摘要
以黄河上中游干流已建、在建、规划的水电站及其周围的风光资源为对象,以水风光电出力特性及互补特性为基础,以风光电接入不增加水电站弃水并按照经济较优控制弃风、弃光率等为原则,开展黄河干流水风光一体化能源配置运行研究,结合互补运行特性、充分利用水电的调节能力、提高输电通道利用效率、统筹本地和外送消纳,在技术可行、经济合理的基础上构建了黄河干流水风光能源配置模型和经济分析模型,通过模型分析计算,提出经济合理的水风光电装机规模配比方案,及黄河干流2025年、2035年水风光一体化发展目标和布局。
Taking the built,under construction and planned hydropower stations in the upper and middle reaches of the Yellow River and their surrounding wind and light resources as the object,based on the output characteristics and complementary characteristics of hydropower,wind power and photoelectric power,and based on the principle that the access of wind power and photoelectric power does not increase the abandoned water of hydropower,and the abandoned wind and light rate were controlled economically,the research on the integrated configuration and operation of hydropower,wind power and photovoltaic power generation in the main stream of the Yellow River was carried out.Combined with the complementary operation characteristics,it made full use of the regulation capacity of hydropower,improved the utilization efficiency of transmission channel,and coordinated the local consumption and transmission.On the basis of technical feasibility and economic rationality,this paper constructed the hydropower,wind power and photoelectric configuration model and economic analysis model of the main stream of the Yellow River.Through model analysis and calculation,this paper put forward the economically reasonable proportion scheme of hydropower,wind power and photoelectric installation scale,and put forward the development goal and layout of water scenery integration in the main stream of the Yellow River in 2025 and 2035.
作者
唐梅英
张权
姚帅
姜勃
TANG Meiying;ZHANG Quan;YAO Shuai;JIANG Bo(Yellow River Engineering Consulting Co.,Ltd.,Zhengzhou 450003,China;Key Laboratory of Water Management and Water Security for Yellow River Basin,Ministry of Water Resources(Under Construction),Zhengzhou 450003,China)
出处
《人民黄河》
CAS
北大核心
2022年第6期6-10,33,共6页
Yellow River
基金
国家重点研发计划项目(2021YFC3200203)。
关键词
水风光一体化
清洁能源
碳中和
出力特性
互补特性
能源配置
一体化运行
黄河干流
integration of hydropower wind power and photovoltaic power generation
clean energy
carbon neutralization
output characteristics
complementary characteristics
power configuration
integrated operation
main stream of the Yellow River
