Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels

To enhance the power generation efficiency of Gezhen Reservoir, the unique engineering layout of hydroelectric generating sets of Gezhen Reservoir in multi-tailed river channels was studied. The intricate engineering design and functional constraints of Gezhen Reservoir were considered, and an optim...

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Main Authors:	ZHANG Yonghui, WANG Jian, MA Jun, LI Dashang, WU Chengjun
Format:	Article
Language:	zho
Published:	Editorial Office of Pearl River 2025-01-01
Series:	Renmin Zhujiang
Subjects:	power generation scheduling optimal scheduling dynamic programming scheduling rule Gezhen Reservoir
Online Access:	http://www.renminzhujiang.cn/thesisDetails#10.3969/j.issn.1001-9235.2025.01.011
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author	ZHANG Yonghui WANG Jian MA Jun LI Dashang WU Chengjun
author_facet	ZHANG Yonghui WANG Jian MA Jun LI Dashang WU Chengjun
author_sort	ZHANG Yonghui
collection	DOAJ
description	To enhance the power generation efficiency of Gezhen Reservoir, the unique engineering layout of hydroelectric generating sets of Gezhen Reservoir in multi-tailed river channels was studied. The intricate engineering design and functional constraints of Gezhen Reservoir were considered, and an optimal power generation scheduling model for Gezhen Reservoir that guaranteed output was established. Meanwhile, a two-layer solving strategy for the outer layer of the whole reservoir and the inner layer of the two-unit cooperation was proposed. According to 96 combinations under different inflow and irrigation requirements, a long series of optimal power generation scheduling simulations was carried out for Gezhen Reservoir. The results demonstrate that after optimization, the average annual power generation exhibits a remarkable increase of 18.92% compared to that of conventional scheduling practices over years. It is recommended that maintaining an elevated water level can significantly enhance the power generation efficiency of Gezhen Reservoir.
format	Article
id	doaj-art-2c2ce4e76c9249dfb69c62c5b61904fb
institution	Kabale University
issn	1001-9235
language	zho
publishDate	2025-01-01
publisher	Editorial Office of Pearl River
record_format	Article
series	Renmin Zhujiang
spelling	doaj-art-2c2ce4e76c9249dfb69c62c5b61904fb2025-02-08T19:00:05ZzhoEditorial Office of Pearl RiverRenmin Zhujiang1001-92352025-01-01469710276226871Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River ChannelsZHANG YonghuiWANG JianMA JunLI DashangWU ChengjunTo enhance the power generation efficiency of Gezhen Reservoir, the unique engineering layout of hydroelectric generating sets of Gezhen Reservoir in multi-tailed river channels was studied. The intricate engineering design and functional constraints of Gezhen Reservoir were considered, and an optimal power generation scheduling model for Gezhen Reservoir that guaranteed output was established. Meanwhile, a two-layer solving strategy for the outer layer of the whole reservoir and the inner layer of the two-unit cooperation was proposed. According to 96 combinations under different inflow and irrigation requirements, a long series of optimal power generation scheduling simulations was carried out for Gezhen Reservoir. The results demonstrate that after optimization, the average annual power generation exhibits a remarkable increase of 18.92% compared to that of conventional scheduling practices over years. It is recommended that maintaining an elevated water level can significantly enhance the power generation efficiency of Gezhen Reservoir.http://www.renminzhujiang.cn/thesisDetails#10.3969/j.issn.1001-9235.2025.01.011power generation schedulingoptimal schedulingdynamic programmingscheduling ruleGezhen Reservoir
spellingShingle	ZHANG Yonghui WANG Jian MA Jun LI Dashang WU Chengjun Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels Renmin Zhujiang power generation scheduling optimal scheduling dynamic programming scheduling rule Gezhen Reservoir
title	Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels
title_full	Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels
title_fullStr	Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels
title_full_unstemmed	Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels
title_short	Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels
title_sort	research on optimal power generation scheduling for reservoir in multi tailed river channels
topic	power generation scheduling optimal scheduling dynamic programming scheduling rule Gezhen Reservoir
url	http://www.renminzhujiang.cn/thesisDetails#10.3969/j.issn.1001-9235.2025.01.011
work_keys_str_mv	AT zhangyonghui researchonoptimalpowergenerationschedulingforreservoirinmultitailedriverchannels AT wangjian researchonoptimalpowergenerationschedulingforreservoirinmultitailedriverchannels AT majun researchonoptimalpowergenerationschedulingforreservoirinmultitailedriverchannels AT lidashang researchonoptimalpowergenerationschedulingforreservoirinmultitailedriverchannels AT wuchengjun researchonoptimalpowergenerationschedulingforreservoirinmultitailedriverchannels

Research on Optimal Power Generation Scheduling for Reservoir in Multi-Tailed River Channels

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