基于PMU的实时短期电压稳定监测——实时试验台的分析与实现

2014 North American Power Symposium (NAPS) Pub Date : 2014-11-24 DOI:10.1109/NAPS.2014.6965485

A. Reddy, Kerem Ekmen, V. Ajjarapu, U. Vaidya

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引用次数: 10

摘要

电压稳定在许多停电事故中起着重要作用。有人建议开发在线工具，以评估系统的稳定性，并帮助减少大规模停电的发生。本文提出了一种基于PMU电压测量值实时评估系统短期电压稳定性的无模型算法。这种方法使用简单的计算来确定李雅普诺夫指数，其符号表示系统的稳定性(负)或不稳定性(正)。该方法在实时网络物理试验台上实现，该试验台模拟了RTDS中的wecc9总线系统，该系统与SEL-421 PMU接口，将电压采样数据通过以太网传输到OpenPDC, OpenPDC通过数据库与Matlab接口。该算法在实时检测系统稳定性方面取得了成功。

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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PMU based real-time short term voltage stability monitoring — Analysis and implementation on a real-time test bed

Voltage stability plays major role in many blackout incidents. It has been recommended to develop online tools that can assess stability of the system and help in reducing the occurrence of large scale blackouts. This paper proposes a model free algorithm that can assess the short term voltage stability of the system in real time based on voltage measurements from PMU's. This approach uses simple calculations to determine the Lyapunov Exponent whose sign indicates the stability (negative) or instability (positive) of the system. This method is implemented in a real time cyber-physical test bed that is simulating the WECC 9 Bus system in RTDS that is interfaced with an SEL-421 PMU transmitting the voltage samples data over the Ethernet to OpenPDC which is interfaced to Matlab via a database. The setup is demonstrated and the algorithm is successful in detecting the stability of the system in real time.

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2014 North American Power Symposium (NAPS)

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