真空断路器健康诊断系统的研究
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摘要
真空断路器是电力系统中的重要设备之一,起着控制和保护双重任务,其运行状态直接影响着电力系统的运行稳定性和供电可靠性,当它发生故障或事故时会引起电网事故或扩大事故,造成相当大的经济及其它方面的损失。
近年来,由于我国电力系统电压等级的不断提高,电网覆盖面积的不断增大以及容量的不断提升,对真空断路器的可靠性水平要求也越来越高。我国目前采用的“定期维修”的计划体制存在严重的不足,如临时性维修不足、维修过剩、盲目维修或因检修不当而引发检修事故。依靠设备状态监测、建立在设备运行状态基础上的状态检修是当前科学的状态检修制度,对真空断路器进行在线监测研究,对提高真空断路器的检修水平,实现真空断路器的状态检修,具有重要的经济意义和技术意义。
本文以真空断路器的在线监测为目标,经过大量调研,得出了能反映断路器健康状况的一系列参数,并分析了这些参数的现有的检测方法的利弊,最后确定了监测对象以及所用的传感器,结合国网南京自动化研究院和南京供电公司合作的“基于自愈控制技术的城市电网自动化系统”这个项目,开发了真空断路器在线监测装置。
Vacuum circuit breaker is one of the most broadly applied electric devices in power systems. It is used to control and safeguard electric power equipment in electric power system. The status of breakers directly influences the stability and reliability of power system. When it gets out of order, it will cause electric power accident or other indirect accident.
In recent years, as a result of the unceasing enhancement of electrical powersystem voltage rank, the request of the reliable leve high of the vacuum circuit-breaker is more and more high. The traditional scheduled maintenance or Time Based Maintenance has some serious defects, such as sub-maintenance, over-maintenance and the faults caused by the maintenance accident. Condition Based Maintenance, being based upon condition monitoring, is the most advanced maintenance program nowadays. So, to carry out on-line working condition monitoring research for Vacuum circuit breaker is of great significance to enhance the maintaining of circuit-breakers and to convert from planning maintenance to condition based maintenance.
This thesis aims at the on-line monitoring of the vacuum circuit breaker, in accordance with massive investigation and study, we get a series of parameters which can reflect healthy state of the vacuum circuit breaker, and then analyze the advantages and dis advantages of the existing examination methods of these parameters, finally determine the monitor object as well as the sensors, and unifies the project "automated system of the city electrical network based on Self-healing Control technology" which is cooperated by Nanjing Automation Research Institute and Nanjing ElectricPower Company, and develop the vacuum circuit-breaker on-line monitoring installment.
近年来,由于我国电力系统电压等级的不断提高,电网覆盖面积的不断增大以及容量的不断提升,对真空断路器的可靠性水平要求也越来越高。我国目前采用的“定期维修”的计划体制存在严重的不足,如临时性维修不足、维修过剩、盲目维修或因检修不当而引发检修事故。依靠设备状态监测、建立在设备运行状态基础上的状态检修是当前科学的状态检修制度,对真空断路器进行在线监测研究,对提高真空断路器的检修水平,实现真空断路器的状态检修,具有重要的经济意义和技术意义。
本文以真空断路器的在线监测为目标,经过大量调研,得出了能反映断路器健康状况的一系列参数,并分析了这些参数的现有的检测方法的利弊,最后确定了监测对象以及所用的传感器,结合国网南京自动化研究院和南京供电公司合作的“基于自愈控制技术的城市电网自动化系统”这个项目,开发了真空断路器在线监测装置。
Vacuum circuit breaker is one of the most broadly applied electric devices in power systems. It is used to control and safeguard electric power equipment in electric power system. The status of breakers directly influences the stability and reliability of power system. When it gets out of order, it will cause electric power accident or other indirect accident.
In recent years, as a result of the unceasing enhancement of electrical powersystem voltage rank, the request of the reliable leve high of the vacuum circuit-breaker is more and more high. The traditional scheduled maintenance or Time Based Maintenance has some serious defects, such as sub-maintenance, over-maintenance and the faults caused by the maintenance accident. Condition Based Maintenance, being based upon condition monitoring, is the most advanced maintenance program nowadays. So, to carry out on-line working condition monitoring research for Vacuum circuit breaker is of great significance to enhance the maintaining of circuit-breakers and to convert from planning maintenance to condition based maintenance.
This thesis aims at the on-line monitoring of the vacuum circuit breaker, in accordance with massive investigation and study, we get a series of parameters which can reflect healthy state of the vacuum circuit breaker, and then analyze the advantages and dis advantages of the existing examination methods of these parameters, finally determine the monitor object as well as the sensors, and unifies the project "automated system of the city electrical network based on Self-healing Control technology" which is cooperated by Nanjing Automation Research Institute and Nanjing ElectricPower Company, and develop the vacuum circuit-breaker on-line monitoring installment.
引文
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[3] A.Bosma, R.Thomas. Condition Monitoring and Maintenance Strategies for High-Voltage Circuit-Breakers. Proceedings of the 6th International Conference on Advances in Power System Control, Operation and Management, APSCOM 2003,Hong Kong, November 2003:191-196
[4] 方可行.断路器故障与监测[M]:中国电力出版社,2003.
[5] 王章启,顾霓鸿.配电自动化开关设备[M]:中国电力出版社,1999.
[6] 高丽.真空断路器永磁机构设计和中压开关智能化[D].华北电力大学,2004.
[7] 赵子玉,宋焕生,江秀臣等.一种测量真空开关灭弧室真空度的新方法[J].中国电机工程学报,2006,26(16):144-149.
[8] 邹积岩,何俊佳,程礼椿等.真空灭弧室的真空度测试与在线监测[J].高压电器,1993,(05):13-17.
[9] 赵子玉,邹积岩,何俊佳等.真空灭弧室真空度现场测试技术研究[J].高压电器,1999,19(02):35-37.
[10] 段雄英,赵子玉,邹积岩等.真空灭弧室真空度在线检测的试验研究[J].高压电器,2000,(04):30-32.
[11] 赵智忠,牛芳琳.几种测量电网中真空开关管真空度的方法[J].辽宁工学院学报(自然科学版),2002,22(02):4-5.
[12] 赵子玉,陈雾,李兆治等.不拆卸灭弧室测量真空度的技术研究[J].电工技术杂志,2003,(08):32-35.
[13] 杨韧,王季梅,卢江平等.高压真空断路器真空度测量方法的探讨[J].西北电力技术,2003,(05):1-4,15.
[14] 孟忠,宋玉萍。真空断路器灭弧室真空度的判定及分析[J].华北电力技术,2003,(01):1-5.
[15] 王成江,舒乃秋.真空断路器真空度声学检测方法研究[J].三峡大学学报(自然科学版),2003,25(06):512-515.
[16] 杨清华,陈仕修,沈远茂等.真空灭弧室真空度检测技术的现状和方法[J].电工技术杂志,2003, (05):16-18.
[17] 石岩,邹旭.真空断路器灭弧室真空度在线监测装置[J].电力自动化设备,2004,24(05):61-62.
[18] 赵子玉,李兆治,陈雾等.用旋转式电场探头在线检测灭弧室真空度[J].高电压技术,2003,29(10):29-31.
[19] 叶晓东,赵学文.在线检测真空断路器的真空度[J).电气时代,2005,(08):136.
[20] 李墦,贾伯岩,刘宏亮等.真空断路器真空度的测试[J].河北电力技术,2005,24(04):16-17.
[21] 罗日成,袁松贵.真空开关真空度在线检测系统的设计与实现[J].长沙电力学院学报(自然科学版),2005,20(03):1-4.
[22] 汤之申.真空断路器真空度的在线检测[J].江苏电机工程,2005,24(01):45,49.
[23] 叶晓东,赵学文.一种真空断路器真空度在线检测新方法[J].电力系统自动化,2006,30(11):49-51.
[24] 叶晓东,赵学文.具有新型真空度在线检测装置的真空断路器特性试验[J].电力系统自动化,2006,30(12):58-60.
[25] 毋富安,郭五一.10kV真空断路器真空度的判定与分析[J].河南电力,2006,(03):22-23.
[26] 郎福成.真空断路器机械特性在线监测[D].沈阳工业大学,2005.
[27] 陈志钊.真空灭弧室蒸汽屏蔽罩的研究及在真空度监测方面的应用[D].中国电力科学研究院,2000.
[28] 姚爱明.真空灭弧室真空度的超声和脉冲电流的检测与实验研究[D].重庆大学,2005.
[29] 林峰.基于高频脉冲电流的真空度检测系统[D].大连理工大学,2006.
[30] 汪永华.真空断路器的状态监测与故障诊断探析[J].电气试验,2005,1(1):35-37.
[31] 孟永鹏,贾申利,荣命哲等.短时能量分析法在断路器机械状态监测中的应用[J].西安交通大学学报,2004,38(12):1301-1305.
[32] 赵霞,熊小伏,郭珂等.用细化频谱技术分析断路器操动机构振动信号[J].电力系统自动化,2003,27(12):37-40,80.
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