南方电网技术2026,Vol.20Issue(2):30-38,9.DOI:10.13648/j.cnki.issn1674-0629.2026.02.004
新型电力系统下抽水蓄能和新型储能协同运行研究
Research on Collaborative Operation of Pumped Storage and New Energy Storage in New Power System
摘要
Abstract
In order to promote the construction and development of the new power system and enhance the regulation and storage energy ability of the new power system,this paper explores the support of pumped storage and new energy storage coordinated opera-tion for different regulation demand scenarios of the new power system from the perspective of scheduling operation.Firstly,based on the operational characteristics of pumped storage and new energy storage,the collaborative operation mode is analyzed.Then,the pumped storage and new energy storage collaborative optimization scheduling model is constructed,and 7 types of energy storage ap-plication scenarios are constructed based on typical power consumption characteristics and extreme meteorological characteristics.Finally,the system operation effects of the power system under different energy storage development strategies are evaluated from four aspects:calming new energy fluctuations,promoting new energy consumption,enhancing power supply reliability and alleviating system peak load pressure.The results show that when the system is deployed with pumped storage and new energy storage at the same time,the system has better comprehensive operation benefits.The research can provide reference for the rational adjustment of energy storage dispatching operation modes in different regulation demand scenarios of the new power system.关键词
新型电力系统/极端气象/运行效果评价/储能协同/抽水蓄能/新型储能Key words
new power system/extreme weather/evaluation of operational effects/energy storage collaboration/pumped storage/new energy storage分类
信息技术与安全科学引用本文复制引用
彭潜,钟鑫亮,李乐卿,孙万洲,李毓烜,王雪林,钟海旺..新型电力系统下抽水蓄能和新型储能协同运行研究[J].南方电网技术,2026,20(2):30-38,9.基金项目
国家自然科学基金资助项目(52122706) (52122706)
中国南方电网有限责任公司软课题研究项目(210006004420230300026). Supported by the National Natural Science Foundation of China(52122706) (210006004420230300026)
the Soft Topic Research Foundation of China Southern Power Grid Co.,Ltd.(210006004420230300026). (210006004420230300026)
