An effective three-stage hybrid optimization method for source- network-load power generation of cascade hydropower reservoirs serving multiple interconnected power grids

Feng Zhong-kai; Niu Wen-jing; Cheng Xiong; Wang Jia-yang; Wang Sen; Song Zhen-guo

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An effective three-stage hybrid optimization method for source- network-load power generation of cascade hydropower reservoirs serving multiple interconnected power grids

机译：一种有效的三级混合优化方法，用于为多个互连电网服务的梯级水电站水库的源-网络-负荷发电

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In China, many cascade hydropower reservoirs are asked to simultaneously respond the peak loads of several interconnected power grids based on the signed agreements. However, by far, there are few reports addressing the brand-new engineering problem with huge optimization difficulty caused by multilateral generation contracts, strong hydraulic-electric relationships, load feature differences and spatial-temporal coupled constraints. Here, a three-stage hybrid method is developed to satisfy this practical requirement, where the domain knowledge is firstly used to build a virtual load curve balancing the load features and electricity contracts of multiple power grids; secondly, the dynamic programming is used to determine the scheduling process of the optimized hydroplant, while the linear programming is chosen to allocate the hydropower generation among multiple power grids; finally, the quality of solution is gradually improved via iterative search. The results in two real-world cascade hydropower systems indicate that the hybrid method can achieve satisfactory scheduling results in different cases. Thus, an effective way to reduce the optimization difficulty of the large and complex problem is to break up into a series of simple and independent subproblems to be addressed by existing mature methods. (C) 2019 Elsevier Ltd. All rights reserved.

机译：在中国，要求许多梯级水库根据已签署的协议同时响应多个互联电网的峰值负荷。然而，到目前为止，鲜有报道解决由多边发电合同，强大的水电关系，负载特征差异和时空耦合约束所导致的优化困难巨大的全新工程问题。这里，为了满足这一实际需求，开发了一种三阶段混合方法，其中首先将领域知识用于建立虚拟负载曲线，以平衡多个电网的负载特征和电力合同。其次，动态规划用于确定优化水电厂的调度过程，而线性规划则用于在多个电网之间分配水力发电。最后，通过迭代搜索逐渐提高了解决方案的质量。在两个现实世界的梯级水电系统中的结果表明，该混合方法可以在不同情况下获得令人满意的调度结果。因此，减少大而复杂问题的优化难度的有效方法是分解为一系列简单而独立的子问题，以现有的成熟方法来解决。（C）2019 Elsevier Ltd.保留所有权利。

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来源
《Journal of Cleaner Production》 |2020年第10期|119035.1-119035.14|共14页
作者
Feng Zhong-kai; Niu Wen-jing; Cheng Xiong; Wang Jia-yang; Wang Sen; Song Zhen-guo;
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作者单位

Huazhong Univ Sci & Technol Sch Hydropower & Informat Engn Wuhan 430074 Peoples R China;

ChangJiang Water Resources Commiss Bur Hydrol Wuhan 430010 Hubei Peoples R China;

Three Gorges Univ Coll Hydraul & Environm Engn Yichang 443002 Peoples R China;

Elect Power Res Inst China Southern Power Grid Guangzhou 510080 Guangdong Peoples R China;

Minist Water Resources Key Lab Pearl River Estuarine Dynam & Associated Guangzhou 510611 Guangdong Peoples R China;

China Ship Dev & Design Ctr Wuhan 430064 Hubei Peoples R China;

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正文语种 eng
中图分类
关键词
Cascade hydropower system; Peak shaving operation; Domain knowledge; Dynamic programming; Linear programming; Multiple interconnected electric power grids;

机译：梯级水电系统;削峰操作;领域知识;动态编程;线性规划;多个互连的电网;

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An effective three-stage hybrid optimization method for source- network-load power generation of cascade hydropower reservoirs serving multiple interconnected power grids

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