《电力自动化设备》

引用本文:	施慎行,董新洲,吴家华,沈冬.配电线路单相接地故障自愈方案[J].电力自动化设备,2012,32(11):
	SHI Shenxing,DONG Xinzhou,WU Jiahua,SHEN Dong.Self-healing of single-phase grounding fault for power distribution lines[J].Electric Power Automation Equipment,2012,32(11):

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配电线路单相接地故障自愈方案
施慎行¹, 董新洲¹, 吴家华², 沈冬²
1.清华大学电力系统国家重点实验室，北京 100084;2.上海市电力公司奉贤供电公司，上海 201400

摘要:

针对配电线路的单相接地故障，提出了故障自愈方案。方案包括单相接地故障检测、故障选线、故障区段识别和接地线路隔离4个部分。故障检测基于母线上的电压互感器开口三角侧电压，当测量电压大于整定值时，判断系统中发生了单相接地故障；故障选线基于线路上的电流行波，极性与众不同的电流行波所在线路为接地线路；故障区段识别基于故障选线的综合结果；选出故障母线后，先闭合接地线路负荷侧的联络开关，再打开接地线路负荷侧进线开关，最后隔离接地线路电源侧。仿真结果表明，所提自愈方案可实现单相接地故障自动快速隔离，故障隔离过程中负荷不失电。

关键词: 配电接地行波故障选线故障隔离故障分析

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基金项目:国家自然科学基金重点资助项目（50937003）；教育部博士点新教师基金资助项目（20090002120028）

Self-healing of single-phase grounding fault for power distribution lines

SHI Shenxing¹, DONG Xinzhou¹, WU Jiahua², SHEN Dong²

1.State Key Laboratory of Power Systems，Tsinghua University，Beijing 100084，China;2.Fengxian Power Supply Company，Shanghai Munipal Electric Power Company，Shanghai 201400，China

Abstract:

A self-healing scheme is presented for the single-phase grounding fault of distribution lines，which consists of four parts：fault detection，faulty feeder selection，faulty section identification and faulty feeder isolation. The fault detection is based on the open-delta-side voltages of PT. A single-phase grounding fault is identified when the measured voltage is greater than the setting value. The faulty feeder selection is based on the current traveling waves. The feeder with different traveling wave polarity is selected as the faulty one. The faulty section identification is based on the synthesized results of faulty feeder selection. After the faulty feeder is selected，close the interconnection switch at the load side first，then open its in-coming switch and isolate the power source side of faulty. Simulative results show that the scheme realizes the automatic quick isolation of single-phase grounding fault without power loss of load.

Key words: electric power distribution electric grounding traveling wave faulty feeder selection fault isolation failure analysis

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