Optimization in Searching Daily Rule Curve at Mosul Regulating Reservoir, North Iraq using Genetic Algorithms
الشريط الجانبي للمقالة
محتوى المقالة الرئيسي
الملخص
To obtain optimal operating rules for storage reservoirs, large numbers of simulation and optimization models have been developed over the past several decades, which vary significantly in their mechanisms and applications. Rule curves are guidelines for long term reservoir operation. An efficient technique is required to find the optimal rule curves that can mitigate water shortage in long term operation. The investigation of developed Genetic Algorithm (GA) technique, which is an optimization approach base on the mechanics of natural selection, derived from the theory of natural evolution, was carried out to through the application to predict the daily rule curve of Mosul regulating reservoir in Iraq. Record daily inflows, outflow, water level in the reservoir for 19 year (1986-1990) and (1994-2007) were used in the developed model for assessing the optimal reservoir operation. The objective function is set to minimize the annual sum of squared deviation from the desired downstream release and desired storage volume in the reservoir. The decision variables are releases, storage volume, water level and outlet (demand) from the reservoir. The results of the GA model gave a good agreement during the comparison with the actual rule curve and the designed rating curve of the reservoir. The simulated result shows that GA-derived policies are promising and competitive and can be effectively used for daily reservoir operation in addition to the rational monthly operation and predicting also rating curve of reservoirs.
تفاصيل المقالة
القسم
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المراجع
Oliveria, R. and Loucks, D.P., “Operating Rules for Multireservoir. System”. Water Resources Research. 33(4): 839-852, 1997.
Chen, L., “Real Coded Genetic Algorithms Optimization along Term Reservoir Operation”. J. Am. Water Resources Assoc. 39: 1157-1165, 2003.
Chang, J.F.L. Chang and C.L. Chang. “Optimization Reservoir Operation Rule Curves by Genetic Algorithms”. Hydrological processes. 19: 2277-2280, 2005.
Dubrovin, T., Jolma, A. and Turunen, E., “Fuzzy Model for Real Time Reservoir Operation”. Water Resources Planning and Management, 28(1): 66-73., 2002
Anongrit, K. and Chavalit, C., “Suitable Conditions for Reservoir Simulation for Searching Rule Curves”. Journal of Applied Science 8(7): 274-279.2008.
Holland, J. H., “Adaptation in Natural and Artificial Systems”, University of Michiyan Press annarbov,’ Cambridge Mass.1975.
Guariso, G., Rinaldi, S. and Soncini- Sessa, R., “The Management of Lake Como; A Multiobjective Analysis”. Water Resources Research. 22(2): 109-120.1986.
US (HEC-3). Army corp of Hydrologic Engineering Center HEC-3. “Reservoir System Analysis for Conservation User’s Manual”, California, USA.1974
Hashemi, M.S., Barani, G.A, Ebrahimi, H., “Optimization of Reservoir Operation by Genetic Algorithm considering Inflow Probabilities (Case Study: The Jiroft Dam Reservoir)”, J. of applied science. vol. 8(11), pp. 2173-2177. 2008
Water Resources Report, 2008. Ministry of water resources, Iraq.
Rao S. Govindraju and Ramchandrarao A. Water science and technology library – Artificial neural network in hydrology”.2002. www.books.google.com/books,pp142