特高压固定串补控保系统光隔端子故障分析及改进
刘涛1,李凤旭2,鲁盼1,乔振朋1,杨征1
(1 国网河南省电力公司直流中心,河南 郑州 450051;
2 华能(浙江)能源开发有限公司玉环分公司,浙江 玉环 317604)
摘 要:介绍了某特高压串补工程控保系统 220 V 光隔端子发生的两次危急缺陷,指出该工程现场运用的数百个同型号产品均有类似故障的可能。对该型光隔电路进行电气分析和热分析,认为部分元件功耗偏大、布局集中、散热设计不合理是导致故障的根本原因。提出降低输入电流以减小功耗同时改善散热布置的改进方案。试验证明改进后的光隔端子运行可靠性显著提升,满足工程需求。
关键词: 特高压串补;控保系统;光隔端子;散热
中图分类号:TM723 ;O433.1 文献标识码:B 文章编号:1007-3175(2023)03-030-04
Fault Analysis and Improvement of Optical Isolated Terminals in UHV
Series Compensation Control and Protection System
LIU Tao1, LI Feng-xu2, LU Pan1, QIAO Zhen-peng1, YANG Zheng1
(1 State Grid Henan DC Center, Zhengzhou 450051, China;
2 Huaneng(Zhejiang) Energy Development Co., Ltd. Yuhuan Branch, Yuhuan 317604,China)
Abstract: Two defects of 220 V optical isolated terminals happening in the control and protection system of an UHV series compensation project are introduced, and the possibility of similar defects occurring to hundreds of products with the same model used in this project is pointed out. After making electrical and thermal analysis of the optical isolated circuit, the authors think that the root causes of these defects are the large power consumption, centralized layout and unreasonable heat dissipation design of some elements. Therefore, an improved scheme to decrease power consumption by reducing input currents and to optimize heat dissipation layout is proposed. Tests show that the improved optical isolated terminals can have better operation reliability and meet the engineering requirements.
Key words: UHV series compensation; control and protection system; optical isolated terminal; heat dissipation
参考文献
[1] 乔中伟,钱敏,郭松伟,等. 二次电缆对地分布电容对强电开入回路的影响研究[J] . 电力系统保护与控制,2018,46(13):161-165.
[2] 赵康伟. 继电保护装置采用光隔开入引起误动的思考[J]. 华北电力技术,2005(8):38-39.
[3] 宋小舟,王柳,智全中. 继电保护装置光隔开入测试方法的研究[J]. 电网技术,2010,34(6):44-47.
[4] 左航,李小鹏,徐方维,等. 基于有理函数逼近的光耦合隔离放大器宽频域建模方法[J] . 电力系统保护与控制,2021,49(9):113-120.
[5] 潘明俊,张明,李霆霆,等. 基于 J-TEXT 装置的光耦合隔离放大器设计与分析[J] . 核聚变与等离子体物理,2015,35(3):265-271.
[6] 杨广羽,马玉新,傅亚光,等. 光电耦合 MOS 栅固态继电器回路研究与误触发改进措施[J] . 电力系统保护与控制,2016,44(15):135-141.
[7] 刘涛,郭果. 特高压固定串补火花间隙拒触发事故分析及解决方案[J] . 电力自动化设备,2021,41(1):218-224.
[8] 李应文,段继儒,刘涛. 特高压固定串补 MOV 防爆能力提升方案[J] . 水电能源科学,2021,39(1):155-159.
[9] 刘涛,裴东良,杨征,等. 特高压变电站隔离刀闸二次回路若干问题分析及改进[J] . 电工电气,2020(10):32-38.
