COURSE STRUCTURE AND SYLLABUSFunction and Velocity Potential, Flow Net, Continuity equation, Rotation, Vorticity and Circulation, Free and Forced vortex motion. Fluid Dynamics: Concept
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COURSE STRUCTURE AND SYLLABUS
of
B. TECH COURSE
in
CIVIL ENGINEERING
(Proposed for 2013-14 Session onwards)
Department of Civil Engineering
INDIAN SCHOOL OF MINES
Dhanbad - 826 004 (Jharkhand)
2
CORE COURSE STRUCTURE
FIRST SEMESTER
PHYSICS (GROUP -I)
Sl. No.
Course
Code
Course offering
Dept. Name of the Course L T P Credit
THEORY
1 AMC 11101 AM Mathematics-I 3 1 0 7
2 APC 11101 AP Physics 3 0 0 6
3 MMC 11101 ME & MME
Engineering Graphics
1 4 0 6
4 EEC 1101 EE Electrical Technology
3 1 0 7
5 MMC11103 ME & MME
Engineering Mechanics
3 1 0 7
6 GLD/CMD 11301
AGL & ESE
Earth System Science (S) [AGL 2-0-0 & ESE 1-0-0]
3 0 0 6
7 HSC 11305
HSS
Value Education, Human Rights and Legislative Procedure(S)
3 0 0 6
PRACTICAL
8 APC 11201 AP Physics Practical
0 0 3/2 1.5
9 EEC 11201 EE Electrical Technology Practical
0 0 3/2 1.5
Total 19 7 3 48
3
CHEMISTRY (GROUP -II)
Sl. No.
Course
Code
Course offering
Dept. Name of the Course L T P Credit
THEORY
1 AMC 11101 AM Mathematics-I 3 1 0 7
2 ACC 11101 AC Chemistry 3 0 0 6
3 MMC 11101 ME & MME
Manufacturing Process 1 4 0 6
4 ECE 11101 ECE Electronics Engineering 3 0 0 6
5 CSE 11301 CSE Computer Programming (S) 3 0 0 6
6 DMS/AP 11301
DMS & AP
Disaster Management [DMS 2-0-0] & Energy Resources [AP 1-0-0] (S)
3 0 0 6
7 HSC 11103
HSS English for Science &
Technology 3 0 0 6
PRACTICAL
8 ACC
11201 AC Chemistry Practical 0 0 3/2 1.5
9 ECE11201 ECE Electronics Engineering
Practical 0 0 3/2 1.5
10 CSE11301 CSE Computer Programming Practical (S)
0 0 2 2
Total 19 5 5 48
4
SECOND SEMESTER
CHEMISTRY (GROUP - I)
Sl. No.
Course
Code
Course offering
Dept. Name of the Course L T P Credit
THEORY
1 AMC 12101 AM Mathematics-II 3 1 0 7
2 APC 12101 AP Physics 3 0 0 6
3 MMC 12101 ME & MME
Engineering Graphics
1 4 0 6
4 EEC 12101
EE Electrical Technology
3 1 0 7
5 MMC 12103
ME & MME
Engineering Mechanics
3 1 0 7
6 GLD/CMD 12301
AGL & ESE
Earth System Science (S) [AGL 2-0-0 & ESE 1-0-0]
3 0 0 6
7 HSC 12305 HSS
Value Education, Human Rights
and Legislative Procedure(S)
3 0 0 6
8 SWC 12701 DSW Co-Curricular Activities (Only for 2nd sem only)
0 0 0 (3)
PRACTICAL
9 APC 12201 AP Physics Practical 0 0 3/2 1.5
10 EEC12201 EE
Electrical Technology Practical
0 0 3/2 1.5
Total 19 5 5 48+(3)
5
PHYSICS (GROUP - II)
Sl. No.
Course
Code
Course offering
Dept. Name of the Course L T P Credit
THEORY
1 AMC 12101 AM Mathematics-II 3 1 0 7
2 ACC 12101 AC Chemistry 3 0 0 6
3 MMC 12101 ME & MME
Manufacturing Process 1 4 0 6
4 ECE 12101
ECE Electronics Engineering 3 0 0 6
5 CSE 12301 CSE Computer Programming (S) 3 0 0 6
6 DMS/AP 12301
DMS & AP
Disaster Management [DMS 2-0-0] & Energy Resources [AP 1-0-0] (S)
3 0 0 6
7 HSC 12103
HSS English for Science & Technology
3 0 0 6
8 SWC DSW Co-Curricular Activities (Only for 2nd sem only)
0 0 0 (3)
PRACTICAL
9 ACC
12201 AC Chemistry Practical 0 0 3/2 1.5
10 ECE
12101 EE/ECE
Electronics Engineering
Practical 0 0 3/2 1.5
11 CSE12301 CSE Computer Programming Practical (S)
0 0 2 2
Total 19 5 5 48+(3)
6
COURSE STRUCTURE
THIRD SEMESTER
Sl.
No
Course
Code
Name of the Course L T P Credit
Theory
1. CEC 13101 Solid Mechanics 3-1-0 7
2. CEC 13102 Fluid Mechanics 3-1-0 7
3. MER 13151 Surveying 3-1-0 7
4. CEC 13104 Building Material, Construction and Estimation 3-1-0 7
5. AMR 13101 Methods of Applied Mathematics - I 3-1-0 7
Practical/Project
1 CEC 13201 Solid Mechanics Practical 0-0-2 2
2 CEC 13202 Fluid Mechanics Practical 0-0-2 2
3 MER 13251 Surveying Practical 0-0-2 2
4 CEC 13204 Material Testing Practical 0-0-2 2
5 CEC 13301 Project Work 0-0-2 2
Total 15-5-10 45
FOURTH SEMESTER
Practical/Project/Field visit/Viva-voce
5 CEC 14301 Project Work 0-0-2 2
6 CEC 14402 Field Visit* 0-0-0 (2)
7 CEC 14501 Composite Viva -Voce 0-0-0 (4)
Total 15-5-10 45+(6)
* Field Visit during summer vacation after IVth Semester with credit in Vth Semester.
Sl.
No
Course
Code
Name of the Course L T P Credit
Theory
1. CEC 14101 Open Channel and River Hydraulics 3-1-0 7
2. CEC 14102 Structural Analysis-I 3-1-0 7
3. ESC 14151 Environmental Engineering - I 3-1-0 7
4. GLR 14157 Physical and Structural Geology 3-1-0 7
5. AMR 14101 Numerical and Statistical Methods 3-1-0 7
1 CEC 14201 Open Channel and River Hydraulics Practical 0-0-2 2
2 CEC 14202 Structural Analysis-I Practical 0-0-2 2
3 ESC 14251 Environmental Engineering-I Practical 0-0-2 2
4 GLC 14251 Geology for Civil Engineering Practical 0-0-2 2
7
FIFTH SEMESTER
S.
No
Course
Code
Name of the Course L T P Credit
Theory
1 CEC 15101 Design of Concrete Structures-I 3-1-0 7
2 CEC 15102 Transportation Engineering-I 3-1-0 7
3 CEC 15103 Geotechnical Engineering-I 3-1-0 7
4 CEC 15104 Hydrology and Flood Forecasting 3-1-0 7
5 CEC 15105 Structural Analysis -II 3-1-0 7
Practical/Project/Presentation
1 CEC 15201 Design of Concrete Structures-I Practical 0-0-2 2
2 CEC 15202 Transportation Engineering –I Practical 0-0-2 2
3 CEC 15203 Geotechnical Engineering-I Practical 0-0-2 2
4 CEC 15301 Project Work 0-0-4 4
5 CEC 15401 Presentation and Submission of Report on Field
Visit
0-0-0 (5)
Total 15-5-10 45 +(5)
SIXTH SEMESTER
S.
No
Course
Code
Name of the Course L T P Credit
Theory
1 CEC 16101 Design of Steel Structures -I 3-1-0 7
2 CEC 16102 Geotechnical Engineering-II 3-1-0 7
3 CEC 16103 Design of Concrete Structures - II 3-1-0 7
4 CEC 16104 Irrigation Engineering and Hydraulic Structures 3-1-0 7
5. ESC 16151 Environmental Engineering -II 3-1-0 7
Practical/Project/Training/Viva-voce/Seminar
1 CEC 16201 Design of Steel Structures-I Practical 0-0-2 2
2 ESC 16251 Environmental Engineering -II Practical 0-0-2 2
3. CEC 16301 Project Work 0-0-4 4
4 CEC 16401 Industrial Training* 0-0-0 (2)
5. CEC 16501 Composite Viva -voce 0-0-0 (4)
6 CEC 16601 Seminar- Paper and Presentation 0-0-0 (2)
Total 15-5-8 43+(8)
* Industrial Training during summer vacation after VIth Semester with credit in VIIth Semester.
8
SEVENTH SEMESTER
S.
No
Course
Code
Name of the Course L T P Credit
Theory
1. CEC 17101 Design of Steel Structures-II 3-1-0 7
2. CEC 17102 Foundation Engineering 3-1-0 7
3. CEC 17103 Transportation Engineering-II 3-1-0 7
4. CEC 17104 Computer Aided Design for Civil Engineering 2-2-0 6
5. Elective (any one) 3-0-0 6
CEE 17101 Pre-stressed Concrete Design
CEE 17102 Bridge Superstructures
CEE 17103 Hydropower Engineering
CEE 17104 Machine Foundations
ESC 17151 Air and Noise Pollution
ESC 17152 Environmental Impact Assessment
Practical/Project/Presentation/Seminar
1 CEC 17201 Design of Steel Structures-II Practical 0-0-2 2
2 CEC 17301 Project work 0-0-6 6
3 CEC 17401 Presentation and Submission of Report on
Industrial Training
0-0-0 (5)
4 CEC 17601 Seminar: Paper and Presentation 0-0-0 (2)
Total 14-5-8 41+(7)
EIGHTH SEMESTER
S.
No
Course
Code
Name of the Course L T P Credit
Theory
1. CEC 18101 Remote Sensing and GIS 3-1-0 7
2. CEC 18102 Construction Planning and Management 3-1-0 7
3. CEC 18103 Finite Element Method 3-1-0 7
4. MSR 16152 Industrial Management 3-0-0 6
5. Elective (any one) 3-0-0 6
CEE 18101 Ground Water Hydrology and Modeling
CEE 18202 Earthquake Resistant Design of Buildings
CEE 18103 Solid Waste Management
CEE 18104 Transport Planning and Management
MEE 18151 Rock Mechanics
GLE 18151 Engineering Geology
Practical/Project/Viva-voce/Seminar
1. CEC 18201 Remote Sensing and GIS Practical 0-0-2 2
2. CEC 18301 Project Work 0-0-6 6
3. CEC 18501 Composite Viva –voce 0-0-0 (4)
4. CEC 18601 Seminar: Paper and Presentation 0-0-0 (3)
Total 15-3-8 41+(7)
9
COURSE SYLLABUS
THIRD SEMESTER
1. CEC 13101 Solid Mechanics 3-1-0 7
Basic concepts of mechanics of materials: stress strain behavior of engineering materials,
Concept of stress and strain field, stress tensor, stress-strain transformation, stress invariants,
Hook’s law and compatibility conditions, differential equation of equillibrium. Failure
theories.
Mohr’s circle representation for plane stress and plane strain, thermal stresses and strains,
volumetric stress and strain, stress-strain relationships.
Stresses in pressure vessels: thin & thick cylinders, compound cylinders.
Beam Analysis: stresses in beams, deflection in beams, statically determinate beam analysis,
Strain energy concept for structural members
Torsion of circular members and thin walled tubes
Combined stresses and strains in structural members
Springs: Types of springs, close coiled and open coiled springs.
Stability of column: Buckling of columns.
2. CEC 13102 Fluid Mechanics 3-1-0 7
Introduction: Scope and importance of Fluid Mechanics, Physical Properties of fluids
(density, specific weight, specific volume, sp. gravity, viscosity-Newton’s law of viscosity,
Newtonion and non-Newtonion fluids, Compressibility, Surface tension and Capillarity,
vapour pressure), Rheological classification of fluids, Ideal fluid, Real Fluid.
Fluid Statics: Pressure, Pascal’s Law, Hydrostatic Law, pressure measurement devices:
Piezometer, manometers, Mechanical gauges, Forces on plane and curved surfaces, Centre of
pressure and pressure diagram, Buoyancy, Metacentre, Stability of Submerged and floating
bodies, Fluid masses subjected to accelerations.
Fluid Kinematics: Concept of control volume, Velocity and acceleration of fluid Particle,
Lagrangian and Eulerian approach, Classification of fluid flow ( steady- unsteady, Uniform-
Nonuniform, Rotational – Irrotational, turbulent – laminar, l-D,2-D, 3-D flow, Compressible -
incompressible flow), Streamlines, Path lines and Streak lines, Equipotential lines, Stream
Function and Velocity Potential, Flow Net, Continuity equation, Rotation, Vorticity and
Circulation, Free and Forced vortex motion.
Fluid Dynamics: Concept of control volume and control surface, Forces acting on fluid in
motion, Euler’s equation, Bernoulli's Theorem and applications – Pitot Tube, Venturimeter,
Orificemeter, Orifices and Mouthpieces, Concept of HGL and TEL.
Momentum Principles: Action of jets on stationary and moving flat plates and curved vanes,
Angular momentum principle.
Dimensional Analysis: Units and Dimensions, Dimensional analysis, Rayleigh’s method,
Buckingham’s Π theorem, Non-dimensional numbers and their significance.
Hydraulic Similitude and Model Studies: Model and prototype, Similitude, Geometric,
Kinematic and Dynamic similarity, Model Laws, Un-distorted model studies.
Flow in pipes: Laminar flow: Reynold's Experiment, Coutte & Hazen Poisulle's Equation for
viscous flow between parallel plates and circular pipes, Stokes law, Flow through porous
media, Darcy’s Law, Fluidization, Measurement of viscosity, Transition from laminar to
turbulent flow.
Turbulant flow: Velocity distribution and Shear stresses in turbulent flow, Prandtl mixing
length theory, Nikuradse's Experiment, Introduction to Moody's Chart.
10
Losses in pipes: Darcy - Wiesbach Equation, Factors affecting friction, Minor Losses in pipes,
Concept of equivalent length of pipe for different pipe fittings, Equivalent diameter of pipes,
Hydraulic power transmission by pipe, Pipes in parallel, Series, Syphon, two reservoir
problems, Water hammer in pipes, Surge tanks - function, location and uses.
3. CEC 13103 Surveying 3-1-0 7
Introduction: Types of Surveys, Surveying equipment, levels, compass, theodolites,
tachometer, EDM, Total Stations, GPS and other Minor Surveying Instruments.
Accuracy and Errors: Sources of errors, types of errors, permissible error in surveying.
Theodolite Surveying: Temporary Adjustments, measurements of horizontal and vertical
anagles, errors and corrections in theodolite surveying.
Levelling: Principle of Levelling, Simple and Differential Levelling, Rise and Fall Method,
Height of instrument method, Curvature and refraction, errors and corrections in leveling,
Contouring.
Plane table Surveying and mapping: Surveying and mapping, intersection, traversing and
resection, Two and Three Point Problems, errors and corrections in plane table surveying,
Type of maps, scales and uses, plotting accuracy, map sheet numbering, coordinate and map
projection.
Tacheometric Surveying: Stadia method, subtense method, tangential method, special
instruments, errors and corrections in tacheometric surveying.
Curve Surveying: Simple and compound curves, designation, elements, setting out curves,
two theodolite method, tacheometric method, reverse curves, transition curves, vertical curves.
Triangulation: Geodetic surveying, classification, reconnaissance survey, signals and towers,
baseline measurement, measurement of horizontal angles, satellite stations.
Astronomy: Terminology, coordinate system, latitude and longitude, astronomical triangle,
relations ship between co-ordinates, measurement of time, determination of azimuth,
determination of latitude and longitude.
4. CEC 13104 Building Material, Construction and Estimation 3-1-0 7
Cement – Chemical composition, properties such as setting, strength, fineness, hydration.
Aggregates – Sources, properties, chemical reactivity.
Concrete - Constituents, proportioning, properties in fresh and hardened state, characteristic
strength, quality control (sampling, acceptance, etc.), transportation and placing, Compressive
strength, tensile strength, stress-strain behavior, modulus of elasticity, shrinkage, creep,
characteristic strength, grades of concrete, design stress-strain curve of concrete,
Steel – Properties, types of steel, steel in civil engineering, reinforcing steel, types and grades,
stress-strain behavior, design stress-strain curve.
Bricks – Manufacture, properties and classification.
Bitumen – Source, composition, characterization, various forms, tests on bitumen, Bituminous
mix design.
Other Materials- Introduction to glass, plastics with/without reinforcement, aluminium alloys,
Fibre reinforced plastics (FRPs), fibre reinforced concrete and ferrocement, energy efficient
materials for green buildings. epoxy-coated bars, etc. with performance requirements
Construction Technology:
Brick masonry, bonds, stone masonry, types of walls, plastering and pointing.
Types of roofs, floors and foundations, damp proofing.
Doors and windows, stairs, staircases, lifts and escalators.
White washing, colour washing, painting, and distempering, Shuttering, scaffolding and
centering.
11
Expansion and construction joints, sound and fire proof construction, principles of building
drawing, preparation of working drawings.
Quantity Estimation and costing:
Purpose of estimate, different types of estimates, analysis of rates, schedule of rates, Methods
of estimation, estimate of building: estimation of materials, labour and cost.
5. AMR 13101 Methods of Applied Mathematics - I 3-1-0 7
Part: I
Complex Variables:
Limit continuity and differentiability of function of complex variables. Analytic functions.
Cauchy-Reimann’s and Cauchy’s integral theorem, Morera’s theorem, Cauchy’s Integral
formula, Taylor’s and Laurent’s series, singularities, Residues theorem, contour integration.
Special Functions:
Solution of Bessel equation, recurrence relations and generating function for Jn (x) orthogonal
property and integral representation of Jn(x). Solution for Legendre equation, Legendre
polynomial, Rodrigue’s formula, orthogonal property and generating function for Pn(x).
Part: II: Laplace Transform and PDE
Laplace transforms of simple functions, first and second shifting theorems, t-multiplication and
t–division theorems; Laplace transforms of derivatives, integrals and periodic functions.
Inverse of Laplace transform and convolution property. Use of Laplace transform in evaluating
implicated and improper integrals and solution of differential equations related to engineering
problems.
Partial Differential Equations:
Classification of partial differential equations, solutions of one dimensional wave equation,
one dimensional unsteady heat flow equation and two dimensional steady heat flow equation
in Cartesian and Polar coordinates by variable separable method with reference to Fourier
trigonometric series.
Practicals
1 CEC 13201 Solid Mechanics Practical 0-0-2 2
Stress-strain characteristics of HYSD/mild steel and concrete, Young's modulus of given
material by flexure test on simply supported beam. Torsion test on solid circular shaft.
Hardness of the given material by Brinnel’s or Vickers hardness tester. Charpy impact test
using Impact Testing Machine. Shear strength of steel rod in single and double shear. Modulus
of rigidity of the spring. Behaviour of under reinforced and over reinforced RC beam in
flexure. Behaviour of RC beams, with or without shear reinforcement. Bond strength of steel
in concrete.
2 CEC 13202 Fluid Mechanics Practical 0-0-2 2
Determination of metacentric height, Verification of Bernoulli's theorem, Determination of
Velocity through Pitot Tube, Determination of Coefficient of discharge of Venturimeter &
Orifice meter,: Determination of Coefficient of discharge of an Orifice and Mouthpiece by
steady and unsteady flow methods, Characterization of laminar, transition and turbulent flows
by Reynold's apparatus, Measurement of force due to impact of jets on vanes, Determination of
coefficient of friction in pipe flow, Determination of loss of head in pipes due to various
fittings i.e. Bends, elbows, valves, sudden contractions, sudden expansion etc.
12
3 CEC 13203 Surveying Practical 0-0-2 2
Chaining of a line using Chain/Tape/Tachometer and Recording of details along the chain line,
Measurement of area – Cross staff survey, Traversing by compass and graphical adjustment,
Determination of distance between two inaccessible points., Fly Leveling, Reciprocal leveling,
Profile Leveling, Contouring, Plane Table Survey: Traversing, Resection by Trial and Error
method, Measurement of horizontal and vertical angles, distance using Theodolite,
measurement of horizontal and vertical distances, directions, elevations, computation of area,
using Total Station, Setting of simple curve using tape or/and theodolite, Total Station, Setting
out for Building.
4 CEC 13204 Material Testing Practical 0-0-2 2
Consistency, fineness, initial setting time, final setting time, specific gravity, soundness and
compressive strength of cement, workability using Slump Cone Test, compaction factor or
Vee-Bee consistometer test, compressive strength and split tensile strength of concrete,
Specific gravity of fine and coarse aggregates, bulking of fine aggregate, fineness modulus of
fine aggregate and coarse aggregate, Determination of compressive strength and water
absorption of bricks, Non-destructive testing of concrete, structures and various concrete mix
design.
13
FOURTH SEMESTER
1. CEC 14101 Open Channel and River Hydraulics 3-1-0 7
Basic fluid flow concepts, Principles of open channel and pipe flows, Laminar and turbulent
flows, Boundary layer, Channel characteristics and parameters, Lined and unlined channels,
Channel Geometry and geometrical elements, Classification of open channel flow, Basic
equations governing channel flows, Velocity and pressure distribution, Specific energy and force
concepts, Energy and momentum Equations, Energy and momentum coefficients.
Uniform and critical flow computations: Energy depth relationships, Flow resistance in
channel flows, Normal and critical depths, Concept of first and second hydraulic exponents,
Determination of critical and normal depths, Design of channels, Most efficient cross-section,
Channel transitions.
Gradually Varied Flow: Governing equations, Characteristics and classification of water
surface profiles, Computations of GVF profiles in prismatic and non-prismatic channels.
Rapidly varied flow: Analysis and characteristics of hydraulic jump in rectangular channels,
Energy loss, Types of jump, Energy dissipater, Stilling basin.
Unsteady Flow: Wave celerity, Surges, Governing equations.
Fluvial Hydraulics: River morphology, Incipient motion and resistance to flow, Layout and bed
forms, Meandering and braiding of river, Flow regimes in mobile bed channels, Uniform flow in
mobile bed channels, Channel degradation and armoring, Sediment load and modes of sediment
transport, Suspended and bed load, Reservoir sedimentation, Stable channel design and critical
tractive force theory, Design of non-scouring non-erodible boundary channel.
Flow Measurement in Open Channels: Broad and sharp-crested weirs, flow through
rectangular, triangular and trapezoidal notches, Free fall, Flow over spillways, Side weirs, Sluice
gates.
River Gauging: Dominant discharge, Methods of gauging, Discharge and sediment
measurement, Current meter, Automatic water level recorder, Stage-discharge relationship,
Rating curve, Method of characteristics, Dam break analysis.
Hydraulic Turbines:Classification of turbines, Pelton , Francis and Kaplan turbines, Velocity
triangles, draft tube theory, similarity laws, Concept of specific speed and unit quantities,
selection of turbines, governing of turbines.
Centrifugal Pumps: Manometric head, losses and efficiencies, workdone, working principle,
velocity triangle, performance and characteristic curves, cavitation effects.
Reciprocating Pumps: Working principle, single acting and double acting reciprocating pump,
work done, Indicator diagram, Air vessels.
2. CEC 14102 Structural Analysis-I 3-1-0 7
Analysis of statically determinate beams, frames and trusses: Loading and modeling, Internal
forces in statically determinate structures – plane and space trusses, beams, frames, simple ,
compound and complex trusses.
Deflection: relationship between curvature slope and deflection, Deflection of frames and
trusses, conjugate beam and area moment theorems, unit load method, Strain energy method for
slopes and deflections., deflection due to shear.
Statically indeterminate structures: static and kinematic indeterminacies, theory of least work.
Analysis of indeterminate structures by flexibility method: consistent deformation method,
strain energy method, influence coefficient method, Column analogy method.
Arches & Cables: Analysis of three hinged, two hinged and fixed arches, analysis of cables and
two hinged suspension bridges.
14
Unsymmetrical bending and shear centre
3. ESC 14151 Environmental Engineering - I 3-1-0 7
Introduction: Overview of Water Works- Sources, water quality requirements, treatment unit
process and Indian standards.
Water Demand: Estimation of design discharge: Water Demand, factors affecting water
demand, variations in water demand. design periods and design population, design capacities for
various water supply components.
Water Treatment Engineering : Demand and water quality management, Overview of water
treatment process: theory and application. Sedimentation: type-1 and type-2 settling, settling
operation, design and construction of sedimentation tank. Coagulation processes: theory of
coagulation, coagulation dose, coagulation practice, rapid mixing and design consideration.
Flocculation processes: design aspects. Water softening: single stage and two stage, re-
carbonation, ion exchange. Filtration: Filter hydraulics, filter components, operation and design
aspects of slow and rapid sand filters, dual-media filter and mixed media filter. Disinfection-
chlorination and other means of disinfection. Removal of dissolved solids. Fluoride, iron and
manganese removal.
Design of Intake, Transportation Conduit and Distribution Systems: Types of Intake
Structures and their design concepts, Types of Aqueducts and Water Pipes, Design of
transportation conduits, Overview and design of Distribution Systems Reservoir, Overhead tanks
and distribution network, valves and fittings.
4. GLR 14157 Physical and Structural Geology 3-0-0 7
Introduction to Geosciences in Civil Engineering: Introduction, significance of geosciences
for civil engineering.
Geological Processes: Rock types and their engineering properties, Introduction to rock forming
minerals (silicate structure, physical and chemical properties of minerals), igneous, sedimentary
and metamorphic rocks (texture, engineering properties).
Structural Geology: Dip, strike, faults, folds, joints, their formation and importance with
respect to civil engineering structures, rock mass movements, landslides and their causes.
Seismology and Earthquakes: Magnitude and intensity, seismic hazards, earthquake prediction,
types of mass wasting events, wave propogation in rocks.
Stratigraphy: Definition, principles of stratigraphy, stratigraphic correlation, stratigraphic units,
Geological time scale, Geology of India.
Plate tectonics: Continental drift, sea-floor spreading, types of plates and plate motions.
Weathering and Soil formation: surface processes and landforms (rivers, coastal, and
groundwater).
Hydrogeological Properties of Rocks: Hydrogeological classification of rocks, vertical
distribution of groundwater, aquifers (confined and unconfined aquifers), groundwater regimes
of India.
Applications in Civil Engineering: Criteria for site selection of dams, bridge foundation,
building foundation, tunnels and waste disposal.
15
5. AMR 14101 Numerical and Statistical Methods 3-1-0 7
Part-I
Numerical Methods: Solution of algebraic and transcendental equation by bisection, iteration,
false position and Newton-Raphson methods. Solution of a system of linear simultaneous
equations by Gauss elimination, Gauss-Jordan, Crout’s triangularisation, Jacobi and Gauss-
Seidel methods. Finite difference, Symbolic relations, Interpolation and Extrapolation, Newton-
Gregory forward and backward, Gauss forward and backward, Stirling, Bessel and Lagrange's
formulae, Inverse interpolation by Lagrange and iterative methods, Numerical differentiation and
integration: Trapezoidal, Simpson’s 1/3rd, Simpson’s 3/8thand Weddle quadrature formulae.
Numerical solution of first order ordinary differential equations by Taylor’s series, Picard’s,
Euler’s, Modified Euler’s, Runge-Kutta and Milne's methods. Solution of simultaneous first
order and second order ordinary differential equations with initial conditions by Runge-Kutta and
Milne's methods. Numerical solution of boundary value problems by finite difference method.
Part-II
Statistical Methods: Moments, skew ness and kurtosis. Probability: Various approaches of
probability, two theorems (without proof), conditional probability, Bayes theorem. Random
variable: Definition, probability mass & density functions, distribution function, mathematical
expectation and moment generating function. Probability distributions: Bernoulli, binomial,
Poisson and normal distributions. Theory of least squares and curve fitting. Correlation and
Regression: Simple, multiple & partial correlation coefficients, regression lines, regression
coefficients and their properties. Test of significance: Normal test, t-test, chi square test and F
test.
Practical
1 CEC 14201 Open Channel And River Hydraulics
Practical
0-0-2 2
Determination of Coefficient of discharge for rectangular, triangular, trapezoidal notches &
weirs, Manning's and Chezy's coefficients in open channel flow, channel transitions in open
channel (hump / width reduction), hydraulic Jump in open channel flow, performance studies on
Pelton, Francis and Kaplan turbines, performance studies on centrifugal pump and reciprocating
pumps, determination of velocity and flow using current meter, analysis of sedimentation,
sediments.
2 CEC 14202 Structural Analysis –I Practical 0-0-2 2
Clark Maxwell's Reciprocal theorem, Analysis of a redundant joint, Deflections of a truss,
Elastic Displacements of curved members, Elastic properties of beams, ILD for end reactions for
3-hinged arch, ILD for end reactions for 2-hinged arch, Behavior of struts under different end
conditions, Experimental and analytical study of three bar pin-jointed truss, Experimental and
analytical study of deformations in bar beam combination.
3 ESC 14251 Environmental Engineering -I Practical 0-0-2 2
Determination of water quality parameter i.e. pH, turbidity, acidity/alkalinity, various types of
solids, hardness, DO, residual chlorine, faecal coliforms using MPN Test, fluoride, Chloride,
arsenic, Nitrate, Nitrite Free ammonia and TKN, (as per IS 10500), determination of chlorine
demand, break point chlorination, combined and free vaialable chlorine Determination of
16
Settleable – non settleable solids, determination of settling velocity of discrete particles,
determination of optimum dose of coagulant, determination of efficiency and headloss through
rapid sand filter.
4 GLC 14251 Geology For Civil Engineering Practical 0-0-2 2
Study of Minerals by their Physical Properties, Identification and Textural Study of Rocks, Joint
Data Analysis, Study of folds and faults, Study of Geological Maps and Cross-sections.
17
FIFTH SEMESTER
1 CEC 15101 Design of Concrete Structures-I 3-1-0 7
Basic Concepts of Reinforced Concrete Design : Design Methodologies: Working stress and
limit state methods.
L.S. Design of R.C. Beams: Singly and doubly reinforced rectangular/flanged sections, design
for shear, bond and anchorage of reinforcement, limit states of deflection and cracking.
L.S. Design for Torsion : Design of RC beams subjected to torsion.
L.S. Design of Slabs: One-way and two-way slabs, design of staircases.
L.S. Design of Columns: Design of compression members for axial loads and axial load plus
uniaxial moment., Short columns under axial compression, Short columns under axial
compression with uni-axial bending, Short columns under axial compression with bi-axial
bending. Slender columns.
L.S. Design of Foundation: Foundation types, Types of footings, design of isolated and
combined footings.
L.S. Design of earth retaining structures: Stability analysis of retaining walls, design of
gravity, cantilever type retaining walls.
2 CEC 15102 Transportation Engineering-I 3-1-0 7
Highway Development and Planning: Historical Development, road patterns, master plans,
road development plans, PMGSY, engineering surveys, highway projects, Rapid Mass
Transportaion System, BRT Coridors, Layouts.
Highway Geometric Design: , alignment survey, geometric design of highways, Cross section
elements, sight distances, horizontal and vertical alignment, transition and valley curves.
Traffic Engineering: Traffic characteristics, road user & vehicular characteristics, traffic
studies: traffic volume study, speed and delay study, origin and destination study, traffic flow
characteristics and studies, accident studies, traffic operations, traffic control devices, design of
pedestrians and traffic signals, intelligent transport systems, design of intersection, design of
parking facilities.
Highway Materials and Testing: Subgrade soil, sub base and base course materials, bituminous
materials, testing of soil, stone aggregates, tar and bitumen.
Design of Highway Pavements: Structure and types of pavements, Flexible pavements and their
design, review of old methods, CBR method, IRC:37-2001, equivalent single wheel load factor,
rigid pavements, stress in rigid pavement, IRC design method (IRC:58-2002).
Highway Construction: Types of highway construction, elements of construction, Construction
of various layers, WBM, GSB, WMM, various types of bituminous layers, embankment,
earthwork, soil stabilisation, non- bituminous and bituminous subbase and base courses,
bituminous surface courses, concrete pavements, joints in rigid pavements.
Highway Maintenance: Various type of failures in flexible and rigid pavements, evaluation and
remedial measures, maintenance of highways.
Highway Drainage: surface and subsurface drainiage, design of surface and subsurface drainage
system, road construction in water logged area.
3 CEC 15103 Geotechnical Engineering-I 3-1-0 7
Soil Formation : Overview, Engineering properties of Natural and Compacted Soils Soil types,
composition, three phase relations. Physical Properties : Specific gravity, water content, shape and size, grain size distribution
curves, relative density, consistency of soils, Unified soil classification system, IS soil
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classification system, field identification tests, Soil Structure and Clay Mineralogy .
Compaction: General principles, tests, factors affecting compaction, field compaction,
compaction techniques. Compaction of cohesive and cohesion less soils, Standard proctor’s test
and modified proctor’s test, Field compaction, Compaction control, C.B.R test and its use.
Permeability and Seepage : Darcy’s law, determination of permeability, equivalent
permeability in stratified soils, insitu and laboratory permeability test, 1-D flow, Laplace’s
equation, flow nets, effective and porewater pressure, seepage, uplift pressure, confined and
unconfined flows, piping, filter criteria. Compressibility and Consolidation : Fundamentals, 1-D consolidation, normally and over-
consolidated clays, void ratio – pressure relationships, compressibility characteristics, time rate
of consolidation, coefficient of consolidation, curve fitting techniques, secondary consolidation,
3-D consolidation, vertical sand drains, Sandwicks and PVD. Settlement Calculations: Initial, Primary and Secondary settlements.
Shear Strength of Soil : Principle of effective stress, Mohr-Coulomb failure criterion, direct
shear test, unconfined compression test, Triaxial shear test : consolidated drained, consolidated
undrained, unconsolidated undrained, vane shear test, shear strength of clays and sands, critical
void ratio, stress path, pore-pressure parameters.
4 CEC 15104 Hydrology and Flood Forecasting 3-1-0 7
Hydrological Cycle and Water Budget : Definitions, world water distribution, space – time
scales in hydrology, hydrologic cycle and water budget. Precipitation Measurement and Analysis : Precipitation variability, rainfall and snow
measurement techniques, measurement of rainfall, index of wetness, design of rain gauge
network, probable maximum precipitation curve, consistency of rain record, filling up of missing
record, estimation of mean areal rainfall, IDF and DAD analysis, Snow measurement and
determination of snow melt.
Hydrologic Abstractions : Infiltration, factors affecting infiltration, measurement of infiltration,
infiltration capacity curve, empirical and analytical models of infiltration, evaporation: its
measurement and estimation, evapo-transpiration: its measurement and estimation, interception
and depression storage, rainwater harvesting and artficial recharge structure: procedure and its
design.
Run-off Estimation: Measurement & estimation of water losses, runoff cycle, runoff
coefficients, computation of runoff: rational formulae, unit hydrograph, Unit hydrograph-
applications, Bernard's distribution, unit storm method.
Ground Water: Aquifers, hydrological properties. measurement of yield, Darcy`s law, Thiems
equilibrium formula, Dupuit’s theory for confined and unconfined aquifers.
Stream Flow : Measurement, capacity elevation curve of river, factors affecting stream flow
hydrograph analysis, base flow separation, unit hydrograph and curve number methods of stream
flow determination, synthetic unit hydrograph, hydrological modeling, methods for peak
discharge estimation.
Reservoir Flow: Types of reservoirs, storage zones, catchment yield & reservoir yield, reservoir
capacity,mass curve of inflow and outflow, hydrological reservoir routing, reservoir
sedimentations and losses, selection of site for a reservoir, economic height of dam.
Flood forecasting: Definition and causes of flood, estimation of design flood and flood flows
for design of hydraulic structures, flood forecasting techniques.
Frequency Analysis: Return period, random variable, checks for persistency, frequency
analysis, correlation and regression of hydrological data.
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Flood Routing: Flood routing, inflow-outflow curve, mathematical models etc. Flood control
measures, Governing equations, reservoir flood routing, hydrologic routing: Muskingum method.
5 CEC 15105 Structural Analysis -II 3-1-0 7
Analysis of Rolling Loads and Influence Line: Analysis of rolling loads. use of influence line
diagrams, application to determinate structures. Influence lines for statically determinate and
indeterminate structures, Muller-Breslau principle with application to determinate and redundant
structures. Qualitative ILD for continuous beams, frames and arches.
Analysis of indeterminate Method by Stiffness Method: basic principles, slope deflection
method, Moment distribution method, frame with/without sway, use of symmetry and anti-
symmetry.
Matrix displacement method: basic principles, application to planar structures-trusses, beams
and frames - Analysis for temperature stress, lack of fit and settlement of supports.
Computer Applications in Structural Analysis: Introduction to software and its applications to
2D trusses and building frames.
Practicals
1 CEC 15201 Design Of Concrete Structures-I Practical 0-0-2 2
Design and detailing of Singly and doubly reinforced beam, One-way slab, Two-way slab, Short
columns and slender column, Isolated footings, Combined footing, Retaining walls.
2 CEC 15202 Transportation Engineering – I Practical 0-0-2 2
Crushing and Aggregate impact value tests of Aggregate, Los Angele’s abrasion test, Deval’s
attrition value test. Specific gravity Test, Datermination of Flakiness index, Elongation index and
Angularity number of aggregates, Penetration, Softening point, Flash and fire point, Ductility,
Viscosity, Bitumen Extractions and Specific gravity of Bitumen, Marshall stability test,
Benkelmen Beam Test.
3 CEC 15203 Geotechnical Engineering – I Practical 0-0-2 2
Determination of water content, specific gravity, grain size analysis, Atterberg limits, free
swell index, field unit weight, permeability, direct and triaxial shear test, vane shear test,
unconfined compression test, compaction tests, Consolidation test, CBR test.
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SIXTH SEMESTER
1 CEC 16101 Design of Steel Structures-I 3-1-0 7
Introduction: Types of structural steel, I.S. rolled sections, Design philosophy, elastic method,
limit state design. Simple Connections: Riveted, bolted and welded connections, failure of joints ,efficiency of
joints, design of bolted , riveted & welded joints for axial and shear force, HS Friction bolts.
Tension members: Steel members subject to axial tension, L.S. Design of tension members ,
Design rules.
Compression members: Design of compression members for axial force, effective lengths,
Design rules, Built up columns, Design of lacing and batten plates. Flexural members: Stability of flange and web, stability consideration, uniaxial loading ,
biaxial loading, Design of rolled steel sections, stiffeners, Simple Beam end connections, Beam
-Column connections.
Design of Footings: Column bases, slab base, gusseted base and grillage footings.
Roof trusses: Design loads, wind loads, trusses and purlins.
2 CEC 16102 Geotechnical Engineering-II 3-1-0 7
Stress distribution in soils: Boussinesq’s equation, Vertical stress due to line load, strip load,
and uniformly loaded circular area, Newmark’s chart, Westergaard’s approach, Pressure bulb
concept, approximate methods.
Stability of slope: Stability analysis of infinite slopes, Stability analysis of finite slopes, Swedish
circle method, Friction circle method, Taylor’s stability number and use of charts, Improving
stability of slopes, Stability analysis problems of slopes and retaining walls.
Earth pressures: Earth pressure theories of lateral earth pressure, Active and passive earth
pressures in cohesion less and cohesive soils (with and without surcharge), Rankine’s and
Coulomb’s earth pressure theories, Graphical methods by Rebhann and Culmann, trial wedge
method, Earth retaining structures: Types of retaining structures, Stability considerations of
gravity and cantilever retaining walls, Drainage in retaining walls, Joints in retaining walls, Earth
Dams, types and design aspects.
Bearing Capacity: Terzaghi’s bearing capacity theory, computation of bearing capacity in soils,
Bearing capacity of Square, Rectangular, Circular and Continuous footings, Meyerhof’s theory,
Skempton’s method Brinch Hansen’s method, Effect of ground water table on bearing capacity,
Bearing capacity from building codes, effect of various factors.
3 CEC 16103 Design of Concrete Structures-II 3-1-0 7
Continuous Beams and Slabs: Design of continuous R.C. beams, moment redistribution,
Beams curved in plan, Design of circular slabs.
Design of RC Framed Buildings: Design loads on buildings, wind and earthquake loads,
Framing systems, member proportioning, Analysis and design of RC framed buildings, shear
walls, ductile detailing.
Design of T-beam bridge: standard specifications and general design considerations, design of
T beam bridge for I.R.C.class A loading.
Design of Water Retaining structure: Design criteria, material specifications, design of
circular and rectangular tanks situated on the ground / under ground, design of overhead tanks,
general design consideration for circular & Intze tanks.
Pre-stressed concrete: Advantages, materials, prestressing systems, stress analysis & losses of
prestress, cable profile, L.S. design of simple prestressed rectangular and flanged sections.
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4 CEC 16104 Irrigation Engineering and Hydraulic
Structures
3-1-0 7
Introduction: Irrigation, Need and mode of irrigation, Merits and demerits of irrigation, Crop
and crop seasons, consumptive use of water, Duty, Factors affecting duty, Moisture-crop
relationship, Irrigation efficiencies, Irrigation of arid lands, Drainage of irrigated land, Salinity of
soil, Salinity and alkalinity control, Quality of irrigation water, Planning and Development of
irrigation projects.
Irrigation Methods: Canal irrigation, Lift irrigation, Tank irrigation, Flooding methods, Merits
and demerits, Design of conventional and modern methods of irrigation, Sprinkler irrigation,
Drip irrigation .
Diversion and Impounding Structures:
Location and components of diversion head work, Causes of failures of weirs on permeable
foundations, Bligh’s and Khosla’s theories of design of weirs on permeable foundation, method
of independent variable, Exit gradient.
Weirs: elementary profile of a weir, weirs on pervious foundations, Types of impounding
structures, Tanks, Sluices and Weirs.
Dams and Reservoirs: Site selection-Engineering and hydrological surveys, estimation of
storage capacity, Zones of storage, reservoir losses and sedimentation, life of reservoir, Dams:
Classification and selection criteria.
Gravity Dams: Forces acting on gravity dams, High and low gravity dams, Elementary and
practical profiles, Stability analysis, causes of failure of a gravity dam, galleries, joints and
control of cracking.
Earth Dams: Classification, causes of failure, phreatic line and its determination, stability
analysis.
Spillways: Requirements, spillway capacity, components and type of spillways, Design
principles of ogee spillway, Methods of dissipation below spillways, Effects of TWC and JHC,
Stilling basins and appurtenances. Spillways, Factors affecting location and type of dams, Forces
on a dam, Hydraulic design of dams.
Canal Irrigation: Canal head works, Functions, location, layout, weir and barrage, design of
vertical drop weir.
Regulation and control of canal system: Purpose and their functions- Head and Cross
regulator, Falls, Outlets, Canal escape, bed bars, Tail escape, outlets.
Design of Regulation works: Principles and design of distributary head regulator and cross
regulator, Introduction to design principles of falls, design of sharda falls, Alignment of canals,
Classification of canals, Design of Lined and Unlined canals, Canal drops, Hydraulic design of
drops, Cross drainage works, Hydraulic design of cross drainage works, Canal Head works,
Canal regulators.
River Training Work: Need, Classification and stages of rivers, types of river training works,
bank protection.
Irrigation Water Management: Need for optimisation of water use, Minimising irrigation
water losses, On farm development works, Percolation ponds, Participatory irrigation
management, Water users associations, Changing paradigms in water management, Water
management policy during droughts, Contaminants and their effects on various crop types, Rain
water management, Planning and operation of irrigation systems, Predicting effect of water
shortage on crops, Consumptive Water use of surface and groundwater.
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5 ESC 16151 Environmental Engineering -II 3-1-0 7
Industrial Wastewater and Sewage characteristics, Quantity & Quality, flow rate, treatment flow
-sheets. Sewage treatment process, reactor type, hydraulic characteristics, C-diagram.
Preliminary treatment-design and operation of screening and grit chamber. Sedimentation, design
and operation PST, Chemical precipitation.
Principle of biological treatment-derivation of bacterial growth kinetics used in designing of
wastewater treatment plant. Process design and operation of Activated sludge process and its
modification. Bulking and rising sludge. Design of secondary settling tank.
Wastewater treatment for small communities: Oxidation ditch, extended aeration system, SBR,
Process design and operation of mechanically aerated lagoon and Waste stabilization pond
system.
Sanitation: rural sanitation, short term and long term control of insects, rodents, vectors and
nuisance, municipal sanitary standards and regulation. Sewage disposal in isolated unsewered
areas: septic tank, cesspools and their effluent disposal methods.
Design and operation of biological nitrification: denitrification system, luxurious phosphorus
uptake.
Aerobic attached growth process: Process design and operation of trickling filter, RBC, Biofilter.
Anaerobic treatment: process microbiology and biochemistry, application for treatment of
sewage, advantage and disadvantages.
Concept of common effluent treatment plant (CETP).
Floating aquatic plant system and its design and operation.
Sludge characteristics and disposal methods: design and operation of sludge drying bed.
Design and operation of treatment plant. Trouble shooting and trouble free operation.
Design of Sewerage: Types & Design of sewerage, Hydraulic Design of Sewer: construction
laying and testing of sewer lines, Design of Sewage Pumping Station, Maintenance of sewerage
system.
Environmental Standard for domestic and industrial wastewater disposal.
Practicals
1. CEC 16201 Design of Steel Structures – I Practical 0-0-2 2
Structural design and detailing of bolted and welded connections, tension and compression
members, laced and battened columns, beams, beam-column connections, column base, gusseted
base and grillage footings, roof truss with purlins.
2. ESC 16251 Environmental Engineering –II Practical 0-0-2 2
Determination of suspended, dissolved, fixed and volatile solids in sewage sample, settleable
and non-settleable solids, pH, acidity, alkalinity of sewage sample, Nitrate, nitrite, TKN and free
ammonia in sewage sample, sulphate & chloride concentration of sewage sample, Biochemical
Oxygen Demand (BOD) & Chemical Oxygen Demand (COD) of sewage sample, settling
velocity analysis, phenols, cyanide and heavy metals in sewage sample.
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SEVENTH SEMESTER
1. CEC 17101 Design of Steel Structures-II 3-1-0 7
Design of Plate Girders: Introduction, weight and economical depth, design of plate girders,
splices, stiffeners, riveted / bolted and welded connections, HSF bolts.
Design of Multi-Storeyed Buildings: Structural Configurations, Steel-Concrete Composite
Floor Systems, Loading, Analysis for Gravity Loads, Lateral Load Resisting Systems, Analysis
for Lateral Loads, Dual Systems, Moment resistant frames, Concentric braced frames, special
M-R and braced frames.
Moment Connections: Simple, Semi-rigid and Rigid Connections, Connection Configurations,
Angle Cleat Connections, End-plate Connections, Moment-rotation Characteristics.
Design of Industrial Buildings: Structural Configurations, Functional and Serviceability
Requirements, Industrial Floors, Roof Systems, Crane Gantry Girders, Design for Wind Actions,
Design for Earthquake Actions.
Design of Bridges: Classification and Types of bridges, economical span, Load and Load
Combination for highway Bridges, Wind and Earthquake Effects, Design of a Typical Truss
Bridge and Bearings.
Design of Liquid Retaining Tanks: Introduction- Types of Tanks, Load and Load Combination,
Design Aspects of Cylindrical Tanks, Design Aspects of Rectangular Tanks, Wind and
Earthquake effects, Staging Design.
Design of MW & TV Towers: Classification & Types of Towers, Loads and Load
Combinations, Wind Effects on Towers, Dynamic Wind, Methods of Analysis, Design
Consideration.
.Plastic Analysis and Design: stress – strain relation for mild steel, scope of plastic analysis,
shape factor, plastic hinge, load factor, basic theorems of plastic analysis, collapse load for
beams and portal frames, design considerations, Plastic Analysis and Design of Portal Frames.
2. CEC 17102 Foundation Engineering 3-1-0 7
Introduction: Role of civil engineer in the selection, design and construction of foundation of
civil engineering structures, brief review of soil mechanics principles used in foundation
engineering. Soil Exploration: Site reconnaissance, Methods of soil exploration, Depth of exploration,
Lateral extent of exploration, boring, Test pits, Auger borings, Wash borings, sampling, Split,
Spoon sampler, penetration tests, correlations between penetration resistance and soil design
parameters. Geophysical methods: Seismic refraction and Electrical resistivity methods, Sub soil
investigation reports.
Foundations: Types of foundations, Depth of foundation, mechanism of load transfer in shallow
and deep foundations, shallow foundations, , use of field test data in design of shallow
foundations, stresses below the foundations, settlement of footings and rafts, Buoancy Rafts,
Tolerable settlements, Settlement analysis, proportioning of footings and rafts, sheeting.
Braced Excavation: Bottom Heave, Clay Bursting, Piping, Settlement, Struts, Wales,
Dewatering.
Sheet pile: Cantilever sheet pile, anchored sheet pile. Pile Foundation: Classification of piles, Pile driving, Load carrying capacity of piles, Types and
methods of construction, estimation of pile capacity, capacity and settlement of group of piles,
proportioning of piles, Dynamic formulae, Static formulae, Pile load tests, in-situ penetration
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tests, Group action of piles, Negative skin friction, Under-reamed piles, Laterally loaded pile.
Well foundations: Methods of construction, tilt and shift, remedial measures, bearing capacity,
settlement and lateral stability of well foundation, Pier foundation & Caission foundation
3. CEC 17103 Transportation Engineering-II 3-1-0 7
Introduction, Permanent Way and Components: History and administrative setup of Indian
Railways, rail gauges, permanent way – functions, requirements, sections in embankment and
cutting (single/double track), electrified tracks, locomotives, wheel and axle arrangement, coning
of wheels, components , rails, sleepers, ballast and formation. Resistances and Stresses in Tracks, Hauling Capacity: Types of resistances to traction,
stresses in different components of track, hauling capacity of a locomotive, tractive effort. Joints and Fastenings: Types of joints, short welded rails, long welded rails and continuous
welded rails, rail to rail and rail to sleeper fastenings, elastic fastenings. Track Geometrics, Turnouts and Crossings: Railway alignment, vertical alignment , gradients
and grade effects, horizontal alignment , horizontal curves, super-elevation, concepts of cant
excess and deficiency, safe permissible speed, transition curves, widening of gauges and track
clearances, points and crossings , terminologies, types of turnouts, design of turnouts, types of
crossings, design of crossings.
Track Safety, High speed tracks, Urban railways: Signals classification and their functions,
train operation control systems , absolute, automatic block systems, centralized train control
system, ATS, interlocking of tracks , principle of interlocking, types of interlocking, high speed
tracks - track requirements, speed limitations, high speed technologies, urban railway - railway
systems in urban areas.
Metros: Planning & Managment Introduction, Aircraft Characteristics and Airport selection: Air transport development in
India, national and international organizations in air transport, aircraft characteristics and their
impact on planning of an airport, selection of site for an airport, airport obstruction, imaginary
surfaces, runway orientation clam period and wind coverage.
Geometric Designs: Runway and taxiway geometric designs, exit taxiway, its design and fillet
curves, runway configuration, separation clearance, design of apron and their layouts.
Airport Traffic control Aids: Visual aids, marking and lighting of runway and apron area, wind
and landing direction indicator
Docks and Harbours
4. CEC 17104 Computer Aided Design for Civil Engineering 2-2-0 6
Introduction to STAAD.Pro, Model generations, Assigning Loads, Automatic Load generations
(Slab, Wind & Moving), Column & beam design, RC Designer, Seismic Analysis & Design,
Dynamic Analysis, Water Tank Design, Slab Design, Staircase Design, Shear wall Design,
Bridge Deck design using STAAD, Steel Design, Transmission Line Tower Design, Pushover
Analysis, Foundation Designs (Isolated Footing, Combined Footing, Mat Foundation, Pile Cap
Design, Report generation, Fundamentals and Applications of Bentley Softwares for design of
civil engineering structures.
5. Elective (any one) 3-0-0 6
CEE 17101 Pre-stressed concrete design
Deflections: factors influencing deflections, short term deflections of un-cracked members,
deflections of cracked members, prediction of long term deflections.
Shear and torsional resistance: ultimate shear resistance of prestressed concrete members,
prestressed concrete members in torsion, design of reinforcements for torsion, shear and bending.
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Design of flexural members: dimensioning of flexural members, design of pre-tensioned and
post tensioned beams, design of partially prestressed members, design of one way and two way
slabs, continuous beams, T beams, Design for axial tension, compression and bending, bond and
bearing.
Limit state design: Review of limit state design concepts, design loads and strengths, crack
widths in prestressed members, principles of dimensioning prestressed concrete members.
Overview of reinforced and prestressed concrete construction Design and detailing of
precast/prefabricated building components.
CEE 17102 Bridge Superstructures 3-0-0 6
Standard Loading for Bridge Design as per different codes: Road Bridges: Study of IRC, BS
code, AASHTO code on Dead load, Live load, Impact factor, Centrifugal force, Wind loads,
Hydraulic forces, Longitudinal forces, Seismic forces, Earth pressure. Buoyancy force. Lane
concept, equivalent loads, traffic load. Width of Roadway and Footway. Influence lines for
statically determinate structures, I.L. for statically indeterminate structures. Transverse
distribution of Live loads among deck longitudinals. Load combinations for different working
state and limit state designs.
Railway Bridges: Loadings for Railway Bridges, Railroad data. Pre-design considerations,
Railroad vs. Highway bridges.
Superstructures: Selection of main bridge parameters, Design methodologies, Choices of
superstructure types: Orthotropic plate theory, load distribution techniques. Grillage analysis:
Finite element analysis(Preferable), Different types of superstructure (RCC and PSC),
Longitudinal Analysis of Bridge. Slab bridge and voided slab bridge, Beam-Slab bridge, Box
Girder Bridge. Transverse Analysis of Bridge: Slab bridge and voided slab bridge. Beam-Slab
bridge: Box Girder Bridge. Temperature analysis, Distortional analysis, Effects of differential
settlement of supports. Reinforced earth structures. Slab Bridge, Slab-Girder
Bridge(Straight/Skew). Box Girder Bridge (Straight/ Skew).
Bearings and Deck Joints: Different types of bridge bearings and expansion joints, Design of
bearings and joints.
Parapets and Railings for Highway Bridges: Definitions, Classification of Highway Bridge
parapets, Various Details.
Bridge Type: Suspension bridges and cable stayed bridges.
CEE 17103 Hydropower Engineering 3-0-0 6
Fundamentals of hydropower generation, Hydropower project planning, Site selection,
Hydropower development schemes, Small hydro power development, Tidal plants,
Augmentation of hydropower plants.
Reservoir storage, Assessment of power potential, Hydrologic analysis: Flow duration and power
duration curves, Dependable flow, Storage requirement, Design flood, Reservoir sizing,
Reservoir operation.
Work and energy of streams and jets, Installed capacities and efficiencies of hydropower plants,
Head and energy losses, Energy dissipation.
Hydraulic and hydro-mechanical designs of various components of hydropower plants: intakes,
forebay, hydraulic turbines, centrifugal and axial flow pumps, conduits and water conveyance,
Penstocks.
Performance characteristics of turbines, Specific and unit quantities, Electrical load on hydro-
turbines, Power house dimension and planning.
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Hydraulic transients, Water hammer and surge analysis, Surge tanks.
Project feasibility, Impact of hydropower development on water resources systems, environment,
socioeconomic conditions and national economy.
CEE 17104 Machine Foundations 3-0-0 6
Introduction: Vibration of elementary systems-vibratory motion,single degree freedom
system,free and forced vibration with and without damping.
Waves and Wave Propagation: Wave propagation in an elastic homogeneous isotropic
medium, Raleigh, shear and compression waves,waves in elastic half space.
Dynamic Properties of Soils : Elastic properties of soils,coefficient of elastic, uniform and
non,uniform compression, Shear effect of vibration dissipative properties of soils,determination
of dynamic properties of soilcodal provisions.
Design Procedures: Design criteria ,dynamic loads , simple design procedures for foundations
under reciprocating machines , machines producing impact loads , rotary type machines
Vibration Isolation: Vibration isolation technique, mechanical isolation, foundation isolation,
isolation by Location, isolation by barriers and active passive isolation tests.
ESE 18151 Air and Noise Pollution 3-0-0 6
Sources of air pollution: stationary and mobile, fugitive emissions, secondary pollutants,
Effects of air pollution in regional and global scale, air pollution episodes, Emission factors
inventory and predictive equations.
Atmospheric meteorology: wind profiles, turbulent diffusion, topographic effects, separated
flows, temperature profiles in atmosphere, stability, inversions, plume behaviour.
Air quality monitoring - objectives, time and space variability in air quality, air sampling
design, analysis and interpretation of air pollution data, guidelines of network design in urban
and rural areas. Stack monitoring. Air pollution standards and indices.
Dispersion of air pollutants and modelling: Basic concepts, inversion layer and mixing height,
atmospheric stability classes, theory and application of acoustic sounding (SODAR) technique.
Box model, The Gaussian dispersion model: point, area and line sources. Prediction of effective
stack height - physics of plume rise, Holland's equation, Briggs equation, etc. modifications of
Gaussian dispersion models, indoor air quality models. Air pollution control devices.
Noise Pollution: Basics of acoustics and specification of sound, sound power, sound intensity
and sound pressure levels, plane, point and line sources, multiple sources, outdoor and indoor
noise propagation, psycho-acoustics and noise criteria, effects of noise on health, annoyance
rating schemes, special noise environments: Infra-sound, ultrasound, impulsive sound and sonic
boom, noise standards and limit values, noise instrumentation and monitoring procedure. Noise
indices.
3 ESE 18152 Environmental Impact Assessment 3-0-0 6
Introduction to EIA: Sustainable Development, Framework for Environmental Impact
Assessment. Screening, Scoping and Baseline Studies, Significance and Importance of Impacts,
Impact prediction, Mitigation aspects, Assessment of alternatives, Public Hearing, Decision
Making. Legal Issues.
Impact assessment methodologies: Ad hoc method, Checklists method- Simple, Descriptive,
Scaling, Scaling-Weighting checklists, Matrices methods- Simple Matrix, Leopold Matrix,
Stepped Matrix Method, Networks Method, Spatial Based Method (Overlays and GIS), their
applicability.
Strategic Environmental Assessment (SEA): Need for SEA, Comparative Features of Project-
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Level EIA and SEA, Application of SEA, Limitations of SEA.
Cumulative impact assessment (CIA): Definition and Purpose, Types of Cumulative Impacts,
Cumulative Effects at a Local Scale/Regional Scale and Global Scale, Major Cumulative Impact
Situations, Challenges in Undertaking CIA, Uncertainty in CIA.
Risk and uncertainty in EIA: Theories in Environmental Risk Assessment, Components of
Environmental Risk Assessment, Systematic approach to risk assessment.
Environmental Management Planning: Role of EMP, Objectives of EMP, Structure of EMP,
The Mitigation Hierarchy, Steps of Implementation of EMP, Review, Auditing and Updating of
EMP. Disaster management planning: Components, Guidelines for disaster management
planning, Hazard analysis.
Case studies: EIA of Infrastructure Projects and other projects.
Practical
1. CEC 17201 Design of Steel Structures-II Practical 0-0-2 2
Structural design and detailing of continuous beam and slab, Ductile design and detailing of
framed structures, Detailing of T-beam bridges, Detailing of overhead water tank, Detailing of
plate girder/gantry girder, Detailing of steel water tank and Detailing of towers.
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EIGHT SEMESTER
1. CEC 18101 Remote Sensing and GIS 3-1-0 7
Remote Sensing : Introduction, types, application and importance of Remote Sensing, Physics
of Remote Sensing, The Electromagnetic spectrum, Spectral Reflectance Curves, Spectral
signatures, Resolution.
Remote Sensing Platforms: Ground, airborne and satellite based platforms, Some important
Remote Sensing Satellites.
Sensors: Passive and Active Sensors, Major Remote Sensing Sensors, Satellite band designations
and principal applications, Colour / False Colour, Aerial Photography/ Aerial Photo
Interpretation.
Digital Image Processing: Pixels and Digital Number, Digital Image Structure, Format of
Remote Sensing Data.
Image Processing functions: Image Restoration, Image Enhancement, Image Transformation,
Image Classification and Analysis, Image interpretation strategies.
Geographical Information System: Introduction and definitions, Technology and concepts,
Components of GIS, Developments in GIS, Coordinate systems, GIS data types, modelling,
analysis – Overlay, DEM/DTM, Topological modelling, Spatial operations, Map integration,
Multi-criteria evaluation.
Steps in a GIS project: Identification of project objectives, Creation of project database, Analysis
of data, and Data integration, and Presentation of map output.
Overview of GIS softwares: ArcGIS and MapINFO.
Integration of GIS and Remote Sensing, Applications of Remote Sensing and GIS: Water
resources, Urban Analysis, Watershed Management, Environmental studies, Resources
Information Systems.
Global Positioning System: Introduction, components and applications.
2. CEC 18102 Construction Planning and Management 3-1-0 7
Contracts Management: Contracts, types of contracts, contract document, conditions of
contracts, Tendering and contractual procedures, termination of contracts, and specification
important condition of contract, arbitration and tenders, Claims, compensation and disputes,
dispute resolution techniques, Arbitration and Conciliation Act 1996, labour laws, Introduction
to value Engineering, valuation, scrap value, salvage value, market value, book value,
depreciation, appreciation, mortgage.
Material management: purchases management and inventory control, ABC analysis
Human resource management, Statistical quality control at site, Management Information
System
Quantitative methods in construction: Linear programming, transportation and assignment
problems, Queuing theory, decision theory, game theory.
Quality in construction: Quality assurance and quality control at site, quantitative techniques in
quality control, Introduction to quality, Quality standards/codes in design and construction,
Concept and philosophy of total quality management
Safety in construction:Concept of safety, factors affecting safety, structural safety, safety
consideration during construction, demolition and during use of equipment, safety manuals,
safety legislation, standards/codes.
Construction Management: Significance of construction management, objectives and functions
of construction management, types of construction, resources for construction industry, stages of
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construction, construction team, engineering drawings.
CPM & PERT: Critical path method (CPM), programme evaluation and review technique
(PERT) – Network techniques breakdown structures, classification of activities, rules for
developing networks, network development, network analysis, critical activities and critical path
– Cost optimization.
Construction Equipments: Equipment requirements in construction industry – Heavy earth
moving equipment (bull dozers, scrapers, loaders and excavators), shovels and cranes,
compaction equipment, grading equipment, aggregate production equipment, asphalt mixing
plant, asphalt laying equipment, hauling equipment, concrete mixing equipment, material
handling devices, pneumatic equipment, bridge construction equipment, drilling and blasting
equipment, tunneling equipment, pumping and dewatering equipment.
3. CEC 18103 Finite Element Method 3-1-0 7
Introduction to Finite Element Analysis: Basic Concepts of Finite Element Analysis,
Introduction to Elasticity, Steps in Finite ElementAnalysis.
Finite Element Formulation Techniques:Virtual Work and Variational Principle, Galerkin
Method, Finite Element Method: Displacement Approach, Stiffness Matrix and Boundary
Conditions.
Element Properties: Natural Coordinates, Triangular Elements, Rectangular Elements,
Lagrange and Serendipity Elements, Solid Elements, Isoparametric Formulation, Stiffness
Matrix of Isoparametric Elements, Numerical Integration: One Dimensional, Numerical
Integration: Two and Three Dimensional.
Analysis of Frame Structures: Stiffness of Truss Members, Analysis of Truss, Stiffness of
Beam Members, Finite Element Analysis of Continuous Beam, Plane Frame Analysis, Analysis
of Grid and Space Frame.
FEM for Two and Three Dimensional Solids: Constant Strain Triangle, Linear Strain Triangle,
Rectangular Elements, Numerical Evaluation of Element Stiffness, Computation of Stresses,
Geometric Nonlinearity and Static Condensation, Axisymmetric Element, Finite Element
Formulation of Axisymmetric Element, Finite Element Formulation for 3D Elements.
FEM for Plates and Shells: Introduction to Plate Bending Problems, Finite Element Analysis of
Thin Plate, Finite Element Analysis of Thick Plate, Finite Element Analysis of Skew Plate,
Introduction to Finite Strip Method, Finite Element Analysis of Shell.
Additional Applications of FEM: Finite Elements for Elastic Stability, Finite Elements in Fluid
Mechanics, Dynamic Analysis.
4. MSR 16152 Industrial Management 3-0-0 6
Evaluation of management theory and practice, Principles of scientific management,Functions of
management.
Concepts of organizational behaviour - Leadership and Motivation.
Concepts of human resource management - Selection, Training and Development.
Finance management - Capital budgeting techniques, Pay-back period, Accounting Rate of
Return, Net Present Value, Internal Rate of Return, Profitability Index, Sources of capital, Cost
concepts and break-even analysis.
Project management - Network construction and identification of critical activities in Critical
Path Method and Project Evaluation Review Technique.
Introduction to marketing management, Concept of product life cycle.
Introduction to optimization techniques, Linear programming - formulation and its graphical
solution.
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5. Elective (any one)
1 CEE 18101 Ground Water Hydrology and Modeling 3-0-0 6
Occurrence and movement of groundwater, Flow through porous medium, Darcy’s law, Aquifer
parameters and Aquifer types, Differential equations governing groundwater flow in Cartesian
and polar coordinates, Dupuit-Forchheimer assumptions.
Well hydraulics, Analytical solutions for confined, leaky confined and unconfined aquifers,
Image well theory, Time-variant pumping rates, Well interference, Analysis of pumping test data
Natural and Artificial recharge of groundwater, Induced recharge, Stream-aquifer interflows,
Estimation of recharge, Lumped water balance, GEC-97 norms, Groundwater management,
Rainwater harvesting.
Sources and causes of groundwater contamination, Transport mechanisms, Hydrodynamic
dispersion, Multiphase contamination, NAPLs, VOC, Saltwater intrusion, Site specific
groundwater quality problems in India.
Introduction to analog and numerical models to solve ground water problems, Analytical
solutions, Numerical solutions, Application of finite difference method in ground water,
Regional groundwater planning, Contaminant transport modeling, Groundwater modeling,
Application of emerging techniques in groundwater management.
Introduction to water quality models and Groundwater modeling packages: QUAL2E, QUAL2K,
WASP4, MODFLOW, GMS.
2 CEE 18102 Earthquake Resistant Design of Buildings 3-0-0 6
Introduction: Origin of earthquakes, magnitude, intensity, ground motions, sensors, strong
motion characteristics.
Concepts of earthquake resistant design of R.C. buildings: Earthquake and vibration effects
on structure, identification of seismic damages in buildings, effect of structural irregularities on
the performance of buildings during earthquakes and seismoresistant building architecture.
Seismic analysis and modeling of R.C. buildings: Codal procedure for design of lateral loads,
infill walls, seismic analysis of R.C. building as per IS: 1893 – 2000 (Part 1).
Earthquake resistant design of buildings: Ductility considerations, E.R.D. of R.C. building,
design of load bearing buildings, design of shear wall.
3 CEE 18103 Solid Waste Management 3-0-0 6
Municipal Solid Waste Management: Sources, nature and characteristics, quantitative and
qualitative aspects, Engineering principles, assessment and management.
Solid waste problems: Industrial, Mining, Agricultural, Domestic (urban) wastes, Biomedical
waste, and E-waste.
Hydrological aspects of solid waste.
Solid waste disposal: Sanitary landfill planning, site selection, design and operation, equipment,
costs, landfill stabilization.
Thermal Conversion Technologies: Combustion, Pyrolysis, and Gasification, Combustion
calculations, unit operations, supply of air, products of combustion, furnace temperature, furnace
calculation, storage of refuse, waste reduction and environmental control.
Bio-Chemical Transformation: Aerobic and Anaerobic Composting, optimum conditions for
composting, Chemical transformation processes.
Industry specific solid waste management: Agriculture, Process industry, Mineral and
Metallurgical industry, Disposal of industrial and mill tailings, Resource and energy recovery,
Separation, Transformation and Recycling of solid waste.
Regulatory aspects of solid waste management.
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4 18104 CEE Transport Planning and Management 3-0-0 6
Introduction to Transportation Engineering: Elements of Transportation Engineering (e.g.:
vehicle, driver, way, terminal, and control), Transportation modes, Development and
transportation, Various aspects of transportation engineering (e.g., pavement design,
traffic engineering, transport planning, public transportation, etc.).
Traffic Engineering: Parameters characterizing traffic flow (e.g. density, speed, flow), Data
collection techniques for traffic parameters and delay studies, Introduction to traffic flow theory
(including description of speed-density, speed-flow, and flow density relations), Introductions
to concept of capacity and level of service, Theory of uninterrupted and interrupted traffic flow,
Delay analysis, Capacity and level-of-service analysis for various facilities, Design of traffic
facilities (like, expressways, channelization, unsignalized and signalized intersections, airport
circulation, parking facilities, etc).
Travel demand analysis and transportation planning : Planning process, Sequential demand
analysis, Models of trip generation, distribution, traffic assignment and modal split.
Transportation economics.
Transportation and the Environment.
5 MEE 18151 Rock Mechanics 3-0-0 6
Introduction: objective, scope and problems of Rock Mechanics. Classification by Origin,
Lithological, Engineering.
Rock exploration: Rock coring, geophysical methods. Laboratory testing of rocks: Compressive
strength, tensile strength and flexural strength tests.
Strength and failure of rocks: Griffits theory, Coulombs theory, rheological methods. in-situ
tests on rock mass. Deformation characteristics of rocks, instrumentation and measurement of
deformation of rocks.
Permeability characteristics: interstitial water on rocks, unsteady flow of water through jointed
rock mass.
Analysis of stresses: Mechanical, thermal and electrical properties of rock mass. Correlation
between laboratory and field properties, Thick wall cylinder formulae, Kreish equation, Green
span method. Openings in rock mass and stresses around openings. Pressure tunnels,
development of plastic zone. Rock support needed to avoid plastic deformation. Lined and
unlined tunnels. Underground excavation and subsidence.
Rock mechanics applications: Bearing capacity of homogeneous as well as discontinuous
rocks. Support pressure and slip of the joint. Delineation of types of rock failure. Unsupported
span of underground openings, pillars. Rock slopes. Rock bolting. Plastic mechanics. Tunnels,
shapes, usages, Methods of Construction, Problems associated with tunnels, tunneling in various
subsoil conditions and rocks.
6 GLE 18151 Engineering Geology 3-0-0 6
Engineering Geology, Theory and Practice: Introduction, definition, significance, stages of
engineering geological investigations, geophysical techniques and subsurface.
Geotechnical Classification of Geological Structures and Rocks: Basis, classification,
discontinuities, concept of rocks, rock materials and rockmass.
Geomechanical Properties of Rocks: Strengths, deformation, modulus and Poisson’s ratios.
Jointed Rocks and Geotechnical Characterization: Geotechnical parameters, deformability,
modulus, dynamic properties, seepage and percolations.
Building Stones and Aggregate: Definition, characteristic features, classification of building
stones, classification of aggregates, aggregate cement reaction.
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Influence of Water Bodies: Influence of water bodies on engineering structure developments.
Dams and Underground Structures: Definition, classification dams, tunnels and classification
of tunnels, caverns, storage, defence chambers, waste disposal structures.
Engineering Geological Investigations: Dam and reservoir sites, road alignment,tunnel
caverns, storage and repositories.
Methods of tunnelling: Definition of tunnelling, different kinds of tunnelling methods,
tunnelling techniques, classification of geoground for tunnelling purposes, tunnelling hazards,
instrumentations and support systems.
Foundation Investigations, Preparation and Treatments: engineering geological mapping of
foundation of bridge, dams and buildings, preparation and treatments.
Hazards :Rock burst and bumps, slope stability problems, their predictions and optimum design
of slope (natural slope, foundation and abutments).
Anchoring of Strata and permeability Evaluations: In-situ permeability and determination,
bolts and bolting, grouts and grouting.
Earthquakes and seismicity: Liquefaction, earthquake resistance design of engineering
structures.
Shoreline Engineering Geology: Erosions and slides, Oceanic wave-shore interactions, stability
of shorelines, stability and harbour and port profiles, engineering geological investigations of
instabilities and mitigations.
Practical
1 CEC 18201 Remote Sensing and GIS Practical 0-0-2 2
Study of topographical maps and satellite images, Land-use classification from satellite images,
Digital Image Processing, Preparation of Thematic Maps from Remote Sensing Data, image
corrections, Geo-referencing, DEM, On-Screen Digitization and adding Attributes, Topology,
Geospatial analysis and modelling using ArcGIS, GPS Survey and Plotting.
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