基于模糊控制的高压开关柜散热与防凝露控制系统设计
陈泓霖,吴昊宁,李督,肖荣洋,林腾辉,丘小辉
(国网福建省电力有限公司龙岩供电公司,福建 龙岩 364000)
摘 要:针对高压开关柜散热与防凝露装置控制系统故障导致柜内温湿度升高引起高压开关柜爆燃、放电的问题,研制了一款基于模糊控制的智能控制系统。该系统通过智能采集器获取实时电气数据、装置运行参数、柜内环境参量,自动上传至云端数据库,结合模糊控制算法,变电运维与检修人员使用电脑或移动终端即可实现高压开关柜及其散热、防凝露装置进行远程监视与智能控制。通过现场实际测试与应用,智能控制系统运行稳定,实现高压开关柜的精准散热和除湿,确保其性能安全稳定。
关键词:高压开关柜;模糊控制;散热;防凝露;智能控制
中图分类号:TM591 文献标识码:A 文章编号:1007-3175(2022)05-0049-04
Design of Control System for Heat Dissipation and Anti-Condensation of
High Voltage Switchgear Based on Fuzzy Control
CHEN Hong-lin, WU Hao-ning, LI Du, XIAO Rong-yang, LIN Teng-hui, QIU Xiao-hui
(Longyan Electric Power Supply Company, State Grid Fujian Electric Co., Ltd, Longyan 364000, China)
Abstract: When the control system of the heat dissipation and anti-condensation device of the high voltage switchgear fails, the temperature and humidity in the cabinet will rise. It could cause the problem of deflagration and discharge of the high voltage switchgear. This paper developed an intelligent control system based on fuzzy control to solve this problem.This system obtained real-time electrical data, device operating parameters, and cabinet environmental parameters from intelligent collectors, and the system automatically uploaded related data to the cloud database. With the fuzzy control algorithm, substation operation and maintenance personnel could use computers or mobile terminals to realize remote monitoring and intelligent control of high voltage switchgear, cooling, and anti-condensation devices.This paper ensures the stable operation of the intelligent control system through on-site actual testing and application and realizes the precise heat dissipation and dehumidification of the high voltage switchgear to ensure its safety and stability.
Key words: high voltage switchgear; fuzzy control; heat dissipation; anti-condensation; intelligent control
参考文献
[1] 冯英,吕军,王承玉,等. KYN28A-12 型中置式开关柜标准化设计研究[J] . 中国电力,2017,50(11) :65-71.
[2] 刘四军,韩威,张海星,等. 高压开关柜温度流体场仿真及散热优化研究[J] . 高压电器,2020,56(10) :63-69.
[3] 武兴坛, 周鹏, 刘少鹏, 等. 基于温升试验的中压开关柜温升控制探讨[J] . 高压电器,2020,56(10) :93-97.
[4] 徐立群,申亮,倪福生.KYN28A-12 kV/4 000 A 开关柜的结构改进与温度场分析[J] . 高压电器,2017,53(3) :259-263.
[5] 顾冬铭. 高压开关柜发热和放电原因分析和改进措施[J]. 水电水利,2021,5(3) :13-14.
[6] 潘岐泽,杨芳,杨志.12 kV 高压开关柜受潮凝露机理及防治关键技术探讨[J] . 电力系统保护与控制,2019,47(5) :168-180.
[7] 施启,张杰,肖一帆,等. 关于变电站高压开关柜防潮除湿分析与防范措施探讨[J] . 电气技术与经济,2018,6(6) :22-24.
[8] 印玲. 散热性能好的实用型高压开关柜的设计[J].湖南农机,2019,46(1) :113-115.
[9] 周小艺,邹国惠,邝玉芳. 高压开关柜异常发热隐患的预防与处置[J] . 科技经济导刊,2020,28(6) :55-56.
[10] 王进,牛海山. 一种节能非线性电液伺服系统双层模糊控制方法研究[J] . 机床与液压,2020,48(9) :111-115.
[11] 王宏朝,单希壮,杨志刚. 矩阵风扇冷却系统模糊控制的研究[J]. 汽车工程,2020,42(3) :70-77.
