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- Title
Benefit and Risk Balance Optimization for Stochastic Hydropower Scheduling.
- Authors
Yuan, Liu; Zhou, Jianzhong; Li, Chunlong; Xie, Mengfei; Mo, Li
- Abstract
Limited by inflow forecasting methods, the forecasting results are so unreliable that we have to take their uncertainty and risk into account when incorporating stochastic inflow into reservoir operation. Especially in the electricity market, punishment often happens when the hydropower station does not perform as planned. Therefore, focusing on the risk of power generation, a benefit and risk balance optimization model (BRM) which takes stochastic inflow as the major risk factor is proposed for stochastic hydropower scheduling. The mean-variance theory is firstly introduced into the optimal dispatching of hydropower station, and a variational risk coefficient is employed to give service to managers' subjective preferences. Then, the multi-period stochastic inflow is simulated by multi-layer scenario tree. Moreover, a specific scenario reduction and reconstruction method is put forward to reduce branches and computing time accordingly. Finally, the proposed model is applied to the Three Gorges Reservoir (TGR) in China for constructing a weekly generation scheduling in falling stage. Compared to deterministic dynamic programming (DDP) and stochastic dynamic programming (SDP), BRM achieves more satisfactory performance. Moreover, the tradeoffs for risk-averse decision makers are discussed, and an efficient curve about benefit and risk is formed to help make decision.
- Subjects
RESERVOIRS; WATER power research; RISK assessment; DYNAMIC programming; STOCHASTIC processes
- Publication
Water Resources Management, 2016, Vol 30, Issue 10, p3347
- ISSN
0920-4741
- Publication type
Article
- DOI
10.1007/s11269-016-1354-2