基于补偿的电容器阻抗保护方法
邓鑫,丁力,王万纯,陈建松,王天伟
(南京南瑞继保电气有限公司,江苏 南京 211102)
摘 要:不平衡保护作为电容器的主保护,存在使用范围受限、对称故障无法识别的问题。提出了基于补偿的电容器阻抗保护方法,该方法适用范围广,特征量可监测且无死区,可作为不平衡保护的后备保护或单独使用。介绍了以阻抗偏差率为特征量的阻抗保护方法,探讨了补偿的必要性,分析了静态补偿、动态补偿的基本原理,并对补偿效果进行了RTDS实验验证。实验结果表明,补偿后阻抗保护灵敏性、可靠性均有了显著提升。
关键词:电容器;阻抗保护;阻抗偏差率;静态补偿;动态补偿
中图分类号:TM531.4 文献标识码:A 文章编号:1007-3175(2021)03-0025-05
Compensation-Based Impedance Protection for Capacitors
DENG Xin, DING Li, WANG Wan-chun, CHEN Jian-song, WANG Tian-wei
(NR Electric Co., Ltd, Nanjing 211102, China)
Abstract: As the main protection of capacitors, unbalance protection has the problems of limited use range and unrecognized symmetrical faults. This paper proposes a capacitor impedance protection method based on compensation. This method has a wide range of applications, feature quantities can be monitored and no dead zone, and can be used as a backup protection for unbalanced protection or used alone. This paper also introduces the impedance protection method with impedance deviation as the characteristic quantity, discusses the necessity of compensation, analyzes the basic principles of static compensation and dynamic compensation, and verifies the compensation effect by RTDS experiment. Experimental results show that after compensation, the sensitivity and reliability of impedance protection have been significantly improved.
Key words: capacitor; impedance protection; impedance deviation rate; static compensation; dynamic compensation
参考文献
[1] SAMINENI S, LABUSCHAGNE C, POPE J.Principles of shunt capacitor bank application and protection[C]//2010 63rd Annual Conference Protective Relay Engineers, 2010.
[2] 胡旌杰,谭建成. 并联电容器保护研究[J]. 电气开关,2012,50(5) :38-42.
[3] 吴娅妮,吕鹏飞,王德林,等. 交流滤波器高压电容器不平衡保护新原理[J]. 电力系统自动化,2008,32(24) :56-59.
[4] 黄旭东. 电力电容器保护探讨[J]. 电力电容器与无功补偿,2009,30(3) :48-50.
[5] 肖遥,张晋寅,杨晓峰,等. Ⅱ型接线滤波电容器组不平衡电流保护判据及定值[J]. 电力系统自动化,2015,39(22) :137-144.
[6] 梅念,李银红,陈东,等.HVDC工程交/ 直流滤波器高压电容器不平衡保护的判据研究[J]. 电网技术,2011,35(12) :229-234.
[7] 朱韬析,王宁宁,郭卫明,等. 交流滤波器电容器不平衡保护在南方电网直流输电系统中的应用[J].电力系统保护与控制,2010,38(20) :102-105.
[8] 余江,周红阳,赵曼勇. 高压电容器不平衡保护的相关问题[J]. 电力系统自动化,2006,30(13) :85-89.
[9] 张建军,袁继军,孙红华,等.35 kV及以上并联电容器装置保护方式研究[J]. 电力电容器与无功补偿,2014,35(5) :16-20.
[10] MOXLEY R, POPE J, ALLEN J. Capacitor bank protection for simple and complex configurations[C]//2012 65th Conference for Protective Relay Engineers, 2012.
[11] KASZTENNY B, MCGINN D, VOLOH I.Enhanced Adaptive Protection Method for Capacitor Banks[C]//2008 Iet 9th International Conference on Developments in Power System Protection, 2008.
[12] 陶梅,江钧祥. 自愈式并联电容器加速寿命试验方法探讨[J]. 电力电容器,2007(1) :41-43.
[13] 王紫琪,和敬涵,王小君,等. 考虑温度因素的特高压并联电容器双桥差不平衡电流保护整定方法[J]. 电力系统保护与控制,2016,44(22) :82-88.
[14] KASZTENNY B, SCHAEFER J, CLARK E.Fundamentals of adaptive protection of large capacitor banks[C]//2007 Power Systems Conference: Advanced Metering, Protection, Control, Communication, and Distributed Resources, 2007.
