摘要
为提升配电网无功补偿装置的投切控制智能化水平,设计了一套自适应投切控制系统。该系统基于配电网无功负荷实时变化特性,构建自适应决策逻辑,并结合最优投切策略实现装置智能控制。采用仿真建模方式搭建典型配电网运行场景,以验证该系统在不同负荷变化条件下的响应速度与补偿效果。结果表明,该系统能够有效跟踪无功需求动态变化,提升无功补偿的实时性与系统电压稳定性,为配电网智能化、精细化运行提供技术支撑,具有较高的工程应用价值。
To enhance the intelligent level of switching control for reactive power compensation devices in distribution networks,a self-adaptive switching control system is designed.This system constructs self-adaptive decision-making logic based on the real-time variation characteristics of reactive power load in the distribution networkand achieves intelligent control of the devices by integrating optimal switching strategies.A typical operational scenario of the distribution network is established through simulation modeling to verify the system's response speed and compensation effectiveness under varying load conditions.The results indicate that the system can effectively track the dynamic changes in reactive power demand,improve the real-time performance of reactive power compensation,and enhance the voltage stability of the system,thereby providing technical support for intelligent and refined operation of the distribution network and demonstrating high engineering application value.
作者
李永禄
LI Yonglu(Lanzhou Petrochemical Vocational University,Lanzhou,Gansu 730060,China)
出处
《自动化应用》
2025年第16期151-153,共3页
Automation Application
关键词
配电网
无功补偿
自适应控制
投切优化
distribution network
reactive power compensation
self-adaptive control
switching optimization
作者简介
李永禄,男,1985年生,讲师,研究方向为电力供电技术。
