《电力自动化设备》

引用本文:	喻磊,郭晓斌,韩博文,雷金勇,田兵,白浩,李海锋,王钢.小电阻接地系统馈线自适应零序电流保护原理及装置实现[J].电力自动化设备,2017,37(11):
	YU Lei,GUO Xiaobin,HAN Bowen,LEI Jinyong,TIAN Bing,BAI Hao,LI Haifeng,WANG Gang.Principle of adaptive zero-sequence current protection and implementation of its device for feeder of low resistance grounding system[J].Electric Power Automation Equipment,2017,37(11):

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小电阻接地系统馈线自适应零序电流保护原理及装置实现
喻磊¹, 郭晓斌¹, 韩博文², 雷金勇¹, 田兵¹, 白浩¹, 李海锋², 王钢²
1.南方电网科学研究院，广东广州 510080;2.华南理工大学电力学院，广东广州 510641

摘要:

小电阻接地系统发生多回线同相复杂接地故障时，零序电流幅值相比于单回线接地故障将显著下降，容易导致馈线首端的零序电流保护拒动，进而造成母线接地变压器的零序电流保护越级误动，扩大停电范围。为此，对小电阻接地系统多回线复杂接地故障的故障机理进行分析，推导了多回线与单回线接地故障下馈线零序电流关系；在此基础上，提出了一种自适应馈线零序电流保护方案，即根据母线电压将多回线接地故障的零序电流实时补偿为单回线接地故障的零序电流值，从而确保了常规的保护动作值整定方式和保护配合能够适用于多回线复杂接地故障，并研发了相应的自适应零序保护装置。基于PSCAD/EMTDC和RTDS对保护原理及保护装置的测试结果表明，自适应零序电流保护在多回线复杂接地故障情况下仍具有较高的灵敏性，补偿精度不受过渡电阻、故障位置的影响。所提保护方案只需在原有零序电流保护方案基础上，增加母线电压信息，容易实现，具有经济性和较高的工程应用价值。

关键词: 小电阻接地系统零序电流复杂接地故障故障分析自适应保护继电保护 RTDS测试

DOI：10.16081/j.issn.1006-6047.2017.11.020

分类号:TM77

基金项目:国家自然科学基金资助项目(51477057)

Principle of adaptive zero-sequence current protection and implementation of its device for feeder of low resistance grounding system

YU Lei¹, GUO Xiaobin¹, HAN Bowen², LEI Jinyong¹, TIAN Bing¹, BAI Hao¹, LI Haifeng², WANG Gang²

1.Electric Power Research Institute of CSG, Guangzhou 510080, China;2.School of Electric Power, South China University of Technology, Guangzhou 510641, China

Abstract:

When in-phase grounding fault occurs in multi-circuit lines, the zero-sequence current would significantly decrease compared with that during single line grounding fault, which may cause zero-sequence current relay protection to function improperly and expand the fault range. Therefore, the SPGF(Single Phase Grounding Fault) mechanism of multi-circuit lines in low resistance grounding system is analyzed, and the relationship between feeder zero-sequence current during both multi-circuit line and single-circuit line SPGF is deduced, based on which, a novel adaptive zero-sequence current protection scheme is proposed, i. e. the zero-sequence current during SPGF occurs in multi-circuit lines can be compensated to zero-sequence current during single-circuit line SPGF according to the bus voltage in real time. The protection device based on the proposed scheme is developed. The proposed scheme and the protection device are verified via PSCAD/EMTDC and RTDS, the results show that the proposed scheme has high sensitivity during complex SPGF occurs in multi-circuit line, and the compensation accuracy is not affected by transition resistance and fault location. The proposed scheme can easily be implemented and has economic and high engineering application value since it only needs to add the bus voltage information on the basis of the existing zero-sequence current protection scheme.

Key words: low resistance grounding system zero-sequence current complex grounding fault failure analysis adaptive protection relay protection RTDS test

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