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清华大学学报(自然科学版)  2023, Vol. 63 Issue (7): 1164-1172    DOI: 10.16511/j.cnki.qhdxxb.2023.26.012
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基于暂态电压的GIS断路器辅助触头弹跳监测与分析
张鹏飞1, 丁登伟2, 杨新志3, 刘焱4, 李星2, 何良2
1. 国家电网有限公司, 北京 100031;
2. 清华四川能源互联网研究院, 成都 610213;
3. 中国长江电力股份有限公司, 宜昌 443002;
4. 中国电力科学研究院有限公司, 北京 100192
Monitoring and analysis of the auxiliary contact bounce of a gas-insulated switchgear circuit breaker according to transient voltage
ZHANG Pengfei1, DING Dengwei2, YANG Xinzhi3, LIU Yan4, LI Xing2, HE Liang2
1. State Grid Corporation of China, Beijing 100031, China;
2. Sichuan Energy Internet Research Institute, Tsinghua University, Chengdu 610213, China;
3. China Yangtze Power Corporation Co., Ltd., Yichang 443002, China;
4. China Electric Power Research Institute, Beijing 100192, China
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摘要 带合闸电阻的气体绝缘开关设备(gas insulated switchgear,GIS)断路器结构复杂,故障率较高。断路器合闸过程中辅助触头可能发生弹跳,导致主断口被击穿,危及设备绝缘安全。为此,该文提出了基于合闸过程暂态电压检测的辅助触头弹跳状态监测和诊断方法。利用不同断路器对同一条空载气体绝缘输电线路(gas insulated line,GIL)进行充电试验。试验结果表明:不带合闸电阻的断路器在合闸过程中,触头间出现电弧熄灭和复燃现象,激发的暂态电压包含丰富的高频振荡分量;带合闸电阻的断路器在合闸过程中,产生2种差异明显的暂态电压,Ⅰ类暂态电压不含高频振荡分量,由辅助断口预击穿和重击穿产生,Ⅱ类暂态电压与不带合闸电阻的断路器合闸时激发的暂态电压类似,包含丰富的高频振荡分量,由辅助触头弹跳后主断口被击穿引起。该文通过对带合闸电阻的断路器合闸过程进行分析,解析合闸过程的暂态电压波形,提出以辅助触头弹跳熄弧时间间隔作为表征辅助触头弹跳状态的特征因子,可实现断路器运行状态的有效监测和评估。
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张鹏飞
丁登伟
杨新志
刘焱
李星
何良
关键词 气体绝缘开关设备断路器合闸电阻暂态电压辅助触头弹跳监测和诊断    
Abstract:Gas-insulated switchgear (GIS) circuit breakers (CBs) with a closing resistor are characterized by structural complexity and a high failure rate. The auxiliary contact of the closing resistor may bounce during the closing process of the GIS CB. The bounce of the closing resistor contacts may cause arc restriking between the auxiliary contacts and aggravate the ablation of the contacts. Moreover, the auxiliary contact bounce may lead to the breakdown of the main break, resulting in high transient voltage and threatening the equipment insulation. Therefore, monitoring and evaluating the bounce of the auxiliary contact of the closing resistor is crucial. In this paper, the closing process of a CB with a closing resistor and the bounce of the auxiliary contacts were analyzed. Then, a method for monitoring and diagnosing the bounce condition of the auxiliary contact of the closing resistor according to the transient voltage during the closing process was proposed. An ultrawide-frequency-band sensing technology for transient voltage detection was introduced, and an online transient voltage-monitoring system based on the voltage divider sensing technology was realized. The effective measurement bandwidth of this system is 10 Hz-100 MHz. Two CBs (with and without a closing resistor) were used to charge the same gas insulated line (GIL), and the transient voltage during the CB closing process was monitored. The transient voltage and closing resistor contact bounce during the closing of two CBs were analyzed and compared, and the following conclusions were obtained. During the closing process of the CB without a closing resistor, the excited transient voltage contained rich high-frequency components. During the closing process of the CB with a closing resistor, two types of transient voltages (type Ⅰ and Ⅱ) were generated. Type Ⅰ did not contain any high-frequency components, and type Ⅱ was similar to the voltage generated during the closing process of the CB without a closing resistor. The type Ⅰ voltage was induced by the breakdown between the auxiliary contacts, and the type Ⅱ voltage was generated by the breakdown between the main contacts during the bounce of the auxiliary contacts. Through the online monitoring of the transient voltage during the CB closing process, the bounce of the auxiliary contacts and the breakdown voltage of the main break were analyzed, and the time interval between the first breakdown of auxiliary contacts and arc extinction after the bounce was proposed to characterize the bounce condition of the auxiliary contacts. Owing to the existence of a closing resistor, there is a difference between the transient voltages generated by the breakdown of the auxiliary break and the main break. During the closing process of the CB with a closing resistor, the breakdown occurred in the main break, indicating that the auxiliary contact bounced and that the closing resistor did not function. Therefore, through analysis of the moment at which the second type of transient voltage appears during the closing process of CBs with a closing resistor, the online monitoring and diagnosis of the bounce condition of the closing resistor contact could be realized. The results of this study can guide the effective monitoring and evaluation of the operating condition of CBs and provide a reference for the design and online monitoring of CBs with closing resistors.
Key wordsgas-insulated switchgear circuit breaker    closing resistor    transient voltage    auxiliary contact bounce    monitoring and diagnosis
收稿日期: 2022-10-27      出版日期: 2023-06-27
基金资助:国家自然科学基金面上项目(51977120)
通讯作者: 丁登伟,教授级高级工程师,E-mail:sunnyall123@163.com     E-mail: sunnyall123@163.com
作者简介: 张鹏飞(1983—),男,高级工程师。
引用本文:   
张鹏飞, 丁登伟, 杨新志, 刘焱, 李星, 何良. 基于暂态电压的GIS断路器辅助触头弹跳监测与分析[J]. 清华大学学报(自然科学版), 2023, 63(7): 1164-1172.
ZHANG Pengfei, DING Dengwei, YANG Xinzhi, LIU Yan, LI Xing, HE Liang. Monitoring and analysis of the auxiliary contact bounce of a gas-insulated switchgear circuit breaker according to transient voltage. Journal of Tsinghua University(Science and Technology), 2023, 63(7): 1164-1172.
链接本文:  
http://jst.tsinghuajournals.com/CN/10.16511/j.cnki.qhdxxb.2023.26.012  或          http://jst.tsinghuajournals.com/CN/Y2023/V63/I7/1164
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
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