination of Alkalinity, Acidity
and pH, Determination of Calcium, Magnesium and total
Hardness, Determination of Chlorides, Determination of
dissolved oxygen, Residual chlorine and chlorine demand,
Determination of percentage available chlorine in Bleaching
powder, Determination of Iron and Fluorides, Determination of
B.O.D., Determination of C.O.D., Total count test and MPN
determination, Determination of Ammonical Nitrogen and
Nitrates, Demonstration of High volume sample and sound lever
meter, Demonstration of determination of oil, grease and
Sulphates.
References: 1. Standard Methods for the Examination of Water and Waste Water -
ALPHA - AWWA – WPCF.
2. Sawyer C. McCarty P. and, Parkin G., Chemistry for Environmental
Engineering, McGraw Hill, New York. 1994. 3. IS - 3025 - 1964 - Methods of Sampling and Test (Physical and
Chemical) for Water Used in Industry, IIT New Delhi.
4. Drinking water Standards IS - 10500-1991.
CV1780 PROJECT SURVEY & SEMINAR [0 0 3 1]
CV1881 INDUSTRIAL TRAINING/ VISITS [0 0 0 1]
• Each student has to undergo industrial training for a
minimum period of 4 weeks. This may be taken in a
phased manner during the vacation starting from the end
of third semester.
• Student has to submit to the department a training/tour
report in the prescribed format. The report should
include the certificates issued by the industry.
• Students who opt for industrial visit should visit a
minimum of ten industries and submit the report.
• Student has to make the presentation on the industrial
training/ visits.
CV1882 PROJECT WORK / PRACTICE SCHOOL
[0 0 0 20]
• The project work may be carried out in the institution/
industry/ research laboratory or any other competent
institutions.
• The duration of the project work shall be a minimum of
16 weeks which may be extended up to 24 weeks.
• A mid-semester evaluation of the project work shall be
done after about 8 weeks.
• An interim project report on the progress of the work
shall be submitted to the department during the mid-
semester evaluation.
• The final evaluation and viva-voice will be conducted
after submission of the final project report in the
prescribed form.
• Student has to make a presentation on the work carried
out, before the departmental committee as part of project
evaluation.
CV1561 ADVANCED STRUCTURAL ANALYSIS [3 0 0 3]
Influence Lines for Bridge Trusses and Statically
Indeterminate Beams: Influence line for axial force in members
of simple bridge trusses; Muller-Breslau principle; Influence
lines for reactions, B.M. and S.F. in statically indeterminate
beams (with single degree of redundancy); Kani's method of
Analysis: Analysis for continuous beams with and without
support sinking; Analysis of symmetrical and nonsymmetrical
frames with hinged and fixed boundary conditions; Matrix
Methods: Stiffness and flexibility coefficients; stiffness and
flexibility matrices along specified co-ordinates, Analysis of
continuous beams by stiffness and flexibility matrix methods,
local and global co-ordinate systems, transformation matrix,
Analysis of trusses and simple frames by stiffness and flexibility
matrix methods. Plastic Analysis: Ductility, Behaviour in the
plastic range, concept of plastic hinge, plastic moments, shape
factor for different shapes of cross - section, redistribution of
moment, collapse mechanism; Upper and lower bound theorems;
Determination of collapse loads using static and kinematic
methods for simple structures.
References: 1. Reddy C.S., Basic structural Analysis, Tata McGraw Hill, New Delhi,
2004.
2. Rao D.S.P., Structural Analysis, Universities Press, India. 1996.
3. Gupta S.P., Pandit G.S. and Gupta R, Theory of Structures, Volume 2, McGraw Hill, New Delhi, 2003.
4. Gupta S.P., Pandit G.S. and Gupta R, Structural Analysis – A Matrix
Approach, Volume 2, McGraw Hill, New Delhi, 2008. 5. Vaidyanathan R., and Perumal R., Comprehensive Structural Analysis
Vol. I&II Laxmi Publications, New Delhi, 2004.
6. Thandavamoorthy, T.S., Structural Analysis, Oxford University Press,
2012.
7. Rao P.D.S., Structural Analysis: A Unified Approach, Orient Longman
Ltd., 1996.
CV1562 OPEN CHANNEL FLOW AND SEDIMENT
TRANSPORT [3 0 0 3]
Review of Fundamentals of Open Channel Flow: Classification
and Properties of open channel flow, Velocity and Pressure
distribution, Energy and Momentum principles; Flow
Measurement in Open Channel Flow: Thin plate weirs (V-
notch and rectangular weirs), Broad crested weirs, Sluice gates
and flow over ogee spillway; Gradually Varied Flow: Basic
Assumptions, Dynamic equation of GVF, Direct Integration and
step method of computation of GVF equation; Introduction to
spatially varied flows with increasing and decreasing discharges;
Sediment Transport: Introduction, bulk properties of sediments
and modes of sediment motion; Shields analysis for incipient
sediment motion; Bed forms, regimes of flow and resistance
relationships; Modes of sediment transport; bed load, suspended
and total load equations, sediment samplers; Design of Stable
Channels: Introduction, Variables and conditions for design,
Empirical approach and tractive force method.
References: 1. Chow V.T., Open Channel Flow, McGraw Hill Company Ltd., New
York.1985.
2. Subramanya K., Flow in Open Channels, Tata McGraw Hill Publishing
Company, New-Delhi 2005. 3. Graf. W.H., Hydraulics of Sediment Transport, McGraw Hill
Publishing Company, New York. 1971.
4. Garde R.J. and Raju K.G.R., Mechanics of Sediment Transportation and Alluvial Stream Problems, Wiley Eastern Ltd., New Delhi 2000.
CV1563 FINITE ELEMENT METHOD OF ANALYSIS
[3 0 0 3]
Introduction: Brief general description of the method, Theory of
elasticity - constitutive relationships - plane stress and plane
strain; Concept of an element: Types of elements, displacement
models - displacement models by generalized coordinates, Shape
functions for different types of elements; Variation method of
formulation : Minimization of potential energy approach,
Formulation of element stiffness and consistent load vector;
Application of Finite element method to pin jointed and rigid
jointed structures; Application to plane stress and plane
strain problems.
References: 1. Desai C.S. and Abel J.E., Introduction to the Finite Element Method,
Ist Indian Edition, CBS publications, 1987.
2. Krishnamoorthy C.S., Finite Element Analysis, 2nd edition, Tata
McGraw Hill Publishing 1987.
3. Bathe K.J., Finite Element Procedures in Engineering Analysis, 2nd
Edition, Prentice Hall Engle Wood, Cliffs, and New Jersey, 1997.
CV1661 HYDROLOGICAL ANALYSIS [3 0 0 3]
Introduction: Hydrological cycle, Scope and application of
hydrology, Hydrological failures, Hydrological budget,
Geomorphology of drainage basins. Analysis of precipitation
data: Rain gauge network, Testing consistency of data,
Estimation of missing precipitation data, Mean areal precipitation,
Intensity-duration-frequency analysis, Depth-area-duration
analysis, Design storms and probable-maximum precipitation.
Abstractions: Infiltration process, Infiltration capacity curves,
Infiltration indices, Estimation of evaporation and transpiration-
empirical methods, Energy balance, Water balance method;
Runoff: Rainfall-runoff correlations- Linear, Non-linear, Simple,
Multiple, Coaxial correlation diagrams, Rational method, S-C-S
method. Hydrographs: Definition and types, Storm hydrograph,
Base flow separation, Unit hydrograph- theory and applications,
S-curve, Synthetic unit hydrograph- Synder's method,
Introduction to Instantaneous unit hydrograph. Floods: Definition, Emperical methods, rational method, Envelope
curves, Flood frequency methods, Flood routing,
References: 1. Linsley, Pauler and Kohlas, Hydrology for Engineers, MGH
Publishers, Tokyo.1975. 2. Chow V.T., Maidment D.R., and Mays L.W., Applied Hydrology,
McGraw Hill 1998. 3. Modi P.N., Irrigation, Water Resource and Water Power, Standard
Book House publications, Delhi 1998.
4. Raghunath H.M., Hydrology, Wiley Eastern Publications, Delhi 1995.
CV1662 AIR POLLUTION AND CONTROL [3 0 0 3]
Air Pollution: Classification and properties of air pollutants,
Behaviour of air pollutants, chemical reactions in atmosphere-
smog. Meteorology variables, Primary and Secondary lapse rate,
Inversions, Stability conditions, General characteristics of stack
plumes, Design Problems: stack height estimation; Effects of
air pollution: Human health, Animals, Plants and Materials;
Global effects of air pollution - acid rain, Greenhouse effect,
Ozone layer depletion; Air quality and Emission standards: Air
pollution index; Industrial plant location and planning. Sampling,
analysis and control - Measurement of gaseous and particulate
pollutants, Stack sampling, Smoke and smoke measurement,
Control methods - different types; Air-pollution due to gasoline
driven and diesel driven engines, Effects and control; Air
pollution Act.
References: 1. Rao H.V.N. and Rao M.N., Air pollution, Tata McGraw Hill, New
Delhi.
2. Air Pollution - Sampling and Analysis – APHA 1989.
3. Rao C.S., Environmental Pollution control, Wiley Eastern Ltd. Delhi, 1995.
CV1663 NATIONAL BUILDING CODE REQUIREMENTS
[3 0 0 3]
Development control rules and General building
requirements: Low income housing in urban areas, Rural areas,
Cluster planning for houses. Fire and Safety: Fire prevention,
Life safety, Fire protection. Loads, Forces and Effects on
buildings: Dead load, Imposed load, Wind load, Seismic load,
Snow load, Special loads, Load combinations. Soil and
foundations: Types of foundations, Settlement, Footing on clay
soil, Pad foundation, Strip foundation - depth and thickness of
foundation, Flexible foundations, Determination of modulus of
elasticity of soil. Earth quake resistant Design: Design of
masonry wall -special considerations in earthquake zone, Guide
lines for improving earth quake resistance. Lighting and
ventilation: Determination of luminous flux, Efficiency, CRI,
CCT, Lighting design of building, Ventilation: Design
consideration, methods, Air requirements, Air conditioning
Water supply, drainage and sanitation: Definitions of
terminologies used, Pipe system- Single stake, One pipe, Two-
pipe system, Plumbing system: Definitions of terminologies,
Water drainage and sanitation requirements
References: 1. National Building Code of India, 2005.
CV1664 GROUND WATER ENGINEERING [3 0 0 3]
Fundamentals of Ground water flow: General hydrodynamic
problems, Darcy's law and range of its validity, Soil anisotropy,
Circulation of ground water in isotropic and anisotropic media;
Aquifers: Types of Aquifers, Aquiclude, Aquitard and Aquifuge;
Geohydrological zones in India; Mechanics of well flow: Aquifer
characteristics, Steady uniform flow, Steady radial flow to a well;
Flow in several wells, Flow between a well and a recharge well;
A well in a uniform flow, Method of images, partial penetration
of wells; Aquifer Parameters: Introduction to unsteady flow in
an aquifer pump tests, Radial flow to a well in an extensive
confined aquifers; Boundary conditions; Wells: Well design
criteria, Selection of site for wells, Types of wells, Well
characteristics; Well efficiency, construction, Production tests
and maintenance; Artificial and natural pack production well,
Screens and casings; Ground water Management: Exploration
for ground water, Available surface and sub-surface methods,
Ground water recharge, Ground water in coastal belts, Salt water
intrusion and encroachment; Quality of Ground water:
Standards for different uses of groundwater, Ground water
pollution and its ill effects; Remedial measures.
References: 1. Todd D.K., Ground Water Engineering, John Wiley, New York 1980.
2. Walton W.C., Ground Water Resources, McGraw-Hill co. New York
1970.
3. Bouwer H., Ground Water Hydrology, McGraw-Hill co. New York
1978.
CV1665 DESIGN OF HYDRAULIC STRUCTURES
[3 0 0 3]
Design of canals: Basic principles of design of stable canals;
Lacey and Kennedy methods, Design of lined channels. Lane’s
tractive force approach of channel design; Design of canal
masonry structures: Falls, Cross and Distributary head
regulators, Cross drainage works; Design of channel transitions.
Design of weirs and barrages on permeable foundations:
Introduction, Causes of failure of weirs, Creep theory, Khosla's
theory; Design of Dams: Purpose and classification, Gravity and
earth dams, Forces on gravity dam, Modes of failure and stability
analysis, Criteria for safe design of earth dams, Seepage and
stability analysis; Purpose and types of spillways; Basic concept
of energy dissipation below spillways.
References: 1. Bharat Singh, Fundamentals of Irrigation Engineering, Nem Chand &
Bros. Roorkee, Ninth Ed. 1997.
2. Justin & Creacer W.P., Engineering for Dams, Vol I, II &III, Wiley
Publications1954. 3. Leliausky S., Irrigation and Hydraulic Design, Vol. III, John Wiley
Publications, Newyork.
4. Sharaar, et.al., Earth and Rockfill Dams. 5. Varshney R.S., Concrete Dams, IBH Publishers, Delhi 1978.
6. Garg S.K., Irrigation and Hydraulic Structures, Khanna Publications,
Delhi 1978.
CV1666 ADVANCED REINFORCED CONCRETE
DESIGN [3 0 0 3]
Design of portal frame: Single storey and single bay;
Introduction to approximate method of analysis of multi-storey
frames; Design of Silos and bunkers; Design of Water tanks:
Overhead tank-Intze type with supporting structure; Design of
beams curved in plan; Design of grid floors.
References: 1. Verghese P.C., Advanced Reinforced Concrete, 2005, Prentice Hall
India, New Delhi 2005. 2. Shah H.J., Reinforced Concrete Structures, Charotar Publishers,
Anand 1998.
3. Pillai U. and Menon D., Reinforced Concrete Design, Tata McGraw Hill Publishing Company Limited, New Delhi 1998.
4. Ghosh K.M., Practical Design of Reinforced Concrete Structures, PHI
Learning Pvt. Ltd, 2010. 5. Syal I.C. and Goel A.K., Reinforced Concrete Structures S. Chand and
Co. 2012.
6. Punmia B.C. and Jain A.K., R.C.C. Designs (Reinforced Concrete Structures), Laxmi Publications, 2006.
BIS Publications: 1. IS: 456-2000, Plain and Reinforced Cement Concrete Code of
Practice, Bureau of Indian Standards, New Delhi, 2000.
2. SP16:1980, Design Aids For Reinforced Concrete, Bureau of Indian Standards, New Delhi, 1992.
CV1761 URBAN TRANSPORTATION SYSTEMS [3 0 0 3]
Introduction: Role of Transportation, History and recent Trends
in transit, Mass transportation characteristics, Demand
Characteristics: Spatial, Temporal and behavioral
characteristics; Public Transport: Definitions, modes of public
transport and comparison, Public transport Travel characteristics,
Trip chaining, Technology of bus, Rail, Rapid transit systems,
Basic operating elements; Transit Network Planning: Planning
Objectives, Principles, Considerations, Transit lines types,
Geometry and characteristics, Transit routes and their
characteristics, Timed transfer networks, Prediction of transit
usage, Evaluation of network, Accessibility considerations;
Transit Scheduling: Components of scheduling process,
Determination of service requirements, Scheduling procedure,
Marginal ridership, Crew scheduling; Transit Agency and
Economics: Organizational structure of transit agency,
Management and personnel, Transit system statistics,
Performance and economic measures, Operations, Fare structure;
Terminals and Depots: Design of bus stops, Design of terminals
- principles of good layout, Types of layout, Truck terminal,
Depot location, Twin depot concept, Crew facilities and
amenities; Special Systems: People mover systems, Underground
transportation, Para transit, High Speed Rail transit system, case
studies.
References: 1. Lal K., Transportation Engineering, PHI, Delhi, 2008.
2. Hay W.W., An Introduction to Transportation Engineering, 2nd
Ed., John Wiley & Sons, 2001.
3. Kadiyali L.R., Traffic Engineering and Transport Planning,
Khanna Publishers New Delhi - 110006, 2006.
4. Hutchinson, Urban Transport Planning, John Wiley, 2006.
CV1762 GROUND IMPROVEMENT TECHNIQUES
[3 0 0 3]
Introduction: Introduction to ground improvement, Necessity of
ground improvement, Classification of ground modification
techniques; Mechanical modification; Methods of compaction:
Shallow and deep compaction; Properties of compacted soil:
Compaction control tests, Vibro compaction and Vibro
replacement-stone columns; Hydraulic modification: Objectives
and techniques, Traditional dewatering methods, Well points,
Preloading- Methods, Vertical drains-Sand drains and
prefabricated drains; Physical and chemical modification:
Modification by admixtures- granular admixtures, Cement, Lime,
Fly ash, Industrial wastes etc., Modification at depth by grouting-
techniques, Grouting plant, Applications of grouting,
Stabilization of soil with lime columns and cement columns;
Modification by inclusions: Evolution of soil reinforcement,
Principles and advantages of reinforced earth, Behavior of
reinforced earth, Design methods, Material specifications; Rock
bolting and Soil nailing: Applications, Construction procedure,
Design and specification; Geosynthetics: Types, Civil
engineering applications of geo-synthetics.
References: 1. Fang H.Y., Foundation Engineering Hand book, 2nd edition, CBS
publishers and Distributors, New Delhi, 1997.
2. Singh A. and Chowdhary G.R., Soil Engineering in Theory and Practice Part-3, CBS Publishers and Distributors, 1990.
CV1763 COASTAL ENGINEERING [3 0 0 3]
Introduction : Origin of coasts, Wind, Waves, Ocean currents,
Tides, Wave theories (basics), Wave forces.; Coastal Process:
Wave shoaling, Wave refraction, Wave diffraction, Wave
reflection, Wave breaking, Types of breakers, Wave run-up,
Beach profile, Beach process.; Coastal erosion: Erosion process,
Causes for erosion, Littoral drift.; Coastal protection work:
Seawalls and bulkheads, Design of seawall, Groins, Jetties, Off-
shore breakwaters, Artificial beach nourishment, New
technologies of shore protection.; Environmental impact
assessment: Concept of coastal zone management, Coastal eco-
systems, Coastal pollution and its implications.; Port Planning:
Classification of Harbours, General planning, Requirements,
navigation channel, Berth occupancy, Graving and floating dry
docks, Slipways.; Berthing structures, Types, Loads on berthing
structures, Preliminary analysis.; Breakwaters: Types, Rubble
mound breakwaters preliminary analysis and design.
References: 1. Narasimhan S.S., Kathiroli S., Nagendra B.K., Harbour and Coastal
Engineering, Volume I & II, National Institute of Ocean Technology,
NIOT, Chennai, Ocean and Coastal Engineering Publications, 2002.
2. Hand Book of Coastal and Ocean Engineering, by Herbich, Gulf Publishing Co., 1990.
3. Coastal Engineering Manual (CEM), U.S.Army Corps of Engineer, Vicksburg, 2006.
CV1764 DESIGN OF FOUNDATIONS AND
RETAINING STRUCTURES [3 0 0 3]
Bearing capacity : Brinch Hansen's , Meyerhoff's and
Skempton's bearing capacity equations, Plate load test and
penetration tests, Design principles of Shallow foundations:
Isolated, combined and raft foundations; Piles subjected to
lateral loads: Broms theory, Principle and design of sheet piles
and anchors bulk head; Retaining walls: Design of cantilever,
Counterfort and soil reinforced retaining walls; Well
Foundation: Bearing capacity, Lateral stability - Terzaghi's
method and IRC method; Foundations in expansive soils:
Problems of foundations on expansive soils, Remedial measures;
Cofferdams: Types, Design and analysis for stability; Machine
Foundations: Degree of freedom , General criteria - Mass -spring
- dash pot model, Block foundation subjected to vertical,
horizontal and rocking vibrations, Elastic half space approach -
vibration isolation.
References: 1. Bowles J.E., Foundation Analysis and Design, McGraw Hill, New
York 1997.
2. Winterkorn H.F. and Fange H.Y., Foundation Engineering Hand Book, VanNostand Reinhold Company, New York.1991.
3. Teng W.C., Foundation Design, Prentice Hall of India, New Delhi
1981.
4. Saran S., Design of Substructures, Oxford and IBH Publishers.
CV1765 BRIDGE ENGINEERING [3 0 0 3]
Introduction: Definitions, Components of a bridge,
Classification, Importance and standard specifications;
Investigation for bridge: Site selection, Data drawing, Design
discharge linear Water way, Economical span, Location of piers
and abutments, Vertical clearance above HFL, Scour depth;
Traffic Projection, Investigation Report, Choice Of Bridge Type.;
Standard Specifications for Road Bridge: IRC bridge code,
Determination of dead loads and live loads, Wind loads,
Longitudinal forces, Centrifugal forces, Horizontal forces due to
water current buoyancy effect, Earth pressure, Temperature
effect, Deformation stresses, Secondary stresses, Erection
stresses, Seismic forces; Culverts: RCC slab culvert, Pipe
culverts and box culvert; Concrete Bridges: T-beam Reinforced
Concrete Bridges and Pre Stressed Concrete Bridges, Continuous
bridges, Cantilever bridges; Substructures: Different types of
bridge bearings, Piers and masonry abutments, Different types of
foundations and their choices, Wing walls.
References: 1. Ponnusamy S., Bridge Engineering, Tata McGraw Hill Publishing Co.,
New Delhi, 2008. 2. Whitney C.S., Bridges, Greenwich House, 1983.
3. Raju N.K., Design of Bridges, Oxford & IBH Publishing Co. pvt. Ltd.
4. Victor D.J., Essentials of Bridge Engineering, Oxford & IBH Publishing Co. Pvt. Ltd.
5. Indian Road Congress Codes No.5, 6,18,21,24, Jamnagar House, Shah Jahan Road, New Delhi.
CV1766 ENVIRONMENTAL IMPACT AND
ASSESSMENT [3 0 0 3]
Definition and importance: Planning and Management of
impact studies; Impact identification: Matrices, Networks, and
Checklists. Description of affected environment, Indices and
indicators for describing affected environment; Prediction and
Assessment of Impacts: Air, Surface water, Soil and
groundwater, Noise, Biological, Cultural and socio-economic
environment, Decision methods for evaluation of alternatives,
Public participation in environmental decision making;
Documentation and environmental monitoring: Case studies,
Environmental audit, Meaning, Importance.
References: 1. Canter W.L., Environmental Impact Assessment, McGraw Hill
International editions, New York 1996.
2. CIRIA special publication 96, Construction Industry Research and Information Association.
CV1491 INTRODUCTION TO FINITE ELEMENT
METHOD OF ANALYSIS [3 0 0 3]
Introduction: Brief general description of the method; Theory
of Elasticity - Constitutive relationships - plane stress and plane
strain; Concept of an Element: Types of elements, displacement
models - displacement models by generalized coordinates, Shape
functions for different types of elements; Variation method of
formulation : Minimization of potential energy approach,
formulation of element stiffness and consistent load vector;
Application of finite element techniques.
References: 1. Desai C.S. and Abel J.E., Introduction to the Finite Element Method,
1st Indian Edition, CBS publications, 1987.
2. Krishnamoorthy C.S., Finite Element Analysis, 2nd edition, Tata
McGraw Hill Publishing 1987.
3. Bathe K.J., Finite Element Procedures in Engineering Analysis, 2nd Edition, Prentice Hall Engle Wood, Cliffs, and New Jersey, 1997.
CV1492 INTRODUCTION TO REMOTE SENSING AND
GIS [3 0 0 3]
Introduction: - Basic concepts of remote sensing; Energy sources
and radiation principles; Spectral reflectance curves; Polar
orbiting satellites, Spectral, radiometric and spatial resolutions;
Multispectral, thermal and hyper spectral sensing; Digital Image
Processing - Image restoration, Image enhancement and
Information extraction, Image processing software, Flow
direction, Flow pathways, Flow accumulation, Streams,
Catchment area delineation, Remote sensing applications for
watershed management, Rain fall runoff modeling, Irrigation
management, Flood mapping, Drought assessment, Environment
and ecology; Introduction to Geographical Information
Systems(GIS); Databases and database management systems;
Digital elevation models and their applications, Strategies for
development, implementation and management of GIS; Case
studies on use of GIS from various fields of civil engineering such
as water and land resources, environment, transportation,
geotechnical, structures, etc.; Projects Involving Creations of
small GIS modules related to water resources problems and other
generic areas.
References: 1. Cambell J.B., “Introduction to Remote Sensing”, Taylor & Francis,
UK, 2002. 2. Sabins Jr F.F., “Remote Sensing - Principles and Interpretation”, W.H.
Freeman & Co., New York, 1986.
3. Burrough P. A., and McDonnell, R. A., “Principles of Geographical Information Systems”, 2nd Edition, Oxford University Press, 1998.
4. Demers M. N., “Fundamentals of Geographic Information Systems”,
John Wiley & Sons, 3rd Edition, 2002.
5. Kang-tsung Chang, "Introduction to Geographic Information
Systems", McGraw-Hill Book Company, 2006.
CV1493 ELEMENTS OF CONCRETE TECHNOLOGY
[3 0 0 3]
Microstructure and Properties of Hardened Concrete: Introduction; Strength of Concrete; Dimensional stability;
Durability; Permeability; Concrete Materials, Mix
Proportioning, and Early-Age Properties: Hydraulic Cements,
Aggregates, Admixtures, Proportioning Concrete Mixtures.
References: 1. Nivelle A.M., “Properties of Concrete”, Pearson Education. (1995)
2. Shetty M.S., “Concrete Technology: Theory and Practices”, S. Chand
Publications. (1982) 3. Santa Kumar A.D., “Concrete Technology”, Oxford University Press.
(2007)
CV1691 ENVIRONMENTAL MANAGEMENT [3 0 0 3]
Environmental Economics: Introduction, Economic Tools for
Evaluation, Cleaner Development Mechanisms (CDM) and their
Applications.; Environmental Laws and Policies: Water Act,
Air Act, Environment Protection Acts, Solid Waste Management
Rules, Hazardous and Biomedical Waste Rules.; Environmental
Audit: Methods, Procedure, Reporting and Case Studies.;
Environmental Management System and Techniques:
Environmental Safety and ISO 14000 ISO Series of Standards,
ISO 14001 Standards, Environmental Management Systems.;
(EMS) Total Quality Management (TQM) and Total Safety
Management (TSM).; ISO 9000, And 18000 Series of Standards.
References: 1. Lohani B.N., “Environmental Quality Management”, South Asian
Publishers, New Delhi, 1984.
2. Chanlett, “Environmental Protection”, McGraw Hill Publication,
Newyork, 1973. 3. Danoy G.E., and Warner R.F., “Planning and Design of Engineering
Systems”, Unwin Hyman Publications, 1969.
4. MOEF, Government of India, “Carrying Capacity Based
Developmental Planning Studies for the National Capital Region”,
1995-96.
5. NEERI, Nagpur, Annual Reports, 1995 & 1996. 6. UNEP / UNDP – Environmental Sustainable Development.
7. Environmental Laws - MOEF, Government of India, Ramachandra
T.V. & Kulakarni, Environmental management.
CV1692 CONTRACT MANAGEMENT [3 0 0 3]
Project Cost Estimation, rate analysis, overhead charges,
bidding models and bidding strategies, Owner's and contractor's
estimate; Pre-qualification of bidders and enlistment of
contractors; Tendering and contractual procedures: Indian
Contract Act1872, Definition of Contract and its applicability,
Types of contracts, International contracts, FIDIC, Conditions
and specifications of contract; Contract administration, Duties
and responsibilities of parties; Claims, compensation and
disputes,; Dispute resolution techniques, Arbitration and
Conciliation Act 1996, Arbitration case studies, Negotiation.
References: 1. Kharb, K.S., “A Guide to Quantity Surveyors, Engineers Architects and
Builders (Vol I: Taking off quantities, Abstracting & Billing; Vol II:
Analysis of Prices)" Sushila Publications.
2. Keith Collier, "Construction Contracts" Reston Publishing Company,
Inc., Reston, Virginia.
3. Patil, B.S., "Building and Engineering Contracts" Mrs. S.B. Patil,
Pune.
4. Gajerai, G.T., "Law relating to Building and Engineering Contracts in
India" Butterworths.
5. Govt. of India, Central Public Works Department, "CPWD Works
Manual 2003".
CV1693 ADVANCED FLUID MECHANICS [3 0 0 3]
Basic Concepts and Fundamentals: Definition and properties of
Fluids, Fluid as continuum, Langrangian and Eulerian
description, Fluid statics, Fluid Kinematics; Governing
Equations of Fluid Motion: Reynolds transport theorem,
Integral And Differential Forms Of Governing Equations:
Mass, Momentum and Energy conservation equations, Navier-
Stokes equations, Euler’s equation, Bernoulli’s Equation;
Laminar Boundary Layers: Boundary layer equations,
Boundary layer thickness, Boundary layer on a flat plate, Integral
form of boundary layer equations, Approximate Methods, Flow
separation; Turbulent Flows: Introduction, Fluctuations and
time-averaging, General equations of turbulent flow, Turbulent
boundary layer equation, Flat plate turbulent boundary layer,
Turbulent pipe flow, Prandtl mixing hypothesis, Turbulence
modeling, Free turbulent flows., Compressible Flows: Speed of
sound and Mach number, Basic equations for one dimensional
flows, Prandtl-Meyer expansion waves.
References: 1. Batchelor G.K, “An Introduction to Fluid Dynamics”, Cambridge
University Press, 1983.
2. Fox Robert W., McDonald T. Alan, “Introduction to Fluid
Mechanics”, Fourth Edition, John Wiley & Sons, 1995.
3. Frank White M., “Fluid Mechanics”, Tata McGraw-Hill, Singapore,
Sixth Edition, 2008.
4. Muralidhar K. and Biswas G., “Advanced Engineering Fluid
Mechanics”, Second Edition, Narosa, 2005.