CE6009 WATER RESOURCES SYSTEMS ANALYSIS L T P C 3 0 0 3
OBJECTIVES:
• To introduce the student to the concept of Mathematical approaches for managing the
water resources system.
• To make the students apply an appropriate system approach to optimally operate a
water resource system.
UNIT I SYSTEM APPROACH 7
Philosophy of modelling – Goals and Objectives – Basics of system analysis concept – scopes and steps in systems engineering.
UNIT II PHYSICAL AND SOCIO - ECONOMIC DATA 6
Collection, evaluation and processing – project appraisal – public involvement, master
Comprehensive and integrated planning of water resources project.
UNIT III LINEAR PROGRAMMING 10
Operation research - introduction - Problem Formulation-graphical solution- Simplex method –
Sensitivity analysis - simple applications
UNIT IV DYNAMIC PROGRAMMING 11
Optimality criteria Stage coach problem – Bellman‟s optimality criteria Problem formulation and
Solution - simple applications
UNIT V SIMULATION 11
Basic principles – Methodology and Philosophy – Model development – input and outputs –
Deterministic simulation - simple applications
TOTAL: 45 PERIODS
OUTCOMES:
• The students will be exposed to the economical aspects and analysis of water resources systems by which they will get an idea of comprehensive and integrated planning of a water resources project.
• The students will develop skills in solving problems in operations research through LP, DP
and Simulation techniques.
TEXTBOOK:
1. Vedula, S., and Majumdar, P.P. "Water Resources Systems" – Modeling Techniques and
Analysis Tata McGraw Hill, 5th reprint, New Delhi, 2010.
REFERENCES:
1. Hall Warren, A. and John A. Dracup., " Water Resources System Engineering", Tata
McGraw Hill Publishing Company Ltd., New Delhi, 1998
2. Chadurvedi M.C., " Water resource Systems Planning and Management", Tata McGraw
Hill inc., New Delhi,1997
3. Taha H.A., "Operation Research", McMillan Publication Co., New York, 1995.
4. Maass A., Husfchimidt M.M., ,Dorfman R., ThomasH A., Marglin S.A and Fair G. M., "Design of Water Resources System", Hardward University Press, Cambridge,
Mass.,1995.
5. Goodman Aluvin S., "Principles of Water Resources Planning", Prentice Hall of India, 1984
OBJECTIVES:
• To introduce the student to the concept of Mathematical approaches for managing the
water resources system.
• To make the students apply an appropriate system approach to optimally operate a
water resource system.
UNIT I SYSTEM APPROACH 7
Philosophy of modelling – Goals and Objectives – Basics of system analysis concept – scopes and steps in systems engineering.
UNIT II PHYSICAL AND SOCIO - ECONOMIC DATA 6
Collection, evaluation and processing – project appraisal – public involvement, master
Comprehensive and integrated planning of water resources project.
UNIT III LINEAR PROGRAMMING 10
Operation research - introduction - Problem Formulation-graphical solution- Simplex method –
Sensitivity analysis - simple applications
UNIT IV DYNAMIC PROGRAMMING 11
Optimality criteria Stage coach problem – Bellman‟s optimality criteria Problem formulation and
Solution - simple applications
UNIT V SIMULATION 11
Basic principles – Methodology and Philosophy – Model development – input and outputs –
Deterministic simulation - simple applications
TOTAL: 45 PERIODS
OUTCOMES:
• The students will be exposed to the economical aspects and analysis of water resources systems by which they will get an idea of comprehensive and integrated planning of a water resources project.
• The students will develop skills in solving problems in operations research through LP, DP
and Simulation techniques.
TEXTBOOK:
1. Vedula, S., and Majumdar, P.P. "Water Resources Systems" – Modeling Techniques and
Analysis Tata McGraw Hill, 5th reprint, New Delhi, 2010.
REFERENCES:
1. Hall Warren, A. and John A. Dracup., " Water Resources System Engineering", Tata
McGraw Hill Publishing Company Ltd., New Delhi, 1998
2. Chadurvedi M.C., " Water resource Systems Planning and Management", Tata McGraw
Hill inc., New Delhi,1997
3. Taha H.A., "Operation Research", McMillan Publication Co., New York, 1995.
4. Maass A., Husfchimidt M.M., ,Dorfman R., ThomasH A., Marglin S.A and Fair G. M., "Design of Water Resources System", Hardward University Press, Cambridge,
Mass.,1995.
5. Goodman Aluvin S., "Principles of Water Resources Planning", Prentice Hall of India, 1984