流域水风光多能互补清洁能源基地发展情况浅谈  被引量:1

Development of Clean Energy Base with Hydro-wind-solar Multi-energy Complementary Integration in River Basins

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作  者:李雨抒 李卫兵 邓友汉[1,2] 蒋定国 汪磊 LI Yushu;LI Weibing;DENG Youhan;JIANG Dingguo;WANG Lei(Laboratory of Hydro-Wind-Solar Multi-energy Control Coordination,Wuhan 430014,China;Science and Technology Research Institute,China Three Gorges Corporation,Beijing 100038,China;China Yangtze Power Co.,Ltd.,Wuhan 430010,China)

机构地区:[1]水风光多能互补联合实验室,武汉430014 [2]中国长江三峡集团有限公司科学技术研究院,北京100038 [3]中国长江电力股份有限公司,武汉430010

出  处:《长江技术经济》2024年第2期1-5,共5页Technology and Economy of Changjiang

基  金:湖北省科技重点研发计划项目(2022AAA007)。

摘  要:从源网荷储一体化和多能互补发展的政策环境出发,结合我国水风光的资源分布和发电情况,分析将大型流域水电站周边一定范围内的光伏、风电就近接入水电站汇集打捆送出的优势,梳理了流域水风光多能互补清洁能源基地的开发原则和开发模式,分析了水风光出力互补特性。以雅砻江流域水风光多能互补清洁能源基地为例,总结典型流域水风光多能互补清洁能源基地的建设运行情况。In view of source-network-load-storage integration and the policy environment of multi-energy complementary development,we summarize the resource distribution and power generation of water and wind resources in China.On this basis,we expound the advantages of integrating photovoltaic and wind power generated near large-scale basin hydropower stations into adjacent hydroelectric power stations to achieve bundled output.Furthermore,we examine the development principles and modes of clean energy bases with hydro-wind-solar multienergy complementary integration in the basin,and analyze the complementary characteristics of hydro-windsolar power output.Additionally,with the Yalong River Basin as a case study,we summarize the construction and operation of clean energy bases with hydro-wind-solar multi-energy complementary integration in typical river basins.

关 键 词:流域 多能互补 电力保障 出力互补 新能源消纳 

分 类 号:TM715[电气工程—电力系统及自动化]

 

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