文章摘要
黄草,王忠静,李书飞,陈肃利.长江上游水库群多目标优化调度模型及应用研究I:模型原理及求解[J].水利学报,2014,45(9):
长江上游水库群多目标优化调度模型及应用研究I:模型原理及求解
A multi-reservoir operation optimization model and application in the upper Yangtze River Basin I. Principle and solution of the model
  
DOI:
中文关键词: 长江上游  水库群  多目标调度  优化模型  水资源综合利用
英文关键词: the upper Yangtze River Basin  multi-reservoir operation  multi-objective operation  optimization model  comprehensive water resources utilization
基金项目:
作者单位
黄草 1. 清华大学水利水电工程系北京100084 2. 清华大学水沙科学与水利水电工程国家重点实验室北京100084 
王忠静 1. 清华大学水利水电工程系北京100084 2. 清华大学水沙科学与水利水电工程国家重点实验室北京100084 
李书飞 3. 长江勘测规划设计研究院湖北武汉430010 
陈肃利 3. 长江勘测规划设计研究院湖北武汉430010 
摘要点击次数: 5067
全文下载次数: 214
中文摘要:
      水库群调度中发电与供水、生态等目标既非完全对立也非完全协调,其优化调度决策非常复杂。本文以长江上游15座大型水库群联合调度为背景,研究建立了包含发电、河道外供水和河道内生态用水等目标的非线性优化调度模型,以逐步优化算法(POA)为基础,引入优化窗口(L)和滑动距离(l)两个参数,提出了扩展型逐步优化算法(E-POA)以提高非线性模型的求解效率与效能。经与线性全局优化策略相比,E-POA 方法有效、解集合理。长江上游15座大型水库长系列联合多目标调度计算结果表明,水库群调度在发电、供水、生态等目标存在不对称博弈关系,河道外供水与河道内生态用水竞争强烈,发电与河道内供水竞争较弱。当优化计算的总发电量为总设计发电量的96.3 % 时,系统的发电量、河道外供水和河道内生态用水目标可达成较好的协调统一。多年平均条件下,15 座水库群联合调度的总期望发电量为2 625.8~2 700.1 亿kW·h,略小于总设计发电量。
英文摘要:
      In a multi-reservoir system, the operation objectives, such as hydropower generation, water supply and ecological protection are neither fully opposite nor fully coordinated, and the optimal joint operation decision of reservoirs is very complex. With the background of joint operation of 15 reservoirs in the Upper Yangtze River Basin,a nonlinear multi-objective optimization model is developed to coordinate hydropower generation, off-stream water use and in-stream water use in the paper. Based on the principle of POA(Progressive Optimality Algorithm),the extended POA(E-POA) is proposed to accelerate the efficiency and effectiveness of solving nonlinear optimization model by introducing two parameters, i.e. the optimization window(L) and the sliding distance(l). The operation model is solved by nonlinear progressive optimization strategy and compared with the results from linear global optimization strategy. The results indicate that the nonlinear progressive optimization strategy is acceptable and the set of solutions is reasonable. The results also show the asymmetry trade-offs among hydropower generation, water supply and ecological protection. It illustrates that the off-stream water use intensely compete with in-stream ecological water use, but the water use of hydropower generation softly compete with in-stream ecological water use. If the average annual hydropower capacity of the system approximates to 96.3 % of the original designed value, these three objectives can be balanced well, and the expected average annual hydropower capacity of the system is about 262.58-270.01BKH(Billion Kilowatt Hours), slightly less than the original designed value of the system.
查看全文   查看/发表评论  下载PDF阅读器
关闭