摘要
文章分析新能源并网对配电网电压稳定性的核心影响机制,包括出力波动、并网位置与容量、无功调节能力不足三方面,进而提出无功功率优化控制、出力预测与协调、配电网拓扑优化三类优化策略,旨在为提升新能源并网场景下配电网电压稳定性提供技术路径,助力新型电力系统建设。
This paper analyzes the core impact mechanisms of new energy grid-connection on distribution network voltage stability,including three aspects:output fluctuations,grid-connection location and capacity,and insufficient reactive power regulation capability.Furthermore,it proposes three types of optimization strategies:reactive power optimization control,output prediction and coordination,and distribution network topology optimization.The aim is to provide a technical path for improving the voltage stability of distribution networks under new energy grid-connection scenarios and support the construction of a new power system.
作者
张文卓
ZHANG Wen-zhuo(Lanzhou Urban and Rural Planning and Design Institute Co.,Ltd.)
出处
《智能建筑与智慧城市》
2026年第2期94-96,共3页
Intelligent Building & Smart City
关键词
新能源并网
配电网
电压稳定性
无功控制
储能系统
new energy grid-connection
distribution network
voltage stability
reactive power control
energy storage system
