基于零序电压区域放大的配电网高阻接地故障选线新方法

喻锟; 兰宇婷; 曾祥君; 刘战磊; 王沾

doi:10.13334/j.0258-8013.pcsee.240368

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基于零序电压区域放大的配电网高阻接地故障选线新方法

电力系统 | 更新时间：2026-01-08

- 基于零序电压区域放大的配电网高阻接地故障选线新方法
- Faulty Feeder Detection of High-impedance Grounding Fault in Distribution Networks Based on the Regional Amplification of Zero-sequence Voltage
- 中国电机工程学报 2025年45卷第15期页码：5952-5963
- 作者机构：
  
  1. 电网防灾减灾全国重点实验室(长沙理工大学),湖南省,长沙市,410114
  2. 国网许昌供电公司,河南省,许昌市,461000
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.240368
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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喻锟, 兰宇婷, 曾祥君, 等. 基于零序电压区域放大的配电网高阻接地故障选线新方法[J]. 中国电机工程学报, 2025,45(15):5952-5963.

YU Kun, LAN Yuting, ZENG Xiangjun, et al. Faulty Feeder Detection of High-impedance Grounding Fault in Distribution Networks Based on the Regional Amplification of Zero-sequence Voltage[J]. 2025, 45(15): 5952-5963.
喻锟, 兰宇婷, 曾祥君, 等. 基于零序电压区域放大的配电网高阻接地故障选线新方法[J]. 中国电机工程学报, 2025,45(15):5952-5963. DOI： 10.13334/j.0258-8013.pcsee.240368.

YU Kun, LAN Yuting, ZENG Xiangjun, et al. Faulty Feeder Detection of High-impedance Grounding Fault in Distribution Networks Based on the Regional Amplification of Zero-sequence Voltage[J]. 2025, 45(15): 5952-5963. DOI： 10.13334/j.0258-8013.pcsee.240368.

摘要

配电网高阻接地故障特征微弱与系统不平衡易引发故障特征畸变，导致故障选线错误。为此，通过分析不对称系统零序电压调控过程中零序电流运动轨迹，推导柔性接地系统绝缘耐压范围内的零序电压放大区域，解析分析故障前后各线路零序电流随零序电压的变化规律，构建基于零序电流增量的选线判据，提出一种基于零序电压区域放大的配电网高阻接地故障选线新方法，在零序电压调控有限区域内实现故障线路零序电流增量最大化。在PSCAD/EMTDC仿真环境与10 kV真型配电网实验场中搭建典型不平衡配电网场景对各种故障工况进行模拟，仿真与实验结果表明，该文方法能够消除系统参数不对称对选线的影响，在不同失谐度条件下均能放大高阻接地故障微弱特征，实现20 kΩ高阻故障准确选线。

Abstract

High impedance and system asymmetry in distribution networks can distort fault characteristics

leading to erroneous faulty feeder detection. By analyzing the zero-sequence current motion trajectory during the regulation process of zero-sequence voltage

a zero-sequence voltage amplification region within the insulation tolerance range at asymmetric distribution networks is derived. By analyzing the zero-sequence current variation characteristics

a faulty feeder detection criterion based on zero-sequence current increment is constructed. Then proposing a method for high-impedance faulty feeder detection based on regional amplification of zero-sequence voltage

achieving maximization of zero- sequence current increment of faulty feeder within a zero- sequence voltage confined regulation range. A typical asymmetric distribution network scenario is simulated in the PSCAD/EMTDC and 10 kV experimental field to simulate various fault conditions. The results indicate that this method can eliminate the influence of asymmetric system parameters on faulty feeder detection and amplify the weak characteristics of high-impedance fault under different detuning conditions

achieving accurate detection for high-impedance grounding fault up to 20 kΩ.

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