Multiobjective Analysis of Multireservoir System
Publication: Journal of Water Resources Planning and Management
Volume 118, Issue 4
Abstract
The explicit consideration of multiple objectives in decision making is becoming increasingly important in water resources systems analysis. Conflicting objectives like irrigation, flood control, hydropower production, and environmental preservation are inevitable while deriving the operating alternatives in an efficient way for any complex water resources system. In this paper, a linear multiobjective programming model has been developed and the constraint technique was used to derive the optimal releases for various purposes from a large‐scale multireservoir system consisting of five reservoirs in India. Maximization of irrigation releases and maximization of hydropower production have been considered as the twin objectives in the model subjected to constraints on physical limitations, environmental restrictions, and storage continuity. This model was applied to three series of inflow sequences representing the normal, drought, and excess‐flow conditions. The tradeoff analysis between the conflicting objectives of irrigation and hydropower production was also carried out and the transformation curve was plotted. The optimal point on this curve gives the best combination of the twin objectives considered in the model.
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References
1.
Chaliyar River basin report. (1974). Kerala Government Press, Kerala, India.
2.
Cohon, J. L., and Marks, D. H. (1975). “A review and evaluation of multiobjective programming techniques.” Water Resour. Res., 11(2), 208–220.
3.
Cohon, J. L., Church, R. L., and Sheer, D. P. (1979). “Generating multiobjective trade‐off: an algorithm for bicriteria problem.” Water Resour. Res., 15(5), 1001–1010.
4.
Doorenbos, S., and Pruitt, W. E. (1977). “Guidelines for predicting crop water requirements.” Irrigation and Drainage Paper 24, Food and Agricultural Organisation of United Nations, FAO, Rome, Italy.
5.
Gershon, M., and Duckstein, L. (1983). “Multiobjective approaches to river basin planning.” J. Water Resour. Plann. Manage., 103(1), 13–28.
6.
Goicoechea, A., Hansen, D. R., and Duckstein, L. (1982). Multiobjective decision analysis with engineering and business applications. John Wiley, New York, N.Y.
7.
Hall, W. A., Butcher, W. S., and Esogbue, A. (1968). “Optimization of operation of a multiple purpose reservoir.” Water Resour. Res., 4(3), 471–477.
8.
James, L. D., and Lee, R. R. (1971). Economics of water resources planning. Tata McGraw‐Hill, New Delhi, India.
9.
Kuczera, G. (1989). “Fast multireservoir multiperiod linear programming models.” Water Resour. Res., 25(2), 169–176.
10.
Liu, C.‐S., and Tedrew, A. C. (1973). “Multilake river system operation use.” J. Hydr. Div., ASCE, 99(9), 1369–1381.
11.
Loucks, D. P., Stedinger, J. R., and Haith, D. A. (1981). Water resources system planning and analysis. Prentice‐Hall, Englewood.Cliffs, N.J., 248–249.
12.
Major, D. (1977). “Multiobjective water resources planning.” Water Resour. Monograph Series, Vol. 4, AGU, Washington, D.C.
13.
Marino, M. A., and Loiciga, H. A. (1985). “Dynamic model for multireservoir operation.” Water Resour. Res., 21(5), 619–630.
14.
Meredith, D. D. (1975). “Optimal operation of multiple reservoir system.” J. Hydr. Div., ASCE, 101(2), 299–312.
15.
Mohammadi, B., and Marino, M. A. (1984). “Reservoir operation: choice of objective functions.” J. Water Res. Plang. and Mgmt., ASCE, 110(1), 15–29.
16.
Opricovic, S., and Duckstein, L. (1980). “Multiobjective optimization in river basin development.” Water Resour. Res., 16(1), 14–20.
17.
Raipure, D. M. (1990). “Multiobjective analysis of reservoir system.” M. Tech. thesis, Indian Institute of Technology, Madras, India.
18.
Tauxe, G. W., Mades, D. M., and Inman, R. R. (1979). “Multiobjective dynamic programming with application to a reservoir.” Water Resour. Res., 15(6), 1403–1408.
19.
Thampa Pillai, D. S., and Sinden, J. R. (1979). “Trade‐off for multiple objective planning through linear programming.” Water Resour. Res., 15(5), 1028–1034.
20.
Thompson, K. O., Alercon, L., and Marks, D. H. (1982). “Agricultural vs. hydropower trade‐offs in operation of the High Aswam Dam.” Water Resour. Res., 18(6), 1605–1613.
21.
Vedula, S., and Rogers, P. (1981). “Multiobjective analysis of irrigation planning in river basin development.” Water Resour. Res., 17(5), 1304–1310.
22.
Yeh, W. W. G., and Becker, L. (1982). “Multiobjective analysis of multireservoir operation.” Water Resour. Res., 18(5), 1326–1336.
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Copyright © 1992 ASCE.
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Published online: Jul 1, 1992
Published in print: Jul 1992
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