Research on the Positioning Method of Single-Phase to Earth Fault in Distributed Distribution Network-Reference-Cited by-同舟云学术

Research on the Positioning Method of Single-Phase to Earth Fault in Distributed Distribution Network

Published:2021-04-27 Issue: Volume: Page:
ISSN:1662-0356
Container-title:Materials, Computer Engineering and Education Technology
language:
Short-container-title:

Author:

Zhao Shi Qin¹,Cen Rong Jia¹,Shi Chun Qing¹

Affiliation:

1. Duyun Power Supply Bureau of Guizhou Power Grid Co., Ltd

Abstract

The existing high-density distributed distribution network single-phase earth fault interval location method has the disadvantage of long positioning time. Hence, a single-phase earth fault interval positioning method for high-density distributed distribution network is proposed to solve this problem. In order to accurately locate the single-phase earth fault interval of distribution network, zero-order equivalent model of distribution network is built at first. Next the clustering algorithm is used to extract the single-phase earth fault characteristics, while the single-phase earth fault phase current increment is calculated by using the analysis method to obtain the single-phase earth fault phase current increment law. Then a fault-maximum interval T-shaped structure is built to divide the potential fault interval. Finally, the S-transformation is applied to accurately locate the single-phase earth fault interval, and the localization of the single-phase earth fault interval of the high-density distributed distribution network is achieved. The experimental results show that comparing with the existing high-density distributed distribution network single-phase earth fault interval positioning method, the proposed high-density distributed distribution network single-phase earth fault interval positioning method dramatically reduces the positioning time. It is fully explained that the proposed method in this article has a better positioning effect.

Publisher

Trans Tech Publications Ltd

Link

https://www.scientific.net/AST.105.151.pdf

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