Analysis of AC Filter Tripping Accident based on UHV Converter Station

Journal of Physics: Conference Series Pub Date : 2024-07-01 DOI:10.1088/1742-6596/2774/1/012058

Ye Ai, Ruixuan Bi, Mengchao Ma, Pei Li, Lina Chen, Haifeng Li

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Abstract

An AC filter tripping accident occurred in a converter station of the North China Power Grid in 2019, which seriously affected the safe and stable operation of the power grid. In this paper, combined with the configuration of the AC filter in the converter station and the principle of capacitor unbalance protection, the tripping mechanism of the AC filter is explained. It is considered that the direct cause of the tripping of the AC filter is the short-circuit discharge phenomenon between the layers caused by the dead trees (grass) branches on the capacitor tower, which causes the instantaneous fault between the layers of the low-voltage capacitor, and finally leads to the action of the capacitor unbalance protection. From the perspective of operation and maintenance, some practical preventive measures are put forward, which will help to improve the safety of AC filter operation in the future, and then improve the reliability of DC transmission system, especially during the peak summer, peak winter and special power protection period, to ensure that there will be no fluctuation in DC load transmission and protect the safe and stable operation of power grid.

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基于特高压换流站的交流滤波器跳闸事故分析

2019年华北电网某换流站发生交流滤波器跳闸事故，严重影响了电网的安全稳定运行。本文结合换流站交流滤波器的配置和电容器不平衡保护原理，阐述了交流滤波器的跳闸机理。认为交流滤波器跳闸的直接原因是电容器塔上枯树（草）枝引起的层间短路放电现象，造成低压电容器层间瞬时故障，最终导致电容器不平衡保护动作。从运行维护的角度出发，提出了一些切实可行的预防措施，有助于提高今后交流滤波器运行的安全性，进而提高直流输电系统的可靠性，特别是在迎峰度夏、迎峰度冬和特殊保电期间，确保直流负荷输送不出现波动，保障电网安全稳定运行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Physics: Conference Series

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