摘要
多能互补是未来清洁能源发展的主要特征之一,既有利于发展清洁能源,也有利于实现节能减排。为了提高水光多能互补清洁能源项目的智能化水平,以贵州象鼻岭水电站和象鼻岭水光互补农业光伏电站为研究对象,对清洁能源建设、水光互补智能发电调度、水光电站统一监控等关键技术进行了探索和实践,研制了一套适用于水光多能互补电站的优化规划和调度运行的技术体系。工程实例表明,该技术体系充分发挥了水电站和光伏电站的互补特性,提高了工程效益和电能质量,可为其他水光互补电站建设提供参考。
Multi-energy complementarity is one of the main features of clean energy development in the future, which is not only conducive to the development of clean energy, but also conducive to energy conservation and emission reduction. In order to improve the intelligent level of water-light multi-energy complementary clean energy projects, Guizhou Xiangbiling Hydropower Station and Xiangbi Ridge Water-Photovoltaic Complementary Agricultural Photovoltaic Power Station are the research objects. we have explored and practiced key technologies such as clean energy construction, water-photovoltaic complementary intelligent power generation dispatching, and unified monitoring of hydro-optical power stations. Technical system for optimal planning and dispatch operation of multi-energy complementary power stations. Engineering examples show that this technology system fully utilizes the complementary characteristics of hydropower stations and photovoltaic power stations, improves engineering efficiency and power quality, and can provide references for the construction of other hydro-optical complementary power stations.
作者
黄鹤
秦岭
喻洋洋
魏道万
HUANG He;QIN Ling;YU Yangyang;WEI Daowan(State Power Investment Corporation Guizhou Jinyuan Xiangbiling Hydropower Plant,Bijie 553107,Guizhou Province,China)
出处
《分布式能源》
2020年第2期21-26,共6页
Distributed Energy
关键词
多能互补
清洁能源
智能发电
multi-energy complementary
clean energy
smart-power generation
