Single Ended Fault Locator for Power Transmission Lines Connected with Inverter Based Resources: Problems and Mitigation Approach

2022 22nd National Power Systems Conference (NPSC) Pub Date : 2022-12-17 DOI:10.1109/NPSC57038.2022.10069782

Likhitha Kukkala, O. Naidu, A. V, Shivani Sharma

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Abstract

Single-ended fault location accuracy is adversely influenced by integration of the inverter based renewable resources (IBRs). In this paper, we cover a more generic examination of performance of single-ended fault locator for lines connected with IBRs. This analysis is used for understanding the causes of high fault location error for lines with IBRs. This information can be used for designing accurate single-ended fault locator for IBR connected networks. The paper also presents a mitigation approach which has potential improvement in fault location accuracy by using remote terminal current. The remote current is readily available, as most of the IBR connected lines are employed by differential relays as main protection. The proposed mitigation approach can be implemented in the existing line differential protection IEDs (Intelligent Electronic Devices). The approach is demonstrated using EMTDC simulation of a 220-kV, 200km transmission line connected with IBRs. Validation with field data confirms the accuarcy of proposed mitigation approach.

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基于资源与逆变器连接的输电线路单端故障定位:问题及缓解方法

基于逆变器的可再生资源集成会对单端故障定位精度产生不利影响。在本文中，我们将对与ibr连接的线路的单端故障定位器的性能进行更一般的检查。该分析用于理解ibr线路的高故障定位误差的原因。这些信息可用于设计IBR连接网络的精确单端故障定位器。本文还提出了一种利用远端电流对故障定位精度有潜在提高的缓解方法。由于大多数IBR连接线路由差动继电器作为主保护，因此远程电流随时可用。建议的缓解方法可在现有的线路差动保护智能电子装置(ied)中实施。该方法通过与ibr连接的220千伏200公里输电线路的EMTDC仿真进行了验证。现场数据验证证实了所建议的缓解方法的准确性。

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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来源期刊

2022 22nd National Power Systems Conference (NPSC)

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