“He never wants anything but what’s right and fair, it’s everything that he wants and nothing that you want”

INDUSTRIAL LINKAGE
CIVIL SOCIETY

SYLLABUS

                           Undergraduate                   |              Graduate

THEORY PAPERS                          LABORATORIES

OPTIMISATION IN ENGINEERING

CONCRETE STRUCTURE-I

TRANSPORTATION ENGINEERING

GEOTECHNICAL ENGINEERING

BUILDING MATERIALS AND CONSTRUCTION

PRODUCTION AND OPERATION MANAGEMENT

MECHANICS OF MATERIAL-II

STEEL STRUCTURE

SURVEYING-II

IRRIGATION ENGINEERING

WATER SUPPLY AND SANITARY ENGINEERING

STRUCTURAL ANALYSIS-II

LABORATORIES:

CONCRETE STRUCTURE DESIGN-I

WATER SUPPLY AND SANITARY ENGINEERING DESIGN

IRRIGATION ENGINEERING DESIGN

concrete structure design-iii

GEO TECHNICAL ENGINEERING LAB

CIVIL ENGINEERING LAB-II

THEORY PAPERS

HSSM 4301 OPTIMISATION IN ENGINEERING (3-0-0)

Course objective:
The course aims at acquainting the students to mathematical modeling of engineering design, operation and maintenance problems and their optimization algorithms.

Module -I:

Formulation of engineering optimization problems: Decision variables, objective functions and constraints. Examples of typical design, operation and maintenance problem in engineering: Design of a water tank, design of a truss, design o a network (electrical, communication sewerage and water supply networks), product mix problems, transportation and assignment problems, shift scheduling of employees, design of a reliable device, design of reactors, shortest route problems, set covering problems. Only physical problems and their mathematical modules to be discussed.
Linear programming problem:  Formulation, Graphical solution, Simplex method, Duality method, Dual simplex method, Formulation and solution of engineering problems of planning and scheduling.

Module -II:

Sensitivity analysis, Transportation problem, Assignment problem, Network models: Minimal spanning tree problem, Maximal flow problem, shortest route problem. Algorithms and applications to be covered.

Module -III:

Integer Linear Programming problem. Branch and Bound and Cutting plane methods. Knapsack Problem, set covering problem, set partitioning problem, traveling salesman problem. Deterministic Dynamic Programming problems. Application and algorithms to be discussed.

Module IV:

Queuing theory, game theory, simulation, Decision theory & sequencing problem.

References:

1. H.A.Taha-Operations Research, Prentice Hall of India, 2004.
2. D.T.Phillips, A.Ravindran and J.J.Solaberg, Principles of operations research, John Wiley and sons.
3. S.Kalavati-Operations Research, Vikash publication.
4. B.E Gillett, Introduction to operations research.TMH

CPCE 8301 CONCRETE STRUCTURE-I (3-1-0)

Module -I:

Properties of concrete and reinforcing steels, introduction to limit state method: application to rectangular, tree and Ell beams, for flextures, shear and torsion.

Module -II:

Doubly reinforced beams, columns with axial and biaxial loading.

Module -III:

One way and two way slabs. Isolated column footing, stair cases.

Module -IV:

Design of water tanks, Footings Building portals.

Reference Books:

1. Reinforced concrete-Limit State,A.K.Jain
2. Composite RCC design, BC Purnia etal, Laxmi Publication
3. Limit state design of reinforced concrete, PC Verghese, Prentice Hall.

CPCE 8302 TRANSPORTATION ENGINEERING

Module -I:

Introduction: Models of transportation, their importance and limitations, the importance of highway transportation.

Highway planning: Principles of highway planning, road developing and financing, privatization of highways, Highways allignment requirements, engineering survey for highway location.

Module -II:

Geometric Design:  Cross section elements, width camber, super elevation, design speed ,sight distances ,Requirements and design of horizontal and vertical alignment, horizontal and vertical curve.

Highway materials: Properties of sub grade and pavement component material, materials characterization, tests on sub grade soil, aggregate and bituminous materials, Bituminous mix design.

Module -III:

Design of flexible pavements, design of low volume road and high volume roads, IRC design method for flexible pavements and rigid pavements.

Module -IV:

Highway drainage: Surface drainage, pavement failures, maintenance and strengthening.
Traffic engineering: Fundamentals of traffic flow, traffic field studies and their uses, traffic management, prevention of road accidents, elements of transport planning.
Bridge site selection, types of bridges, super structures, detail bridge foundation.

Text books:

1. Highway engineering. SK Khanna and CEG justo,Nem Chand Bros.1997
2. Highway engineering, L.R.Kadiyali, Khanna Publishers.

 
CPCE 8303   GEOTECHNICAL ENGINEERING

Module -I:

Introduction: basic terminology and their interrelationships, index properties of soil.
Soil classification: Particle size distribution, use of particle size distribution curve, textural classification, HRB classification, Unified soil; classification system, Indian standard soil classification system. (IS> 1498-1970)
Soil moisture: Adsorbed water .capillary water, effective stress, pore pressure and total stress.

Module -II:

Permeability: Decry’s law, permeability, factors affecting permeability, determination of coefficient of permeability (laboratory and field method), and permeability of stratified soil deposits .Estimation of yield from the wells. Seepage analysis: Seepage pressure, quick condition, Laplace equation for two dimensional flow, flow net, properties and methods of construction of flow net, seepage through earth dam.

Soil composition: Compaction mechanism, factors affecting compaction, effect of compaction on soil properties, density, moisture content relationship in compaction test, standard and modified proctor compaction tests, field compaction method.

Module -III:

Soil consolidation: introduction, soring analogy, one dimensional consolidation, Terzaghi theory of one dimensional consolidation, consolidation test, determination of coefficient of consolidation.

Module -IV:

Shear strength of soil: Mohr’s stress circle, theory of failure of soil determination of shear strength (direct shear test, triaxial compression test unconfined compression test, van shear test)

Shallow foundation: introduction bearing capacity, methods and determination of bearing capacity, settlement of foundation.

Reference Books:

1. Geotechnical engineering T.N Ramamurthy& TG Sitharam, S. chand &co.
2. Geotechnical engineering C. Venkatramaiha, New age international publisher.
3. Foundation Engineering P. C Verghese, Prentice hall of India
4. Soil mechanics TWLambe & R V WhitemanWILLEY EASTERN LIMITED, New Delhi.
5. Soil mechanics and Foundations, B.C. Purnia, A. Sourav & Co, Chennai.

CPCE 8304 BUILDING MATERIALS AND CONSTRUCTION

Module -I:

Bricks:
     Methods of brick manufacture, testing of bricks
     Cement .classification, chemical composition, hydration, and test for cement
Concrete:
      Composition, water-cement ratio, workability, mixes design.

Module -II:

Masonry arches: Terms used types of arches, stability, line of thrust, depth of arch at crown.
Cavity Walls: Purpose, method of construction
Stairs: Terms used types of stairs, Essential requirements, wooden stairs, Concrete stairs, and Metal stairs.

Module -III:

Fire resistive construction: fire resistive classification, fire resistance if common building materials, protection girders columns, fire fighting appliances
Plastering Materials for plastering Methods of plastering Defects in plastering and remedy.
Damp prevention: causes, effects, different methods of prevention of dampness.

Module -IV:

Painting and decoration: oil painting and varnishing, enamel painting, washes and distemper, defects in paintings
Glazing: varieties of glasses, decorative glass, door and window glazing
Repair of building. Maintenance of buildings

Reference books:

1. A Text Book of  building construction, A.P. Aroraand S.P. Bindra, Dhanpat Rai and Sons
2. A Text Book of  building materials C.J. Kulkarni.

CPCE 8305 MECHANICS OF MATERIAL-II(3-0-0)

Module -I:

1.      Energy  method based on strain energy due to bending :strain energy due to axial load, bending moment and twisting moment, principle of virtual work, Castigliane's theorem, Maxwell's theorem of reciprocal relations ,unit load and couple method for determining deflection and slope, Rayleigh-ritzmethosd

Module -II:

2.      Thick walled cylinders:
Thick cylinder subjected to internal and external pressure compound cylinders, application of comport in analyzing stressing thick cylinders.

3.      Unsymmetrical bending :Properties of bam cross section slope and neutral axis, stresses and deflection in unsymmetrical bending, shear center.

Module -III:

 4.   Curved beams:
Bending of beam with large initial curvature, stress distribution in beams with rectangular, circular and trapezoidal cross section, stress in Crain hooks, ring and chain links.

5.     Elementary concept of elasticity, stresses in three dimensional, equations of equilibrium and compatibility, plane stresses, computer analysis of two dimensional state of stress or strain at a point.

Module -IV:

Advanced topics in strength of material
6.      Repeated stresses and fatigue in metals, concept of stress, concentration ,notch and stress concentration factors

7.      Experimental stress analysis:
Resistance strain gauges, strain rosettes, Two dimensional photo elastic methods of stress analysis, stress optic law, light and dark field in a polariscope. Isoclinic and isochromatic fringe patterns, computer analysis of strain from rosette measurement.

Text books:

1.      Advanced mechanics of solids, L.S Srinath, TMH

2.      Advanced mechanics of materials, Kumar and Ghai, Khanna Publisher

3.      Advanced mechanics of materials: Seely and Smith, John Willey, New York
                                                                                                                

HSSM 4302 PRODUCTION AND OPERATION MANAGEMENT (3-0-0)

Objective:

This course aims at acquainting all engineering graduates irrespective of their specializations the basic issue and tools of managing production and operation functions of an organization.

Module -I:

1. Operation  function in an organization, Manufacturing versus service operation, system view of operation, strategic roll of an operation, operations strategies for competitive advantages, Operations quality and productivity focus, meeting global challenges of production and operation imperatives.
2. Designing products, Services and processes new product design: product life cycle, product development process, product quality and reliability design, process technology: project and job shop, batch, assembly line, continuous manufacturing, process technology life cycle, process technology trends: FMS, CIM, CAD, CAM, GT. Design for services, services process technology, services automation, value engineering, standardization, make or buy decision.
3. Job design and work measurement, method study: Techniques of analysis, recording improvement and standardization .Work measurement: Work measurement principles using stopwatch time study predetermined motion time standards and work sampling, standard time estimation.

Module -II:

4. Location and layout planning: Factor influencing plant and ware house locations, impact of location on cost and revenues. Facility location procedure and models: Qualitative models, break even analysis, single facility, location model, multi facility location models, mini max location, total and partial covering model.

   Lay out planning: Lay out types: process layout, product layout, fixed position layout planning, systematic layout planning, CRAFT.
  Group technology and cell formation, rank order clustering method for machine –Component Assignment, Line balancing: Basic concepts, General Procedure, Rank positional Weight method.

5. Forecasting: Principles and methods, Moving average, Double moving average, Exponential smoothing, Double Exponential smoothing winter’s method for seronal demand, forecasting error analysis.

Module -III:

6. Manufacturing planning control: the framework and components: aggregate planning, master production, scheduling, rough cut planning, material requirements planning, capacity requirement planning, capacity requirement planning, shop order system and purchase order system. Transportation method for aggregate production planning, Material requirement planning, scheduling and dispatching functions, progress monitoring and control.
7. Sequencing and scheduling: Single machine Sequencing: basics and performance evaluation criteria, method for minimizing mean flow time, parallel machine: minimization of make span, flow shop sequencing: 2 and 3 machine cases: Johnson’s rule and CDS heuristic. Job shop scheduling: Priority dispatching rule.
8. Inventory control: relevant costs, basic EOQ model, model with quantity discount Economic batch quantity, periodic and continuous review system for stochastic system, safety stock, recorder point and order quantity calculation, ABC analysis.

Module -IV:

9. Project Management: Project Management through PERT/CPM. Network construction, CPM, Network calculation, crashing of project network, Project scheduling with limited resources, line of balance.
10. Modern trends in manufacturing: Just in time (JIT) system: shop floor control by Canbans, total quality circle, Kizen. Poke yoke, supply chain management.

References

1. J.L. Riggs: Production System: planning analysis and control, John Willey
2. E.E. Adamsand R.J. Ebert “Production and operation management”, prentice hall of India,2004
3. S.N. Chary,” Production and operation management”, Tata Mc graw Hill.
4. R. Paneerselvam,”Production and operation management”, Tata Mc graw Hill

CPCE 8306 STEEL STRUCTURE (3-1-0)

Module -I:

Revetted and welded connections.
Design of tension and compression members. Design of columns , Lancing ,Battens.

Module -II:

 Column bases and foundations. Design of beams

Module -III:

Plate griders and gantry griders, design of roof trusses

Module -IV:

 Revetted and pressed elevated steel tanks and staging.

Reference books

1.      Arya and Ajmani, Design of steel structures

2.      Kazmiand Jindall ,Design of steel structures

3.      Punima.BC etal, Design of steel structures

4.      Negi L.S, Design of steel structures

CPCE 8307 SURVEYING-II (3-0-0)

Module -I:

Introduction, Horizontal distance measurements, electronic distance measurement Theodolite.

Module -II:

Triangular measurements. Traverse survey and compulsion.

Module III:

Total station instrument, vertical distance measurement, trigonometric leveling, contouring, stadia tachometry, different types of tachometric measurements.

Module IV:

Introduction to photogrammetric surveying and mapping. Remote sensing      and mapping Global positioning system.

Reference books

1.                        Surveying and Leveling, Vol-II,T.P.Kabetkarand S.V.Kulkarni

2.                        Surveying, Vol:IIand III, B.C.Punima

3.                        Plane and Geodectic Surveying, Vol: II, David Clark.

CPCE 8309 IRRIGATION ENGINEERING (3-0-0)

Module -1:

Hydrology

Hydrologic Cycle, Hydro Graph, measurement and analysis of precipitation and run off, flood routing.

Water requirement of crops, factors affecting water requirement, crop season, crop period, base delta and duty, consumptive use of water, frequency of irrigation, irrigation efficiency.

Module -2:

System of irrigation, lift irrigation, method of distribution of water (brief description only)

Flow irrigation, selection of dam barrage site, type of canals alignment of canals, design of canal section, Kennedy and laceys theory, canal lining, canal head works.

Module -3:

Weir and barrage, types of weir and barrages and their components, Leigh’s creep theory, Khosla’s theory.

Spill ways, type, energy dissipaters, cross drainage works.

Module -4:

Dams, classification of dams, force acting on gravity dam, economical height of dam, stability analysis of dam, earth dam , causes of failure of earth dam.

Water logging, causes and effect, anti water logging measures.

Reference books:

1.      Irrigation engineering, N.N. Basak, TMH, New Delhi, 1999.

2.      A Text Book of Water Power Engineering, R.K.Sharmaand , S.Chand & Co, New Delhi,2003
                                                                                                      

 CPCE: 8309 WATER SUPPLY AND SANITARY ENGINEERING

Module -1:

General requirement for water supply, sources, quality of water, intake, pumping and transportation of water. Physical, Chemical and biological characteristics of water and their significance, water quality criteria, Water borne diseases, Natural purification of water resources.

Module -2:

Engineered system of water treatment: aeration, sedimentation, softening coagulation, filtration, adsorption, ion exchange, and disinfection, water distribution system.

Generation and collection of waste water, sanitary storm and combined sewerage system, quantities of sanitary waste and storm water, design of sewerage system.

Module -3:

Basic microbiology. Biological waste water treatment system: Aerobic processes activated sludge process and its modification, trickling filter, RBC, anaerobic process conventional anaerobic disaster, High rate and hybrid anaerobic reactors, Sludge digestion and handling, Disposal of effluents and sludge.

Module -4:

Design problem on water distribution, sewerage, water treatment units waste water treatment units and sludge digestion.

Reference books

1. Water supply and sewerage, E.W.Steel

2. Text book on water supply engineering, S.R.Kshira sagar

3. Sewerage and sewage treatment, S.R.kasira sagar

                                                                                                                    
CPCE 8310 STRUCTURAL ANALYSIS-II (3-0-0)

Module -1:

Analysis of continuous beam sand plane frames by slope method and moment distribution method.

Module -2:

Analysis of continuous beams and simple portals by Kani’s method .Analysis of two pinned and fixed arches with dead and live loads, Suspension cables with two pinned stiffening griders.

Module -3:

Analysis of redundant plane trusses, matrix, method of analysis: Flexibility and stiffness, methods; Application to simple trusses and beams.

Module-4:

Plastic analysis: Plastic moulds, shear factor, plastic moment of resistance, load factor, plastic analysis of continuous beam sand simple rectangular portals, Application of upper bound and lower bound theorems.

Reference books

1.      Plastic analysis, B.G.Neal, C.S.Reddy, C.K.Wang

2.      Structural Analysis, V.S.Prasad

LABORATORIES

CPCE 9304 WATER SUPPLY AND SANITARY ENGINEERING DESIGN (0-0-3)

1.      Design of city water supply system

2.      Design of water treatment plant

3.      Design of sewerage network

4.      Design of sewerage treatment plant

 
CPCE 9305 IRRIGATION ENGINEERING DESIGN (0-0-3)

1.      Design of different types of dams

2.      Design of different types of spill ways

3.      Design of head regulator and cross head regulator

4.      Design of channel

5.      Design of cross drainage houses ,fall and river training works
                                                                                                                

CPCE 9306 CONCRETE STRUCTURE DESIGN-III (0-0-3)

1.      Design of a multi storied building including slabs and footings

2.      Design of  water tanks

3.      Design of retaining walls

4.      Bridge design

CPCE 9301 GEO TECHNICAL ENGINEERING LAB (0-0-3)

(Relevant I.S.codes may be referred)

1. Determination of specific gravity of soil grains

2. Determination of grain size distribution of soil

   (a)   Sieve test (b)Hydrometer/pipette test

3. Determination of Atterberg limits of soil

   (a)   Liquid limit

   (b)   Plastic limit

   (c)   Shrinkage limit

4. Measurement of soil compaction in the field

  (a)   Core cutter method

   (b)   Sand replacement method

5. Determination of density-Water content relationship of soil.

   (a)   Proctor compaction test

   (b)   Modified Proctor compaction test

   (c)   Use of Proctor penetration needle

6. Determination of relative density of granular soil

7. Determination of shear strength parameters of soil

8.  (a)  Shear box test

         (b) Tri-axial compression test

         (c) Unconfined compression test

         (d) Vane shear test

    9. Determination of consolidation characteristics of soil using fixed ring Oedometer.

   10. Determination of California Bearing Ratio (CBR) of soaked and unsoaked soil                     specimens

    11. Determination of coefficient of permeability of soil

          (a) Constant head perameameter

          (b) Falling head perameameter
                                                                                                                  

CPCE 9302N CONCRETE STRUCTURE DESIGN-I LAB (0-0-3)

(IS 456:2000 and SP 16 are to be used)

1. Design rectangular, Tee Beam ,and Ell beam for flexure, shear and torsion
2. Design of double reinforced rectangular beam
3. Designs of columns with axial ,eccentric and biaxial loading
4. One way and two way slabs Isolated column footings
5. Stair case design, Design of combine footing

CPCE 9303 CIVIL ENGINEERING LAB-II (0-0-3)
(Relevant IS codes may be referred)

1. Hydraulic Lab

1. Experiment on impact of jet
2. Experiment on centrifugal pump
3. Experiment on Francis turbine
4. Experiment on Pelton wheel

2. Concrete and Structure Lab

5. Failure of beam in bending
6. Failure of beam in shear
7. Design of concrete mix (Indian standard method)
8. Prism test

3. Environmental engineering Lab

9. Determination of physical characteristics of water taste, odour, turbidity, color, pH value, dissolved and suspended solid
10. Determination of hardness characteristic of water –total calcium and magnesium. Break point chlorination.

4. Transportation Engineering Lab

11. Quality control test on highway materials, bitumen, aggregate.
12. Roughness measurement of pavements.