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http://dx.doi.org/10.9798/KOSHAM.2011.11.2.147

Optimal Reservoir Operation Using Goal Programming for Flood Season  

Kim, Hye-Jin (아주대학교 건설교통공학과)
Ahn, Jae-Hwang (아주대학교 건설교통공학과)
Choi, Chang-Won (아주대학교 건설교통공학과)
Yi, Jae-Eung (아주대학교 환경건설교통공학부)
Publication Information
Journal of the Korean Society of Hazard Mitigation / v.11, no.2, 2011 , pp. 147-156 More about this Journal
Abstract
The purpose of multipurpose reservoir operation in flood season is to reduce the peak flood at a control point by utilizing flood control storage or to minimize flood damage by controlling release and release time. Therefore, the most important thing in reservoir operation for flood season is to determine the optimal release and release time. In this study, goal programming is used for the optimal reservoir operation in flood season. The goal programming minimizes a sum of deviation from the target value using linear programming or nonlinear programming to obtain the optimal alternative for the problem with more than two objectives. To analyze the applicability of goal programming, the historical storm data are utilized. The goal programming is applied to the reservoir system operation as well as single reservoir operation. Chungju reservoir is selected for single reservoir operation and Andong and Imha reservoirs are selected for reservoir system operation. The result of goal programming is compared with that of HEC-5. As a result, it was found that goal programming could maintain the reservoir level within flood control level at the end of a flood season and also maintain flood discharge within a design flood at a control point for each time step. The goal programming operation is different from the real operation in the sense that all inflows are assumed to be given in advance. However, flood at a control point can be reduced by calculating the optimal release and optimal release time using suitable constraints and flood forecasting system.
Keywords
goal programming; multipurpose dam; optimal reservoir operation; multiobjective programming;
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