Fifth Semester IWEM. 1. Project Management Techniques Credits 4 (3 1 0)

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1 Fifth Semester IWEM Sl. No Course Title Periods Per Week Credit L T P 1 Project Management Techniques (Elective) Geo informatics (Elective) Steel Structures Design (Elective) Structural Analysis-II (Elective) Civil Engineering Estimating and Costing (Elective) 6 Transportation Engineering (Elective) Transportation Engineering Lab Geo informatics Lab Steel Structures lab Total Credits Project Management Techniques Credits 4 (3 1 0) Introduction: Functions of Project Management, Project Life Cycle, the Project Environment, Project Selection, Project Proposal, Project Scope, Work Breakdown Structure. Network Scheduling, Critical Path Method, Program Evaluation & Review Technique, Planning and Scheduling of Activity Networks, Assumptions in PERT Modelling, Time-cost Trade-offs, Linear Programming and Network Flow Formulations, PERT/COST Accounting. Scheduling with limited resources, Resource Planning, Resource Allocation, Project Schedule Compression, Project Scheduling Software, Precedence Diagrams, Decision CPM, Generalized Activity Networks, GERT. Estimation of Project Costs, Earned Value Analysis, Monitoring Project Progress, Project Appraisal and Selection, Recent Trends in Project Management. 1. Systems analysis techniques for water resources planning and management. Mohammad Karamouz. 2. Water resources engineering Fourth Edition, McGraw-Hill International Editions. 2. Geoinformatics Credit 4 (3 1 0) Field Astronomy: astronomical terms; coordinate systems; solution of astronomical triangle; kinds of time, conversion of time; corrections to the observed altitude; determination of azimuth and latitude. Triangulation: principle & classification; triangulation figures and systems; selection of stations; intervisibility and height of stations; methods of observations; satellite station and reduction to centre; Trigonometrical leveling: plane and geodetic observations. EDM: importance, principles, classification; study and use of total station GPS: Introduction, principles and applications Errors and adjustments: Kinds of errors, weight of observation, general principles of least square; conditioned equations; normal equation; triangle and station adjustments.

2 Photogrammetry: introduction, geometric characteristics of aerial photograph; scale of a vertical and tilted photograph; determination of horizontal ground length from photo-coordinates; relief displacement; flight planning; image parallax and stereoscopy. Remote Sensing: Introduction, principles, electromagnetic energy and its interaction with matter, Idealized systems, sensors, platforms, photo-interpretation. Geographic information system (GIS): Overview, definition, components, data models. 1. Surveying and Leveling, T. P. Kanetkar and S.V.Kulkarni Vol.' & 2, Vidhyarthi Griha, Prakashan,Pune 2. Surveying, B. C. Punmia and Jain Vol.1, 2 & 3 Laxmi Publications, New Delhi 3. Advanced Surveying, Agor, Khanna Publications,Delhi. 4. Surveying-Bannister, Raymond and Baker, Pearson Education 5. Surveying, S. K. Duggal Vol 1&2, Tata Mcgraw Hill Publications,New Delhi. 6. Advanced Surveying, S. Gopi, R.Satikumar and N.Madhu, Pearson Education 7. Higher Surveying, A. M. Chandra, New Age International Publication. 8. An Introduction to Geographical Information System, Ian Hewood, Sarah Cornelius, Steve Carver and Srinivas Raju, Perason Publication 3. Steel Structures Design Credits 4 (3 1 0) Introduction to Plastic Analysis & Limit State Design: Stress-strain Curve for Mild Steel; bending of Beams; Plastic Analysis Approach; Limit State for Steel design Simple Bolt Connections: Types of Bolts & Bolted joints; Bearing Type Connections; Slip-critical Connections Simple Weld connections: Weld Types; Design of Groove Welds and Fillet Welds Eccentric and Bean-end Connections: Bracket connections; framed Connections; Seated Connections Beams: Design Procedure for rolled Beams; Built-up Beams Unit 6 Tension Members Unit 7 Compression Members: Design of Axially-Loaded Compression Members; Built-up columns; Design of Member with Compression and Moment Unit 8 Column Bases: Slab Base; Gusseted Base 1. Duggal, S. K., Design of Steel Structure; Tata McGraw Hill. 2. Subramanian,N., Design of Steel Structure; Oxford University Press. REFERENCE BOOKS & IS CODES: 1. IS Code of Practice for General Construction in steel 2. SP: 6(1)-1964 Handbook for Structural Engineers: (i) Structural Steel Sections

3 3. SP: 6(6)-1972 Handbook for Structural Engineers: (ii) application of Plastic Theory in design of Steel structures 4. Design of Steel Structures by Limit state method as per IS published by IK International 5. Design of Steel Structures by K. S. Sai Ram; published by Pearson 4. Structural Analysis II 4 (3 1 0) Indeterminate Beams: Propped Cantilevers; Fixed Beams; Yielding and Settlement of Supports Method of Consistent Deformation; Moment Area Method; Strain Energy Method; Theorem of Three Moments Basic Elastic Theorems: Theorem of Reciprocal Deflection; Maxwell-Betti Reciprocal Theorem; Muller-Breslau s Principle; Energy Methods : Complementary Energy Theorems; Principle of Minimum Strain Energy; Concept of Stiffness and Displacement Redundant Frames and Trusses Analysis External and Internal Redundancy; Stresses induced due to Lack of Fit and Change in Temperature Basics of Plastic Theory : Elastic-Plastic Bending; Ultimate Stress; Plastic Moment; Plastic Hinge; General Theorems of Plastic Theory; Application of Virtual Work in Plastic Theory Moment Distribution Method: Absolute and Relative Stiffness, Distribution Factor, Carry-over Factor. Problems: Analysis of Continuous Beams; Analysis of Statically Indeterminate Frames without any Sidesway or Joint Movement Unit 6 Influence Lines for Indeterminate Structures: Propped Cantilevers, Fixed-end Beams, Two-span Continuous Beams Unit 7 Matrix Approach to Structural Analysis: Determinants and their Properties; Matrix Algebra, Definitions and Operations; Flexibility and Stiffness Coefficients, Flexibility and Stiffness Matrices and their application in Structural Analysis 1. Vazirani V. N. and Ratwani R. R. : Analysis of Structures (Vol. II) Khanna Publications, New Delhi. 2. Prasad V. D. : Structural Analysis Galgotia Publications, New Delhi. 3. Sinha N. C. : Elements of Structural Analysis New Central Book Agency (P) Ltd. 4. Pundit and Gupta : Structural Analysis (Matrix Approach) Tata McGraw Hill REFERENCE BOOKS: 1. Negi L. S. and Jangid R. S. : Structural Analysis Tata McGraw Hill Publishing Co. Ltd., New Delhi. 2. Leet K. M. and Uang C. M. (2003) : Fundamentals of Structural Analysis Tata McGraw Hill. 3. Timoshenko : Theory of Structures

4 5. Civil Engineering Estimating and Costing Credits 3 (2 1 0) Methods of estimation of quantities Long wall short wall method, center line method, Items of work, Units etc, Estimation of quantities of Single room and two/three room buildings Estimation of Earth work for Roads and Canals methods of estimation in filling and cutting from L- section and cross section, Estimation of various quantities of RCC slab culverts Analysis of rates of building works, Preparation and understanding Schedule of rates, estimation of quantities of materials, labors etc. 1. Dutta, B.N., Estimation and Costing, S. Dutta & Co. 2. GS Biridi, Estimating and costing for Civil Engineers, Dhanpat Rai Publishing Company Ltd. 6. Transportation Engineering Credits 4 (3 1 0) Introduction, Highway Alignment, Survey and Detailed Project Report: Brief history and development of Road Construction, Jaykar Committee Recommendations, Long term Road Plans, Vision 2021, Road Classification, NHDP, Rural Roads Development Plan. Fundamental Principles of Highway Alignment, Factors controlling the selection of alignment, Engineering Surveys for a Highway Project, Drawings, Preparation of Detailed Project Reports Geometric Design of Highways: Road Cross-sectional Elements: Width of Carriageway, Formation Width, Right of Way, Camber, Shoulder, Kerb, Road Margins, Design Speed, Sight Distances, Design of Horizontal curves, Super elevation, Extra widening on Horizontal curves, Transition curves, Set back distance at curves, Gradient, Design of Vertical curves Summit and Valley curves Highway Materials and Construction, Pavement Evaluation and Maintenance: Subgrade Soil, Aggregates, Bitumen, Tar, Emulsion, Bitumen, flyash, Cement Concrete, Tests on Aggregates, Tests on Bitumen, Bituminous Mix Design, Construction of WBM roads, Soil Stabilised Roads, Different types of Bituminous Constructions, Construction of cement Concrete Pavements, Equipments used in Highway Construction Types of Pavements, Flexible and Rigid, Pavement composition, Unconventional Pavements, Different methods of Flexible Pavement Design, Pavement Design as per IRC, Stresses in Concrete Pavements, Modulus of subgrade reaction, Design of rigid pavements as per IRC, Highway Drainage (Railway Engineering) Introduction, Formations and Subgrade: Track Component: Formation width requirement and sub grade improvement; drainage; rail embankment. Rails Function, Composition and requirement of rail section Corrugated rails, Hogged rails, buckling of rails, Creep of rails, Wear on rails, Rail joints Sleepers: Functions and requirements of sleepers, Classification of sleepers; Timber, Metal, Concrete R.C.C. and prestressed concrete sleepers, Spacing of sleepers and sleeper density, Ballast: Functions and requirements of ballast, Types of ballast, Size and section of ballast Geometric Design of Rail Tracks, Points Crossing Cross-section, Gradients, Speed, Radius of curve, Super elevation, Maximum and Minimum super elevation, Equilibrium super elevation, Cant deficiency, Negative super elevation; Turnouts, Points and switches, Crossing number and angle of crossing, types of track junctions, Design calculations of turnout. Design of diamond crossing and cross-over

5 Unit 6 (Harbour Engineering) History and development of water transportation; Types of water transportation; Advantages and disadvantages, selection of site for harbours; Essential features of a good harbour size, depth, turning basin, harbour entrances, Harbour works: Breakwaters different types and their construction, Wharves, Piers, Jetties; Quays Forces on quay walls, construction, Berthing Structures Dolphins, Trestles, Moles, Moorings accessories, Apron, Transit sheds and Warehouses essential features Unit 7 (Airport Engineering) Airport Planning: Regional planning, Factors affecting site selection, Surveys for site selection; Airport classification. Airport obstructions: Zoning laws, classification of obstructions, Imaginary surfaces, approach zone, turning zone Runway Orientation Windrose diagram, Basic runway length, Corrections for elevation, temperature and gradient, Geometric design, cruising speed, airspeed beaufort scale, different types of runways, Airport capacity 1. KHANNA S. K. and JUSTO C. E. G.: Highway Engineering 2. KADYALI L. R. and LAL N. B. : Highway Engineering. 3. BINDRA S. P: A Course in Highway Engineering 4. SAXENA and ARORA: A Text Book of Railway Engineering 5. VASWANI N. K. Railway Engineering 6. SRINIVASAN R. : Harbour, Dock & Tunnel Engineering 7. OZA H. P.: Dock and Harbour Engineering 8. VASWANI N. K. : Airport Engineering 9. KHANNA S. K. & ARORA M. G.: Airport Planning & Design