Synchronized phasor data based energy function analysis of power transfer paths

2006 IEEE Power Engineering Society General Meeting Pub Date : 2006-10-16 DOI:10.1109/PES.2006.1709043

J. Chow, A. Chakrabortty, M. Arcak, B. Bhargava, A. Salazar

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引用次数: 2

Abstract

Many large interconnected power systems such as the US eastern interconnection and the US western power system are characterized by many power transfer paths with high loading. Disruptions of these transfer paths frequently lead to increased loading on neighboring transfer paths, which themselves become less secure and could cause further disruptions. State estimators have limited performance under large system disruptions, because of low sampling rates and potentially poor solution quality due to topology errors. Furthermore, disruptions in external power systems cannot be readily seen by control room operators because most state estimators only use reduced models for external systems. A system of well-placed phasor measurement units (PMUs) that provide voltage and current magnitude and phase at a high sampling rate can provide useful system dynamic security information. In this paper we apply energy function analysis using phasor data to monitor the dynamic status of power transfer paths. The ideas are illustrated for a power transfer path using actual PMU data in the US western power system

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基于同步相量数据的电力传输路径能量函数分析

许多大型互联电力系统，如美国东部电网和美国西部电网，其特点是电力传输路径多，负载高。这些传输路径的中断经常导致相邻传输路径上的负载增加，而相邻传输路径本身变得不那么安全，并可能导致进一步的中断。由于采样率低以及拓扑错误可能导致的解决方案质量差，状态估计器在大型系统中断下的性能有限。此外，由于大多数状态估计器对外部系统只使用简化模型，因此控制室操作员无法轻易看到外部电力系统的中断。一个位置良好的相量测量单元(pmu)系统可以在高采样率下提供电压和电流的大小和相位，可以提供有用的系统动态安全信息。本文利用相量数据进行能量函数分析，监测电力传输路径的动态状态。这些想法是用实际的PMU数据在美国西部电力系统的电力传输路径说明

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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2006 IEEE Power Engineering Society General Meeting

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