利用同步相和IED数据的非均匀采样率广域备份保护

2022 International Conference on Smart Grid Synchronized Measurements and Analytics (SGSMA) Pub Date : 2022-05-24 DOI:10.1109/SGSMA51733.2022.9806006

J. Chavez, N. V. Kumar, M. Popov, P. Palensky, S. Azizi, E. Melgoza, V. Terzija

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引用次数: 0

摘要

故障电流如果不及时发现和清除，可能导致级联故障甚至系统崩溃。考虑到主保护在高压系统条件下失效的可能性，通常采用额外的保护层，称为备份保护。本文介绍了一种利用pmu和智能电子设备(ied)的可用数据实现远程备份保护的有效方案。该方法分为三个主要阶段。第一阶段处理断层的分区检测。第二阶段的目的是检测故障线路，最后，第三阶段确定故障线路上的故障距离。该方法旨在充分利用pmu和ied提供的测量。由于为此目的采用了动态十进制，因此解决了与不同报告率相关的挑战。通过MATLAB联合仿真实现了该方法的实时性，并在新英格兰IEEE 39总线系统中进行了多故障事件验证。

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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Non-Homogeneous Sampling Rate Wide Area Backup Protection using Synchrophasors and IED Data

Fault currents may result in cascading failures and even system collapse if not detected and cleared on time. To account for the possibility of failure of primary protection under stressed system conditions, an extra layer of protection is commonly employed, referred to as backup protection. This paper introduces an effective formulation for realizing remote backup protection using available data from PMUs and Intelligent Electronic Devices (IEDs). The proposed method is split into three main stages. The first stage deals with the zoning detection of the fault. The second stage is aimed at faulted line detection, and finally, the third stage determines the fault distance on the faulted line. The method is designed to take full advantage of measurements provided by PMUs and IEDs. The challenges associated with different reporting rates are resolved thanks to the dynamic decimator employed to this end. The proposed method has been implemented in real-time by applying co-simulation with MATLAB and validated using the New England IEEE 39 bus system with several fault events.

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2022 International Conference on Smart Grid Synchronized Measurements and Analytics (SGSMA)

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