基于零序差动阻抗的输电线路保护新原理研究

吴继维; 童晓阳; 廖小君; 郑永康

引用本文:	吴继维,童晓阳,廖小君,郑永康.基于零序差动阻抗的输电线路保护新原理研究[J].电力系统保护与控制,2017,45(10):11-17.[点击复制]
	WU Jiwei,TONG Xiaoyang,LIAO Xiaojun,ZHENG Yongkang.Transmission line protection principle based on zero sequence differential impedance[J].Power System Protection and Control,2017,45(10):11-17[点击复制]

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基于零序差动阻抗的输电线路保护新原理研究
吴继维,童晓阳,廖小君,郑永康
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(西南交通大学电气工程学院，四川成都 610031;湖州供电公司，浙江湖州313000;国网四川省电力公司技能培训中心，四川成都 610072;国网四川省电力公司电力科学研究院，四川成都610072)

摘要:

针对现有的输电线路光纤纵联差动保护原理易受分布电容电流影响较大，且要求线路两端信息的严格同步的问题，研究了一种基于双侧信息的零序差动阻抗保护原理。给出了零序差动阻抗的定义为线路两端零序电压与零序电流比值之和。由理论分析可知区内故障时零序差动阻抗为两侧系统零序阻抗和的负值，阻抗位于第三象限，区外故障时零序差动阻抗为线路的阻抗，阻抗位于第一象限。根据零序差动阻抗的阻抗角构成保护判据。在PSCAD中搭建模型进行仿真实验，实验结果表明，零序差动阻抗保护原理不受对地电容电流和过渡电阻的影响，适用于带并联电抗器补偿的线路和弱馈电系统，并不要求两侧信号严格同步。

关键词: 输电线路保护零序差动阻抗阻抗角对地电容电流

DOI：10.7667/PSPC160819

投稿时间：2016-06-06修订日期：2016-08-28

基金项目:国家自然科学基金项目(51377137);四川省科技厅重点研发项目(2017GZ0054)

Transmission line protection principle based on zero sequence differential impedance

WU Jiwei,TONG Xiaoyang,LIAO Xiaojun,ZHENG Yongkang

(School of Electrical Engineering, Southwest Jiaotong University, Chengdu 610031, China;Huzhou Electric Power Design Institute, Huzhou 313000, China;State Grid Electric Power Company Skills Training Center, Chengdu 610072, China;State Grid Sichuan Electric Power Research Institute, Chengdu 610072, China)

Abstract:

The optical longitudinal differential protection theory for transmission lines at present is affected easily by distributed capacitance current and requires rigid synchronization of double-terminal information of lines. The zero-sequence differential impedance protection principle based on bilateral information is proposed. The definition of zero-sequence differential impedance and the criterion of zero-sequence impedance differential protection principle are given. The zero-sequence differential impedance is equal to the opposite value of the sum of both sides system zero sequence impedance, which is in the third quadrant, when the fault happens within the protection zero. The zero-sequence differential impedance is equal to the transmission line zero sequence impedance, which is in the first quadrant, when the fault happens out of the protection zero. Some models are built in PSCAD to verify the correctness of the zero sequence differential impedance protection principle. Experimental results show that the criterion is not influenced by the fault resistance, and can be applied in the line with or without shunt reactor and weak feeding system, and the strict synchronization of the sampled data is not needed. This work is supported by National Natural Science Foundation of China (No. 51377137).

Key words: transmission line protection zero-sequence differential impedance protection impedance angle capacitive current

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