点击次数：

论文类型：期刊论文

发表时间：2016-11-01

发表刊物：JOURNAL OF WATER RESOURCES PLANNING AND MANAGEMENT

收录刊物：SCIE

卷号：142

期号：11

ISSN号：0733-9496

关键字：Hydropower; Multiple cascaded system; Operating rules; Optimization

摘要：Multiple cascaded hydropower reservoir systems serving the same area need to cooperate to increase overall benefits and reliability. To meet system demand while balancing among cascaded systems, both centralized and distributed five segment energy available based operating rules, making power decisions for subsystems and the whole system, are proposed for cooperation across multiple cascaded hydropower reservoirs. Unlike existing methods, the cooperative operating rules are optimized to the global objective of maximizing the minimum system power production, with constraints on local cascade minimum energy generation to confine the possible local profit earnings or losses because of cooperation, making the operating rules more acceptable for cooperative operations among local cascade system agents. The operating rule optimization models are solved using a genetic algorithm. A case study for three cascaded systems in southwest China shows that distributed and centralized cooperative operating rules can increase minimum total power by more than 3,600 MW and 4,700 MW, respectively, in the dry season with little energy changes in each cascaded system, taking advantages of reservoir storages and different timing of inflows. The centralized rule is superior to the distributed rule for increasing minimum power, although the distributed rule is more effective to control the energy for each cascaded system. The distributed and centralized rules adapt to higher subsystem energy constraints and higher interbasin compensation demands. (C) 2016 American Society of Civil Engineers.