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SWAMI RAMANAND TEERTH MARATHWADA UNIVERSITY, NANDED TEACHING AND EXAMINATION SCHEME FINAL YEAR(CIVIL ENGINEERING) NEW

W.E.F.2011‐2012

S.NO Name of Subject Teaching Scheme

Examination Scheme (Mark)

(Hours/ Week) Paper Test

Term Work Practical Total

PART-I 1 Environmental Engineering 4 80 20 …… …… 100 2 Design of structure-III 4 80 20 …… …… 100 3 Town and Country Planning 4 80 20 …… …… 100 4 Foundation Engineering 4 80 20 …… …… 100 5 Elective-I 4 80 20 …… …… 100 6 Field Training & Presentation 2 …… …… 25 25 50 7 Environmental Engineering (Lab) 2 …… …… 25 25 50 8 Design of structure-III(Lab) 2 …… …… 25 25 50 9 Foundation Engineering (Lab) 2 …… …… 25 25 50

10 Elective-I (Lab) 2 …… …… 25 25 50 Total of Part-I 30 400 100 125 125 750

PART-II 1 Design of structure-IV 4 80 20 …… …… 100 2 Professional Practice 4 80 20 …… …… 100 3 Water Resources Engineering -II 4 80 20 …… …… 100 4 Elective-II 4 80 20 …… …… 100 5 Design of structure-IV (Lab) 2 …… …… 25 25 50 6 Professional Practice (Lab) 2 …… …… 25 25 50 7 Water Resources Engineering -II 2 …… …… 25 25 50 8 Elective-II 2 …… …… 25 25 50 9 Project 2 …… …… 50 50 100

10 Educational Tour 2 …… …… 25 25 50 Total of Part-II 28 320 80 175 175 750

ELECTIVE SUBJECT:

Elective-I Elective-II

I Experimental Stress Analysis I Design of Earthquake Resistance Structures

II Structural Dynamics II Design of Cable Supported Bridges III Ground Water Engineering III Hydropower Engineering

IV Atmospheric Environmental Pollution & Control IV Industrial Waste water treatment

V Construction Management & Equipment V Advance Soil Engineering

VI Advanced Construction Technology VI Advance Engineering Geology

Note:- Minimum two tests should be conducted for each theory subject and average of best two tests should be considered

PART-I

ENVIRONMENTAL ENGINEERING

Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks

A. Water supply Engineering:

UNIT-I 1. Introduction: Necessity and components of water supply scheme. (1 Hr.)

2. Quantity of water: Demand of water for various purposes, factors affecting per capita demand, fire allowance,

variation in demand, population forecasting. (5 Hrs.) UNIT-II 3. Quality of water: Physical, chemical and bacteriological aspects. Comparative study of various sources with

respect to quality and quantity. (3 Hrs.)

4. Sedimentation: Principle, types, coagulants, dosing and mixing, coagulation, flocculation, sludge removal.

(3 Hrs.)

5. Filtration: Classification of filters, mechanism of filtration, modes of operation and operational Problems,

design of rapid sand filter. (3 Hrs.) UNIT-III 6. Disinfection: Chlorination-methods, residual chlorine. (2 Hrs.) 7. Miscellaneous: Aeration, ozonation, Ion Exchange-processes, Reverse osmosis, Electro- dialysis. (2 Hrs.) 8. Distribution: Requirement, methods , distribution systems, types of valves, fire hydrants, pipe testing and

fitting. (3 Hrs.) B. Sanitary Engineering : UNIT-IV

9. Introduction: Sewage, sewerage, sullage, sewerage systems, sewers- materials and shapes, laying,

connecting and testing of sewers. (4 Hrs.) 10. Sewer appurtenances: Manholes, street inlets, flushing devices, traps, inspection chambers. (2 Hrs.)

11. Quality of waste water: Physical, chemical and biological aspects. DO, COD, BOD. (2 Hrs.) UNIT-V

12. Primary treatment: Grit chambers, sedimentation types. (1 Hr.) 13. Secondary treatment: Aerobic and anaerobic method, Trickling filter-mechanism of filtration, modes of operation and

operational problems and remedy, design of TF, Activated sludge process- mechanism, sludge age, sludge volume index, efficiency, aeration, sludge digestion. Oxidation pond. (7 Hrs.)

UNIT-VI 14. Final treatment: Anaerobic treatment-Septic tanks, Disinfection. (3 Hrs.) 15. Effluent disposal: Various methods. (2 Hrs.) NOTE: Numerical are to be asked only on- population forecasting, sedimentation, RSF, TF,

Oxidation pond, Septic tank.

DESIGN OF STRUCTURES- III Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks UNIT- I :

1. Introduction to Limit State Design: Design Philosophies, Types and classification of limit states, Characteristics strength and

characteristic load, Load factor, Partial safety factors, Stress strain behavior of concrete and steel, Idealized stress strain curve. (4 Hrs.)

2. Limit analysis of R. C. structures: Plastic hinge formation, Moment-rotation characteristics, Redistribution of moments, I. S. Code

provisions for limit analysis and procedure of analysis. (4 Hrs.)

UNIT- II :

3. Limit State of Collapse (Flexure): Singly and doubly reinforced sections, Properties of a section according to I. S. code,

design parameters, maximum values, Analysis and design for flexure. (5 Hrs.) 4. Flanged sections: Analysis and design of singly reinforced T – beams and L- beams for flexure. (4 Hrs.)

UNIT- III :

5. Miscellaneous sections: Analysis and design of miscellaneous sections for flexure. (4 Hrs.) 6. Limit State of Collapse (Shear): Shear failure, Factors affecting shear resistance of a R. C. member, Strength of R. C. beams in

shear, Design of shear reinforcement. (3 Hrs.)

UNIT-IV :

7. Limit State of Collapse (Bond): Types of bonds, Factors affecting bond resistance, Check for development length. (2 Hrs.) 8. Limit State of Serviceability (Deflection and cracking): Significance of deflection, Types of deflection, Allowable deflection, Short-term and long-term

deflection, L/D approach, deflection computations, Cracking-causes, mechanism and effects, Classification and types of cracks, serviceability requirements, Remedial measures. (7 Hrs.)

UNIT- V :

9. Limit State of Collapse (Compression and bending): Analysis and design of axially loaded short columns, Analysis under uni-axial bending and axial

compression, stress block parameters, Interaction (Pu-Mu) diagrams, Analysis and design of section, Bi-axial and axial compression, Slender columns design methods (Column design charts of SP-16 to be used). (8 Hrs.)

UNIT- VI :

10. Yield line theory of slabs: Characteristic features of yield lines, Yield line patterns for slabs, Virtual work method and

equilibrium method. (5 Hrs.)

Recommended books:-

1. IS-456-2000

2. Limit state theory and design- Dr. V. L. Shah and Dr. S. R. Karve

3. Reinforced concrete (Limit state)- Dr. A. K. Jain

4. Limit State Design- Dr. Ramchandra

5. R. C. C. Designs- Dr. B. C. Punmia

6. Fundamentals of Reinforced Concrete- Sinha and Roy

7. Design of Concrete structures- J. N. Bandopadhyay

8. SP-16

TOWN AND COUNTRY PLANNING

Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks UNIT-I :

1. Evaluation of Town planning:

Ancient towns in India, Great Britain and other major countries, Pre-mediaeval and later towns. Industrial revolution and effect on town planning, Sanitarium and public health of G.B. town planning and housing Act of G.B. (1909) Utopian Plan for towns, garden cities satellite towns, Barlaw reports (G.B.) and twentieth century. Developments in other Countries and India, post independence problems in India. (8 Hrs.)

UNIT-II :

2. Fundamentals of planning:

National planning, regional planning, local planning, surveys and Data collection for regional and town plans, sources and methods of gathering information, land Use survey population base and projection services and amenities, density and floor space Index, Zoning. (6 Hrs.)

UNIT-III :

3. Urban Transport:

Traffic Engineering – Traffic study, Improvement of traffic facilities, road Intersections and its optimum use. Congestion and parking Traffic Control Devices, refuge Islands, Rapid Transit Systems. (6 Hrs.)

UNIT-IV :

4. Town planning and Industries:

Location of Industries, conurbation, Zoning of industries. Noise, Air pollution, Services Transport and facilities. Town Forms Layout: Circular towns, star shaped Towns, Linear Towns, Radial and Grid Iron Patterns, Treatment for growing towns, consideration of a development plan, Master plan, Layout consideration. Basic elements of a town plan neighborhood unit, standards of housing, Traffic circulation, Tree planting and Land Spacing, Schools, parks and open spaces, medical, Shopping and other facilities, factors limiting, expansion of towns. (8 Hrs.)

UNIT-V :

5. Urban Renewal and Redevelopment :

Problems of slums and improvement, urban explosion and Its problems dilapidated localities, Traffic problems, optimum city population, Ecological and Sociological aspect town planning.

(6 Hrs.)

UNIT-VI :

6. Building Byelaws :

Introduction of minimum plot areas, road width open space, Byelaws of Municipal Corporation applicable to residential and commercial buildings. (6 Hrs.)

REFRENCE BOOKS :

1) The Urban Pattern: City Planning and Design,By Gallion Arthur B., Eisner S., (CBS Pub. and Distributors, Delhi, 1984.)

2) The Text Book of Town Planning, By Bandopadhyay Abir, (Books and Allied (P) Ltd, Kolkata, 2000).

3) Town and Country Planning & Housing,By Modak &Ambdekar( Orient Longman Ltd 1971)

4) Town and Country Planning By M.K.Gandhi

FOUNDATION ENGINEERING Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks

UNIT- I :

1. Bearing capacity :

Theories- Terzaghi, prantial, Balla, Meyerhof, ultimate and safe B.C. Field load test and their limitations. Standard penetration test, local and general share failure: Factors affecting B.C. of soil, methods of improving B.C. of soil. Effect of water table on shape of footing, width of footing, depth of footing and B.C. (6 Hrs.)

UNIT-II :

2. Settlement Analysis:

Cause and control of settlement, immediate settlement consolidation settlement, differential settlement, prediction of foundation settlement from plate load test. Settlement tolerance of Super structures. (4 Hrs.)

UNIT- III :

3. Footings and Rafts :

Design considerations and construction of different types of footings and raft on sand and clays, proportioning of footing for equal settlement, combined footing and cantilever footings.

4. Machine foundation :

Introduction, Basic concepts, definitions block foundations. Degree of freedom of a block, methods of analysis of block foundations, soil spring constants rocking vibrations. (10 Hrs.)

UNIT-IV :

5. Pile Foundations :

Types of piles, their use and functions, timber, pre-cast cast/in city sheet lies, method of piles, method of pile driving, pile driving hammers, effect of pile driving on ground, selection of type of piles determination of length. Design of pile foundation, determination of bearing capacity from theoretical analysis, point bearing, friction, negative skin friction, pile capacity by static and dynamic formula, limitations group action, number and spacing of pile in group under reamed piles. (8 Hrs.)

UNIT-V :

6. Cofferdams :

Types of cofferdams uses and salient features of construction, single well, double well, cellular, design of braced and cellular cofferdams, circular, hand diaphragm type, pumping and sealing of bottom of cofferdam.

7. Wells and caissons:

Types of wells component parts, choice of particular types, design loads scour depth, sinking, frictional resistance for wells, tilting and method of correction of wells, caisson open, box, drilled, pneumatic safety problems, working uses salient construction features. (8 Hrs.)

UNIT-VI :

8. Foundations on block cotton soils:

Characteristic of B.C. soil, foundation problems in black cotton soils, foundation design principles, foundation techniques, dewatering of foundation special features for foundation for towers and tanks. (4 Hrs.)

REFERENCE BOOKS :

1. Foundation Engineering - D.R. Phatak

2. Foundation Engineering - B.J. Kasamalkar

3. Soil Mechanics and Foundation Engineering - B. C. Punamia

4. Soild Mechanics and Foundation Engineering - V.N. S. Murthy

5. Foundation design and construction - Wayne C. Teng.

6. Foundation design - Wayne C. Teng.

7. Soil Mechanics and Foundation Engineering - Bharat Singh

ELECTIVE-I

1- EXPERIMENTAL STRESS ANALYSIS


UNIT-I :

Principle of Experimental Approach :

Introduction, Advantages of Experimental stress Analysis Technique, Necessity for having a number of methods, various methods used in experimental, Stress analysis, Fundamental of stress & strain analysis.

UNIT-II :

Strain measurements & types. Numerical based on strain rosettes

UNIT-III :

Strain rosettes , electrical circuits used for strain measurements, strain indicators, Analysis of strain at a point; measurement of dynamic strains, Galvanometer and Oscilloscope.

UNIT-IV :

Photo elasticity: Basic concepts, model materials and their properties, dimensional analysis, means of application of forces, means of measurement of forces and displacements. Calculations of deflections in Prototypes.

UNIT-V :

Non destructive methods of testing of concrete. Determination of strength and quality of concrete using above methods.

UNIT-VI :

Review of various other Non destructive techniques for determining quality of concrete.

REFERENCE BOOKS :

1. Experimental stress analysis, Dally and Riley

2. Photo elasticity, John Wiley

3. Testing Of Concrete structure, Bungy S.

ELECTIVE-I

2- STUCTURAL DYNAMICS Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks UNIT-I : Introduction to structural dynamic, definition of basic problem in dynamics, static V/s dynamic

loads, different types of dynamic loads UNIT-II : Single degree freedom system, free vibrations, damped free vibrations, critical damping, and

response, dynamic load factor Single degree freedom system, response to impulsive loading, rectangular, triangular pulses, Duhamel Integral. Response to general dynamic loading, Numerical schemes such as constant, linear acceleration

UNIT-III : Multi-degree freedom system, stiffness and flexibility approaches, Lumped-mass matrix, free

vibrations fundamental Frequencies and mode shapes, orthogonality of modes, numerical schemes to find mode shapes and frequencies.

UNIT-IV : Multi degree freedom systems, response to dynamic loading, Formulations of equations of

motion, normal coordinates mode superposition method, modal matrix . UNIT-V : Distributed systems, free vibrations of uniform beams, differential equation and Solution,

boundary conditions, finite element, Ritz approach, free vibrations of simply supported plate. (Transverse vibrations)

UNIT-VI : Introduction to earthquake engineering. TEXTBOOKS : 1. Dynamics of Structures, R.W. Clough and J. Penzian, 2nd edition, McGraw-Hill Inc, 1993. 2. Introduction to Structural Dynamics, J.M. Biggs ,McGraw-Hill Book Co.1964 REFERENCE BOOKS : 1. Vibration Problems in Engineering, W. Weaver, Jr., S. P. Timoshenko and D. H. Young.

Chichester, 5th edition, John Wiley & Sons Limited,1990, 2. Structural Dynamics: Theory and Computation, Mario Paz, 2nd Edition, CBS Publishers, 1987.

ELECTIVE-I

3- GROUND WATER ENGINEERING

Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks UNIT- I :

1. Introduction : Ground water extent and potential in India ,Ground water exploitation method and investigations ,

hydrology, water bearing properties of racks, site selection and spacing of well, infiltration mechanism and curves , water balance budget and equations.

2. Water Storage and Rock Functions : Porosity, void ratio, water retention properties, specific yield, Permeability, Permeameters,

Constant and variable head analysis and equations. UNIT-II :

3. Geological Zones of Saturation: Aeration zones, soil water belt saturation zone, Aquifers, Storage coefficient, water table

fluctuation, Springs. 4. Ground Water Flow : Specific weight, compressibility, head distribution, laminar and turbulent flows, Reynold’s number,

Darcy’s laws and application, Three dimensional flow ,Flow net Analysis, Storage Equations, boundary conditions, Steady flow states, Radial flow of wells, Dupuit’s equations and applications, draw down curves and cone of depression.

UNIT-III : 5. Aquifer Properties : Aquifer tests, Test Measurements, confined aquifers, discharge analysis (Thesis and Jacob’s

methods), unconfined aquifers and flow properties. 6. Well Hydraulics : Types of well and constructions, infiltration galleries, tube well design and dimensions,

maintenance of wells, performance tests, specific capacity, Revitalization of well and maintenance.

UNIT-IV :

7. Ground Water Exploration : Geological and hydrologic methods, electrical resistivity method, Seismic methods, Magnetic

Methods, electrical resistivity method Seismic methods, Magnetic Methods, Gravity Methods, Ratio Metric Methods , Tracer techniques.

8. Modeling : Physical and mathematical models, Finite element method and applications. UNIT-V :

9. Saline Water Intrusion : Saline water Intrusion, Salinity influx in estuaries, Zone of diffusion and interface parameters,

saline zoetic identification, Prevention and control of saline water intrusion. 10. Artificial Recharge : Artificial Recharge & methods, waste water recharge, detention dams, water shed management

techniques , Rain water harvesting.

UNIT-VI :

11. Pumps and Allied Machinery : Discharge rates, demands, flow charts, heads and loses, power requirements. Pumps, types

suitability, Installation and maintenance, power calculations, Flow measurements and metering, Distribution Network.

12. Water Quality, Pollutions and Legislation : Potable water Quality, Sources of pollutions and pollutants, hard water and effects, water salinity

logging, water test parameters, leaching; and soil reclamation, pollution control norms, boards, action plans and legislations.

REFERENCE BOOKS :

1. Ground Water Engineering (Assessment, Development & Management) K.R. Karanth 2. Ground Water : H.M.I. Raghunath 3. Ground Water Hydrology : D.K.Todal 4. Ground Water and Seepage : M.E.Harr 5. Seepage ,Drainage and Flow Nets : H. R. Cedergren 6. Engineering Fluid Mechanics : C. Jaegar

ELECTIVE-I

4- ATMOSPHERIC ENVIRONMENTAL POLLUTION AND CONTROL

Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks UNIT- I :

1. Introduction: Sources, effects on – ecosystems, characterization of atmospheric pollutants, air pollution

episodes of environmental importance. (4 Hrs.) UNIT-II : 2. Meteorology - Composition and structure of the atmosphere, wind circulation, solar radiation, lapse rates,

atmospheric stability conditions, wind velocity profile, Maximum Mixing Depth (MMD), Temperature Inversions, Wind rose diagram. (7 Hrs.)

UNIT-III :

3. General Characteristics of stack emissions, plume behavior. (4 Hrs.)

4. Air sampling & pollution measurement methods –

Ambient air quality and emission standards - Air pollution indices - Air Act. (5 Hrs.)

UNIT-IV :

5. Air Pollution Control equipment for particulate matter & gaseous pollutants : Gravity settling chambers, centrifugal collectors, wet collectors, fabric filters, electrostatic

precipitator (ESP). adsorption, absorption, scrubbers, condensation and combustion. (7 Hrs.)

UNIT- V :

6. Design of Industrial ventilation system: Design of ducts and hoods, measures to check industrial pollution. (4 Hrs.)

7. Indoor Air Pollution – sources, effects and control. (3 Hrs.)

UNIT-VI :

8. Noise : Sources, measurements, effects and occupational hazards. Standards, Noise mapping, Noise

attenuation equations and methods, control measures, Legal aspects of noise. (7 Hrs.)

REFERENCE BOOKS :

1. Wark K ., Warner C.F., and Davis W.T., (1998), “Air Pollution - Its Origin and Control”, Harper & Row Publishers, New York.

2. Lee C.C., and Lin S.D., (1999), “Handbook of Environmental Engineering Calculations”, McGraw Hill, New York.

3. Perkins H.C.(1974), “Air Pollution”, McGraw Hill.

4. Crawford M.,(1976) “Air Pollution Control Theory”, TATA McGraw Hill.

5. Stern A.C., “Air Pollution”, Vol I, II, III.

6. Seinfeld N.J., (1975), “Air Pollution”, McGraw Hill.

7. Stern A.C.(1968), (ed) Vol. V, “Air Quality Management”.

ELECTIVE-I

5- CONSTRUCTION MANAGEMENT AND EQUIPMENT


UNIT- I :

1. Basic concept of management:

Management classification characteristic of Management Importance of Management Development of Management thought functional approach to Management Scientific Management, approach, Human relation approach.

2. Administration and Management :

Introduction Board of Directors Managing Directors Company's secretary commercial manager, Authority and Responsibility Delegations its guidelines, centralization of Authority Def. of Management Duties and responsibilities Def. of Administration duties & Responsibilities. (8 Hrs.)

UNIT- II :

3. Organization :

Duties and responsibilities of organizations principles of good organization Qualities of go organization, Types of Organization, Advantages and disadvantages line or Staff organization & Disadvantages Line staff and Financial Advantages and Disadvantages. (4 Hrs.)

UNIT- III :

4. Site Selection and Layout :

Introduction, location selection of actual site, selection of site in city, selection of site in rural area, Single storey and Multistory Building, Factory Layout factors affecting layout.

5. Plant Layout :

Definition of plant layout, Main objective of scientific layout, Principles of plant layout, Symptoms of bad layout, factors influencing layout. Methods of layout, stability Advantages and disadvantages. (8 Hrs.)

UNIT- IV:

6. Elements of Costing :

Introduction, calculation of Material cost calculation of direct labor cost, fixed and variable overhead, components of cost, selling price, examples of overhead. (4 Hrs.)

UNIT-V :

7. Operation Research :

Introduction, Definition, various phase in O.R. study. method of making decision by OR Scope, Applications of OR Method used in O.R. (4 Hrs)

UNIT- VI :

8. Construction Equipments :

1. Introduction, Planning and selection of equipment, Mechanical Operation in construction.

2. Earth Moving Equipments. Its Advantage Disadvantages working (Drawing, Clammiest Bulldozer Power shovel Back Hoe, Scraper only).

3. Hoisting Equipments - Its working (Derrick and Gantry cranes and advantages and disadvantages only).

4. Hauling Equipments - Introduction only (Track Trailer Wagon).

5. Pile and pile driving Equipments- operation and advantages disadvantage.

6. Tunnel Boring Machine - Operation - Advantages and disadvantages.

7. Equipment used in Highway construction.

8. Belt conveyor. (12 Hrs)

REFERENCE BOOKS :

1. Industrial organization and engineering economics by T.R. Banga, S.C. Sharma.

2. Industrial organization and Management by O.P. Khanna.

3. Construction Planning Equipments and methods by Robert L. Purify.

4. Construction Equipments and its Planning and Applications by Dr. Mahesh Verma.

5. Construction Management Practice by Dr. V. K. Raina Shroff Publishers & Dist. Pvt. Ltd.

ELECTIVE-I 6- ADVACED CONSTRUCTION TECHNOLOGY


UNIT- I

Study of Equipment, Techniques & Methods used in Slip form and other Modern form working techniques, Tunneling, Chimney and cooling tower, Piling, Underground and Underwater Concreting, Grouting, Trench less technology, Fast track construction techniques, Mechanization in construction, High-rise construction etc. Problems faced in above processes and solution sought.

UNIT- II

Concrete technology (Ingredients, Special cements, Pumping, RMC, Mix design, Testing, Quality control) IS code provisions and ISO procedures.

UNIT- III

Steel structure and Heavy erection.

Temporary Structures and formwork systems.

UNIT- IV

Basic methods in foundation engineering.

Soil stabilization and compaction methods.

UNIT- V

Pre-casting techniques - Planning, analysis and design considerations - Handling techniques -Transportation Storage and erection of structures.

Pre-cast and pre-fabricating technology for low cost and mass housing schemes. Small pre-cast products like door frames, shutters, Ferro-cement in housing - Water tank service core unit

UNIT- VI

Repair Construction: Mud jacking grout through slab foundation-micro piling for strengthening floor and shallow profile-pipeline laying protecting sheet piles, screw anchors-sub grade water proofing under pining advanced techniques and sequence in demolition and dismantling

REFERENCE BOOKS :

1. Construction Management Practice by Dr. V. K. Raina Shroff Publishers & Distributors Pvt. Ltd. 2. A to Z by Mantri (Standard Publication) 3. Jerry Irvine, " Advanced Construction Techniques ", CA Rocketr, 1984. 4. Konex.T., Handbook of Pre-cast Construction, Vol..1.2&3. 5. Lewicki.B., Building with Large Pre-fabrications, Elsevier Publishers. 6. Robertwade Brown, " Practical foundation engineering hand book ", McGraw Hill Publications,

1995.

FIELD TRAINING & PRESENTATION

Term work: 25 Marks

Practical/oral: 25 Marks

The basic objective of this Field Training Programme is to expose the students to gain direct first-hand experience with the actual civil engineering work processes as Surveying , Marking out, Excavation, Mixing, Quality control, Reinforcement binding, Measurements, Use of TPEs, Construction machinery, Curing, Centering etc. It is intended that the students understand how theoretical aspects and equations are put into actual action in the form of field activities. In this light following exercise assignments are required to be covered by engaging students at actual work sites.

1. Marking out building plan on field. 2. Centering details in high rise buildings. 3. Reinforcement details of RCC slab work and cross check. 4. Bridge pier excavation and bed concreting. 5. PCC road pavement work. 6. Plumbing accessories and techniques. 7. Pipe line laying work and jointing. 8. Measurements , units and rates for important raw materials. 9. Set of documents for new construction works. 10. Bank loans , processing and repayment details.

ENVIRONMENTAL ENGINEERING LABORATARY

Practical: 2 Hrs/Week Term work: 25 Marks

Practical/oral: 25 Marks

TERM WORK : (Any six from the following)

1. pH and Alkalinity 2. Turbidity 3. Study of flame photometer 4. Jar test 5. Chlorides and sulphates 6. Conductivity 7. Solids: total, dissolved, volatile and fixed 8. Dissolved oxygen 9. C.O.D. 10. B.O.D.

Additional: Visit to water treatment plant (Report to be submitted)

PRACTICAL EXAMINATION: An oral shall be based on the syllabus of environmental engineering.

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DESIGN OF STRUCTURES III LABORATORY

Practical: 2 Hours per week Oral Examination: 25 Marks

Term work: 25 Marks

Term work:

Term work shall consists of 10 assignments based on above syllabus.

Practical examination:

It consists of oral examination based on the above term-work.

FOUNDATION ENGINEERING LABORATORY


Term work: 25 Marks

Term work :

Term work based on the experiments listed below.

1. To identify subsoil strata by conducting soil resistivity/ seismic refractory method

2. To determine the bearing capacity of soil by conducting standard penetration test.

3. To determine the soil characteristic by conducting standard penetration test.

4. To determine the soil properties by conducting static cone penetration test.

5. Computation of bearing capacity by Analytical approach to verify with field test.

6 Determination of free swell index

7. Design of raft foundation for a given data.

8. The study of plate load test.

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ELECTIVE –I LABORATORY

1- EXPERIMENTAL STRESS ANALYSIS


Term work: 25 Marks

Practical : - (1) Demonstration Experiments on Non- Destructive testing of concrete.

(2) Non destructive testing of concrete for properties other than strength.

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2- STUCTURAL DYNAMICS


Term work: 25 Marks

Minimum five analytical numerical should be performed amongst the list given below: 1. Dynamics of a three storied building frame subjected to harmonic base motion. 2. Dynamics of a one-storied building frame with planar asymmetry subjected to harmonic base

motions. 3. Dynamics of a three storied building frame subjected to periodic (non-harmonic) base motion.

4. Vibration isolation of a secondary system. 5. Dynamics of a vibration absorber. 6. Dynamics of a four storied building frame with and without an open ground floor 7. Dynamics of one-span and two-span beams. A Report based on above shall be submitted by each student.

Practical Examination;

Practical examination shall consist of oral examination based on Report.

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3- GROUND WATER ENGINEERING


Term work: 25 Marks

Term Work :-

1. Exercise on Ground water quality parameters , pollution sources and remedial measures. 2. Exercise on bore well drilling method (working, sketch, Parts, Drilling, stages, precautions, Flow

measurements and billing) 3. Exercise on pumps, capacity, selections cost analysis, installation and maintenance. 4. Exercise on ground water pollution control norms, pollutions boards and legislations. 5. Exercise as a case study on water, shed management scheme. 6. At least ten sketches of basic figures of the course.

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4- ATMOSPHERIC ENVIRONMENTAL POLLUTION AND CONTROL


Term work: 25 Marks

Term Work :-

It consists of determining particulate contents, smoke dust and grit, carbon monoxide, oxides of nitrogen, carbon di oxide, ammonia,

Assignments to be submitted on design of one air pollution control equipment and Industrial ventilation system


5- CONSTRUCTION MANAGEMENT AND EQUIPMENT


Term work: 25 Marks

TERM WORK :

Assignment related to above topics.

Drawing of a typical plant layout.

Drawing Plates of different construction equipments.

A visit to major construction work and a report there of.


6-ADVACED CONSTRUCTION TECHNOLOGY LABORATORY


Term work: 25 Marks

Term work :

Term work shall consist of assignments and solution of problems based on the above syllabus. ---------------------------------------------------------------------------------------------------------------------

PART-2

DESIGN OF STRUCTURE-IV

Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks Design & detailing of the following structures by limit state Theory.

Note:- IS 456-2000 & IS -1343 will be allowed to use in Theory Examination .

UNIT- I Design of Combined rectangular footing . Design of trapezoidal & Strap footing . UNIT- II Design of Flat slab ( Direct Design Method ). UNIT- III Liquid retaining structures, Rectangular & Circular Ground water tanks , Overhead tanks including Intz tank .(including supporting Structure ) UNIT- IV Introduction to prestressed concrete ,advantages & disadvantages , Different methods & systems

of prestressing , materials , properties of high strength steel and high grade concrete. UNIT- V Losses of Prestress :- Loss due to elastic shortening of concrete ,creep of concrete , shrinkage of

concrete loss due to anchorage , slip , factors affecting losses and their computation. UNIT- VI Analysis & design of Simply supported prestressed concrete section for flexure including end

block analysis of prestressed concrete continuous beams.

Reference Books :-

1. IS 875,3370,1343 ,456 (revised ) SP34,SP16. 2. R.C.C.Design :-Dr.B.C.Punmia ,Ashok Kumar Jain,Arun Kumar Jain. 3. Design of R.C.Structures :- Varirani & Ratwani 4. Design of R.C.Structures :- S.Ramamurtham 5. Fundamentals of R.C.C. :- N.C.Sinha & S.K.Roy 6. Limit State Design :- Dr.Ramchandra 7. Limit State Theory & Design of R.C.C.:- Dr.S.R.Karve & V.L.Shah 8. Reinforced Concrete :- A.K.Jain 9. Prestressed Concrete :- N.Krishna Raju 10. Design of Prestressed Concrete Structure :- T.Y.Lin

PROFESSIONAL PRACTICE


UNIT-I 1. INTRODUCTION:

Professional practice as career ; modes of measurements of civil engineering works ; Details and formats in English & PWD methods of measurements; Methods of taking – out quantities; Introduction to IS 1200 (Rev) & details ; Units of measurements; Least counts (errors & accuracy margins) Prime cost: Provisional sum ; Provisional quantities. (4Hrs.)

2. APPROXIMATE ESTIMATES:

Meaning; Necessity; General principles; Methods of preparing approximate estimates for buildings, roads, bridges, water supply schemes, drainage schemes, retaining walls etc. (3 Hrs.)

UNIT-II 3. DETAILED ESTIMATES:

Rules of measurements; Error margins & degrees of accuracy ; Uses of estimates; Essentials of an estimator; Requirements of an estimator, Estimates of septic tank, band –stand , RCC ring well, steel-truss roof, earthen dam, plumbing works, RCC elements , canals, cycle – shed, roads, bridges, earth- works. (7Hrs.)

UNIT-III 4. SPECIFICATIONS:

Meaning; Uses & objectives; Types; Detailed Specifications; Provisions & classification; Principles of writing specifications, Drafting detailed specifications – samples (Civil Engg. works)

(4 Hrs.)

5. RATE ANALYSIS:

Purpose; Factors affecting rate analysis; Task work; Schedules of rates; Catalogues; D.S.R.; AISSR; Labour wages; Thumb rules for reinforcement; Traditional ratios of concrete; Volume reduction theories; Leads and lifts; Batching; Rate analysis- samples (Civil Engg. works). (5 Hrs.)

UNIT-IV 6. CONTRACTS :

Meaning; objects; Various conditions and categories; Contract documents; Labour laws & patent rights, Agencies involved in construction industry ; Role of engineer in organizations ; Role of architect ; Essentials of valid contracts ; Termination & breach of contracts ; Arbitration ;

Damages ,Responsibilities of owner & contractor ; Forms & types of contracts(lump sum ,unit price ,cost plus) ; Labour contracts ; Negotiated contracts ; demolition contracts. (7Hrs.)

UNIT-V 7. TENDERS:

Meaning; Categories; Tender notice; Notification in press and media; N.B.C.; Corrigendum; Preparation & submission of tenders, Tenders form & information; E.M.D. & S.D. objectives; Revocation of tenders; Unbalanced tenders; Opening of tenders; Scrutiny of tenders; Acceptance of tenders. (4Hrs.)

8. VALUATION:

Meaning; Purpose; Cost, price and value; Values forms and terms; Property forms; Property holdings; Leases; Depreciation; Methods of cost depreciation; Incomes and outgoings; Sinking fund and parameters; Year`s purchase; Capitalized value; Building valuation. (4 Hrs.)

UNIT-VI 9. GOVT PROCEDURE FOR WORK EXECUTION:

Work classification; Administrative approval & technical sanction; Bills; Measurement books; N.M.R.; Accounts of works, stores, plants; M.A.S. account; Daily diary; Daily work. (4 Hrs.)

10. PROPERTIES & ESTATES :

Meaning; Mortgages; Amortization; Deals of property; Registration; Sale deed; Formation of co-operative housing societies; Building bye-laws and Municipal norms; N.A. concept; Loans; Repayments; E.M.I.; Apartment acts; Mathematics of finance; Banking finance terms; New construction works and documents; Real estates. (4Hrs.)

REFERENCE BOOKS :

1. Estimation and Costing – S.C.Rangawala 2. Estimation and Costing (Civil Engineering) – B.N.Dutta 3. Civil Engineering Contracts and Estimates – B.S.Patil 4. Estimation , Costing and Valuation – N. Chakraborty.

.

WATER RESOURCES ENGINEERING –II


UNIT-I :

1. Planning of reservoirs :

Types, investigations selection of site, fixing various control levels, find capacity of reservoir, economic dam height, reservoir sedimentation, calculations of life of reservoir.

Various factors such as physical, economic, environmental and ecology aspects for planning a water resources project. Collection of data and selection of project plan. (4Hrs.)

UNIT-II

2. Dams :- Types, selection of site for dam, choice of a dam. 3. Gravity Dam :- Forces acting on gravity dam, elementary and practical profile of gravity dam,

modes of failure and stability analysis, principal stress and shear stress acting on gravity dam. Limiting height of gravity dam. Joints, keys, water seals and galleries of gravity dam. Grouting and dam outlets

4. Arch dam and Buttress dam :- Types, Suitability, forces acting on arch dam and buttress dam. Comparison of arch dam and buttress dam. (7Hrs.)

UNIT-III

5. Embankment dam :

Types, Causes of failure, seepage control measures, design of earthen dam in seismic zone, Location of pheratic line, seepage and its estimation, cross section of earthen dam and its choice, arrangement of drain, maintenance of earthen dam. Stability analysis (A brief Discussion).

(6Hrs.)

UNIT-IV

6. Spillway :- Types, Suitability and components 7. Spillway Gates :- Types and Suitability 8. Energy dissipation below spillways :- Various methods and I-S- recommendations (6Hrs.).

UNIT-V

9. Canal head works :- Types, purpose & components of diversion head works. 10. Weir and barrages :- Comparison, Types of weir, causes of failure of weir and remedies. 11. Design of weir :- By Bligh’s and Khosla’s theory, limitations of Bligh’s theory.

12. Canals :- Types, cross-sections, Balancing depth and economic section, canal lining- types and its necessity. Design of canal by Kennedy’s and Lacey’s theory. (6Hrs.)

UNIT-VI

13. Canal Structures :- Cross drainage works and canal regulatory works- aqueduct, super passage, level crossing, cross and head regulators, their purpose and hydraulic design. Canal fall, canal escape and canal outlet and its purposes.

14. River training works :- Types and objectives. Application of remote sensing in water resources projects. Augmentation and conservation of water resources. (7Hrs.)

TEXT BOOKS

1. Dr. P.N. Modi :- Irrigation, Water Resources and Water Power Engineering 2. S.K. Garg :- Irrigation and Water Power Engineering . 3 Michael A.M. Irrigation Theory and Practice. REFERENCE BOOKS:

1. Dr.Arora K.R. :- Irrigation Engineering. 2. Dr. Punmia B.C. :- :- Irrigation and Water Power Engineering . 3. Engineering for dam Vol- I, II and III. Justin , Creager and Hinds 4. Design of Small dam :- U.S. B.R. , Oxford and IBH publication . 5. Design of canal :- Circular of government of Maharashtra (8th Feb. 1995) 6. Varshney R.S. Theory of Irrigation Structures Vol- I & II 7. K.B. Khushilani :- :- Irrigation Engineering. 8. G.L. Asawa :- :- Irrigation Engineering.

ELECTIVE-II

1. EARTHQUAKE RESISTANT DESIGN OF STRUCTURES Teaching Scheme: Examination Scheme: Lectures 4 Hours per week Theory Paper: 80 Marks Unit Test: 20 Marks

UNIT-I: Engineering Seismology, Elastic rebound theory, Theory of plate tectonics and movement of Indian plate. Seismic waves. Seismic intensity, Richter scale, Tsunami. Seismic zoning maps of India and comparison study. Response spectra. Strong motion characteristics. (7Hrs.) UNIT-II: Earthquake effects on the structures, classification of loads, Seismic methods of analysis, seismic design methods. Seismic damages during past earthquakes and effect of irregularities and building architecture on the performance of RC structures. Mathematical modeling of multi storeyed RC buildings with modeling of floor diaphragms and soil-foundation, Winkler model. (8Hrs.) UNIT-III: Design of multi-story RC structure with foundation as per latest IS: 1893 by Equivalent static lateral load method and Response Spectrum Method. Introduction to Time history method. Capacity based design of soft story RC building, design of Shear Walls. Ductile detailing as per latest IS:13920. (8Hrs.)

UNIT-IV: Seismic design of multi-storied steel structures with various bracing systems. Lateral load analysis and design of two- storied masonry buildings. p-delta analysis. (7Hrs.) UNIT-V: Seismic design of Elevated RC Circular Water Tanks, Ductility requirements, Types of ductility, Factors affecting ductility. IS code provisions. (8Hrs.)

UNIT-VI: Seismic retrofitting, Sources of weakness in RC framed buildings, Classification of retrofitting

techniques, Conventional and non-conventional methods, Comparative study of various methods and case studies. Introduction to base isolation systems, I. S. code provisions for retrofitting of masonry structures, failure modes of masonry structures and repairing techniques. (8Hrs.)

REFERENCE BOOKS: 1. P. Agarwal and M. Shrikhande, Earthquake Resistant Design of Structures, Prentice-Hall

Publications.

2. IS: 1893: Indian Standard Criteria for Earthquake Resistant Design of Structures, Bureau of Indian Standards, New Delhi.

3. IS: 13935: Repair and Seismic Strengthening of Buildings Guidelines, 1993

4. IS: 4326: Earthquake Resistant Design and Construction of Buildings Code of Practice, 1993

5. IS: 13828: Improving Earthquake Resistance of Low Strength Masonry Buildings, 1993

6. IS: 13827: Improving Earthquake Resistance of Earthen Buildings, 1993

7. IS: 13920: Ductile Detailing of Reinforced Concrete Structures Subjected to Seismic Force, 1993

8. IS: 3370: Indian Standard code of practice for concrete structures for storage of liquids, Bureau of Indian Standards, New Delhi.

9. Clough and Penzin, Dynamics of Structures, Mc-Graw Hills Publications.

10. Jai Krishna, A.R. Chandrashekharan and B Chandra Elements of Earthquake Engineering, South Asian Publishers Pvt. Ltd.

11. Joshi P S et al. – Design of Reinforced Concrete Structures for Earthquake Resistance Published by Indian Society of Structural Engineers, 2001

ELECTIVE-II 2. DESIGN OF CABLE SUPPORTED BRIDGES

Teaching Scheme: Examination Scheme:

Lectures 4 Hours per week Theory Paper: 80 Marks

Unit Test: 20 Marks

UNIT-I 1. Introduction : Features of Cable Supported Bridges - Historical Sketch of Modern Cable Supported Bridges -

Loads on Bridges- Dead loads -Live loads -Design live loads in India-Recent developments in bridge loading -Longitudinal forces on bridges -Wind loading -Thermal forces -Other loads on bridges -Load combinations. (7Hrs.)

UNIT-II 2. The Cable Structural Cables -Steel Wires - Basic Feature of Wire Cable - Types of Bridge Cables - End

Fittings of Cable - Corrosion Protection - Use of Composite Materials -Form of the Cable for any Loading –Parabolic Cable-Catenary-Statics of Cables- Deformation of the cable. (8Hrs.)

UNIT-III 3. Suspension Bridges Layout of Structural System - Analysis of Suspension Bridges- Classical Theories - Design

Procedure-Loads-Deck-Hangers-Main cable-Pylon-Anchor block – Erection. (8Hrs.) UNIT-IV 4. Cable Stayed Bridges Layout of Structural System - Configuration and Design of Structural Components-Deck-Stays-

Pylon- Erection. (8Hrs.) UNIT-V 5. Pedestrian Cable Bridges General-Method of design-Design of Ropeways. (8Hrs.) UNIT-VI 6. Parametric Study of Cable Supported Bridges Influence of Deck Inertia, Hangers and End conditions of Deck for Suspension Bridges- Influence

of Deck Inertia, Stays and End conditions of Deck for Cable Stayed Bridges- Comparison of Suspension and Cable Stayed Bridges. (7Hrs.)

REFERENCE BOOKS: 1. A Practical Treatise on Suspension Bridges- Steinman D. B., Kessinger Publishing, LLC, 2010 2. Cable-stayed Bridges: Theory and Design- Troitsky M. S. , Crosby Lockwood Staples. 3. Cable-stayed Bridges: Rene Walther- Thomas Telford Publishing, London 4. Stress Ribbon and Cable supported Pedestrian Bridges- Strasky J., Thomas Telford Publishing,

London. 5. Cable Stayed, Supported and Suspension Bridges-Dayaratnam P.,Universities Press(India) Ltd.,

Hyderabad.

ELECTIVE-II

3. HYDROPOWER ENGINEERING

Teaching Scheme: Examination Scheme:

Lectures 4 Hours per week Theory Paper: 80 Marks

Unit Test: 20 Marks

UNIT-I 1. Introduction – Energy forms and sources; History of hydropower in India; Merits and demerits of hydropower

system & explanation; Load ; Load Curve ; Power ; Definition; Equations; Units and Conversions; Load Curve ; Flow and power duration curves and construction; Position of hydropower in power system ; Estimation of hydropower potential. (5Hrs.)

2. Loads on Hydro Turbines – Load Curve; Load Factor; Capacity Factor ; Demand Factor ; Utilization Factor; Power Factor;

Graphical Representation of Power Forms; Load Duration Curve; Power Forms; Primary and Secondary Power. (4Hrs.)

UNIT-II 3. Hydro Power Plants – Detailed Classification and Features ; Reservoir Prime levels and storage; Flow and Power

Duration Curves ; Sub types of Hydro Power Plants; Pondage; Reservoir Capacity; Components and Appurtenances of Hydro Power Plants and various types. (7Hrs.)

UNIT-III 4. Pressure Shafts – Meaning & classification ; Methods of support ; Exposed and buried penstocks ; Features ; Merits

and demerits ; Design criteria ; Shell thickness ; Economical diameter ; Economical diameter methods ; Anchor blocks ; Design methods ; Forces in action on anchor Blocks ; Stability conditions ; Operating conditions ; Conduit and valves ; Functions ; Types ; Classification ; Bends and manifolds ; CRF and significance. (6Hrs.)

UNIT-IV 5. Pumped Storage Plants – Basic principle ; Hypothetical load curve ; Historical development ; Advantages and

disadvantages ; Layout arrangements ; Two and three unit system plants ; Merits and demerits of two and three unit plants ; Reversible pump turbines ; Operational problems ; Cavitation ; Equations, settings and remedies ; Plant efficiency ; Plants in India. (4Hrs.)

6. Surge Tanks – Meaning; Classification & explanation; Surge tanks explanation; Elastic and rigid water column

theories; Pressure wave and celerity; Hydraulic design of simple surge tank; Need; Minimum sectional area; Inertia constant; Intakes; Losses; Air entrainment and inlet aeration; Equations.

(4Hrs.)

UNIT-V 7. Hydro Turbines – Types; Classification; Layouts and arrangements; Specific speed; Significance; Equations; Draft

tubes; Functions; Classification; Cavitation; Cavitational problem; Turbine setting; Governing and methods ; Velocity triangles ; Turbine characteristics. (4Hrs.)

8. Tidal Power Plants – Basic principle; Developments; Site locations; Tidal power plants – operational difficulties;

Components; Modes of generation; Estimation of tidal power energy; Damage control; T.P. sites in India. (3Hrs.)

UNIT-VI 9. Power House Planning – P.H. structure; Components; Basic types; P.H. types; Location arrangements; Surface and

underground power houses; Suitability and features; Power house dimensions; Layouts and types; Electro-mechanical equipments. (4Hrs.)

10. Future of Hydro Power – Potential sites in India; Project clearance; Environmental problems; Environment impact

assessment; Funds and gestation periods; Associated disasters; Multipurpose; projects; Transmission schemes; Problems and performance of H.P. Plants. (3Hrs.)

REFERENCE BOOKS 1. Water Power Engineering – M.M. Dandekar & K.N.Sharma 2. Water Power Engineering – Deshmukh 3. Hydro Power Structures – R.S.Varshney

HAND BOOKS 1. Hydro Electric Engineering Practice – J.G.Brown 2. Hydro Electric Practice – Creager & Justin 3. Water Power Development (Vol. – I, II & III) – E.Mosonyi 4. Hydro Electric Stations – I.I.Ilynykh 5. A Handbook on Hydrology – Ven Te Chow

ELECTIVE-II 4. INDUSTRIAL WASTEWATER TREATMENT (IWWT)


UNIT-I

1. Introduction: Types of industries, characteristics of Industrial wastes, effects of industrial effluents on streams,

land and human health. (3Hrs.) 2. Effects of Industrial Wastes On sewerage system and sewage treatment plants and receiving water bodies. Effects of waste

additions on physical and chemical properties of soil. (3Hrs.)

UNIT-II

3. Effluent standards and receiving water quality standards. Different aspects and choices of various disposal alternatives (3Hrs.) 4. Industrial Waste survey Process flow charts, condition of waste stream. Material balance, Sampling – Grab, Composite

and integrated samples. Continuous monitoring – pH, Conductivity, Biomonitoring. (5Hrs.)

UNIT-III

5. Pretreatment of Industrial Wastewater Volume reduction, Strength reduction, Neutralization, Equalization and Proportion, Removal of

Organic and inorganic dissolved solids. (6Hrs.)

UNIT-IV

6. Wastewater Treatment in specific industries: Distillery, Sugar, Pulp and paper, Cement, Textile, Dairy, Fertilizer, Pesticides, Pharmaceutical. (7Hrs.)

7. Radio Active Wastes treatment Low activity and high activity radiation, application of radioactive techniques for wastewater

treatment. (4Hrs.)

UNIT-V

8. Complete treatment system & disposal for industries: Distillery, Diary, Textile, paper and pulp mill to meet P.C.B. norms. (3Hrs.)

UNIT-VI

9. Environmental Auditing: Introduction, Cost of Pollution, Environmental audit solutions, Financial and Managerial

opportunities. Criminal and Regulatory liabilities (6Hrs.)

REFERENCE BOOKS:

1. Nemerow N.N., (1971) – “Liquid Waste of industry theories, “Practices and Treatment. Addison Willey New York.

2. Azad N. S.,– “Industrial Wastewater Management Hand Book” McGraw Hill book Co., Newyork.

3. Ross R.D. (1968)– “Industrial Waste Disposal”, Reinhold Environmental Series – New York.

4. Dickinson(1974)- Practical Waste Treatment and Disposal Applied Science publication, London.

5. Mahajan (1984) –” Pollution control in Process industries”. TMH, New Delhi.

6. Eckenfelder(2000)- “Industrial Water pollution Control”- McGraw hill Company, New Delhi American Chemical Society, Washington D.C. USA

7. Bioremediation books

ELECTIVE-II 5. ADVANCE SOIL ENGINEERING


UNIT-I

Definition of Soil, Geological cycle of formation of soil, differences in behavior of soil and other engineering materials.

Common clay minerals, development of plasticity in soils, significance and range of index properties of coarse and fine soils. Empirical connection of index properties with engineering parameters. Common soil deposits in Maharashtra and their typical characteristics. Problems of black cotton soil. (7 Hrs.)

UNIT-II

Mechanism of consolidation, consolidation test, determination of field compression index for normally and over consolidated soils, coefficient of consolidation and its determination. Calculation of settlements, calculation of time rate of settlement.

Three dimensional consolidation, design of sand/rope drains. (7 Hrs.)

UNIT-III

Flow of water through saturated soil- permeability, derivation of Poiseuille’s law and discussion of factors affecting permeability. Flow nets, quick conditions, flow of water in unsaturated form.

(6 Hrs.)

UNIT- IV

Mohr-coulomb equation, determination of shear strength, Behavior sands under shear, dilatancy, behavior of clays under shear, pore pressure coefficients and their use.

One equipment each for determination of strength- deformation under plane strain and truly triaxial stress. Failure theories and criteria One simple derivation for strength in plane strain, strength in three dimensional stress field.

Concept of stress path, typical stress path plots, uses of stress path. (7Hrs.)

UNIT- V

Earth pressure exerted by cohesion less and cohesive soils under different loadings.

The design of retaining walls and their stability curves, effect of ground water, selection of shear strength parameters, analytical and graphical methods. (7Hrs.)

UNIT- VI

Introduction to rock mechanics- Difference in behaviour of rock and soil, physical properties of rock, classification of rock, mechanical properties of rock, in-situ stress in rock behaviour of rock in triaxial compression. (6 Hrs.)

Text Books and References:

1. Lambe and Whitman – Soil Mechanics.

2. Means and Parcher – Physical properties of soils.

3. Bowles – Soil Mechanics

4. Chem – Foundations on expansive soils.

5. R.K.Katti- Behaviour of saturated expansive soil.

6. Alam Singh – Soil Engineering.

ELECTIVE-II 6. ADVANCED ENGINEERING GEOLOGY


UNIT-I Study of Rock information of Maharashtra from Civil Engineering Point of view .Field characters

of Basalt flow and older formation which are significant from Dam foundation , percolation tank and construction material.

UNIT-II Geology and Dam & Reservoir : Bearing capacity and water tightness of different types of rock occurring in Maharashtra from

construction of gravity. Dams with case histories of different dam sites in Maharashtra where geological problems were encountered & remedical measures were adopted.

Geology of Tunnel Alignments : Geological factors responsible for overbreaks and percolation of water various geological structure which effects the tunneling works case histories of the tunnels of hydroelectric projects . Roads ,railways and Canals driven through different basaltic and other Rocks and through different types of geological structures.

UNIT- III Problems of Tail channel Erosion : Set of Geological conciitions , which lead to tail channel erosion with case historie of different

dam site. UNIT-IV Ground Water Studies : Water bearing characters of different types of Rock . Method of artificial recharge and

underground bandhara. UNIT-V Construction Material : Properties of different types of rocks that can used as rubble for Mansonary, road,Metal, Railway,

ballast concrete aggregate etc. Scarcity of sand in Deccan trap region ,suitability of compact and Amygeoidal basalt as substitute of sand after costing .

Rock Mechanics : Rock substance ,mechanical properties, Discontinuties, Ground water, Structural Geology, Rock

characterstics. Behaviour of Rock and soil : Stress and strain cohesion and fraction failure .Influence of fabric, Elastic modulation.

UNIT- VI Aerial Photo Interpretation: Interpretation of aerial photos from the point of view of rock types geological structure selection of

dam sites , Alignment of road ,railways and hill roads etc. Geological Exploration : Principle of electrical Resistivity survey its utility for determining the depth of over burden,

foundation grade rock , Inner gullies and other geological structure by giving case histories dam and tunnels .

Test Books:

1. A Geology for Engineers. - F.G.H.Blyth , M.D.de-freitas.

2. Geology in Civil Engineering - Legget and Karrow

3. A text book of Geology - R.B.Gupte

DESIGN OF STRUCTURE-IV LABORATORY


Term work: 25 Marks

Term Work :-

The term Work shall Consist of

1. Analysis and Design of Multistory Buildings .(G +3) ; Imperial size drawing sheets Hand drafted or AUTO CAD drafter or ammonia prints covering details of different structural components .

OR 1. Design & drawing of Elevated water Tanks including supporting structures. 2. Design and Drawing of Flat slab. 3. Design and drawing of PSC simply supported girder with end block.

Practical Examination :-

It shall consist of an Oral examination based on the above syllabus.

PROFESSIONAL PRACTICE LABORATORY


Term work: 25 Marks

Term Work

1. Procedural report for new construction work and documents. 2. Detailed specifications (Ten samples) 3. Rate analysis (Eight samples) 4. Detailed estimate : Bullock cart bridge. 5. Detailed estimate : Steel truss roof. 6. Detailed estimate : Plumbing of a building. 7. Detailed estimate : G+1 Building.

Practical Examination : It shall be based on the Oral Examination on term work

WATER RESOURCES ENGINEERING –II LABORATORY


Term work: 25 Marks

Term Work

It Consists of at least 08 assignments from the following:

1) Find capacity of reservoir by mass curve method. 2) Fix various control levels for an earthen dam. 3) Stability analysis of gravity dam. 4) Theoretical and practical profile of gravity dam. 5) Location of phreatic line, drawing flow net and estimation of seepage, for an earthen dam. 6) Design of an ogee spillway by W.E.S. method. 7) Design of canal by Kennedy’s and Lacey’s theory 8) Design of a C.D. works. 9) Design of weir by Bligh’s creep theory. 10) Reservoir routing by trial and error method. 11) A Report after visit to a dam/ C.D. Works/ Canal Structures

Practical Exam

It Consists of oral exam based on above term work.

ELECTIVE-II LABORATORY

1.EARTHQUAKE RESISTANT DESIGN OF STRUCTURES


Term work: 25 Marks

Term work:

Term work shall consist of 10 assignments based on above syllabus.

Practical examination:

It consists of oral examination based on the above term‐work.

‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐


2. DESIGN OF CABLE SUPPORTED BRIDGES


Term work: 25 Marks

Term work: Term work shall consist of 10 assignments based on above syllabus. Practical examination: It consists of oral examination based on the above term-work.


3. HYDROPOWER ENGINEERING Practical: 2 Hours per week Oral Examination: 25 Marks

Term work: 25 Marks

TERM WORK

1. Analytical solution for economical diameter of penstocks. 2. Hydraulic design of simple surge tanks. 3. Power house complex : Dimensions, components and arrangements. 4. Salient features of an existing HPP. 5. Neat sketches : At least ten basic figures of the course.

Practical Examination : It shall be based on the Oral Examination on term work.


4.INDUSTRIAL WASTEWATER TREATMENT (IWWT)


Term work: 25 Marks

TERM WORK:

Assignments to be submitted on each topic. Also report to be prepared on industrial visit with respect to above syllabus

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5.ADVANCE SOIL ENGINEERING Practical: 2 Hours per week Oral Examination: 25 Marks

Term work: 25 Marks TERM WORK:

Term work shall consist of assignments and solution of problems based on the above syllabus. --------------------------------------------------------------------------------------------------------------------------------------------

ELECTIVE-II LABORATORY 6.ADVANCED ENGINEERING GEOLOGY

Practical: 2 Hours per week Oral Examination: 25 Marks Term work: 25 Marks

Term Work :

Construction of sub-surface Geology on L-section from given drill hole data Interpretation of the plotted data from the point of view of depth of foundation grade rock ,leaky zones , in case of dam ,sites and major zones of over breaks , roof collapses and percolation of water in case of tunnels and stability of hill slopes.

Geological survey studies of aerial photographs statistical methods for representation of lineaments, dykes, faults, joints etc Geological logging of drill cores.

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PROJECT WORK Teaching Scheme: Examination Scheme: Practical: 2 hours / week Term Work – 50 Marks Oral Exam. – 50 Marks The topic for the Project Work may be from any Civil Engineering and interdisciplinary Area related to Civil Engineering as mentioned below, 1) Structural Engineering 2) Environmental Engineering 3) Geotechnical Engineering 4) Transportation Engineering 5) Infrastructural Engineering 6) Water Resources Engineering 7) Town & Country Planning 8) Construction Engineering 9) Surveying & Remote Sensing Techniques 10) Project Management 11) Legal Aspects in Civil Engineering 12) Earthquake Engineering 13) Disaster Management Practical work will comprise of literature survey / problem formulation / preparation Design of

experimental setup as the case may be of the identified problem.

Technical / Educational Tour

Term Work – 25 Marks Oral Exam. – 25 Marks

Technical Visits :

The students are given ample opportunity to develop themselves in the college. In addition to the infrastructure of the department, the students are taken on industrial visits to construction sites or industries that support the construction industry. Regular interaction with the industry enables the students.

Educational Tour :

Students are encouraged to go on an educational tour once every academic year. The boy’s and girls have different iternaries. A responsible staff member accompanies the students. Under normal circumstances, they are permitted to go anywhere in India to visit Civil Engineering Structures Viz. Dock & Harbour, Damsite, Five star hotel, Power house, Airport, Monumental Structures etc. at the end of B.E.(Civil)Part-I Exam.

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