Analyzing dynamic performance of stressed power systems in vicinity of instability by modal series method

European Transactions on Electrical Power Pub Date : 2009-11-01 DOI:10.1002/ETEP.279

A. H. Naghshbandy, H. Shanechi, A. Kazemi, I. Pourfar

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引用次数: 5

Abstract

Highly stressed power systems exhibit complex dynamic behaviors such as inter-area oscillations when subjected to large disturbances. In such conditions, nonlinear effects have dominant role in determining dynamic response of the systems. In this paper by using modal series method, dynamic behaviors of the stressed power systems in severe conditions and near instability have been studied. Also two measures, mode dominance measure (MDM) and most perturbed machine factor (MPF) have been introduced. They determine the most dominant modes and identify the most perturbed generators when the system is subjected to a given fault. Contribution factors have been used to show the links between identified modes and machines from the analysis. Time domain simulation has been helped for validation of the results. By using similarity transformation, state variables have been represented in modal space and utilized to check the results. The studies are carried out on the IEEE 50-generator test system which demonstrates a wide range of dynamic characteristics at different loading levels and fault scenarios. Copyright © 2008 John Wiley & Sons, Ltd.

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用模态级数法分析失稳附近受力电力系统的动态性能

高压电力系统在受到大扰动时表现出复杂的动态行为，如区域间振荡。在这种情况下，非线性效应对系统的动力响应起主导作用。本文采用模态级数法研究了受应力电力系统在恶劣工况和近失稳状态下的动力特性。介绍了模式优势度度量(MDM)和最扰动机因子(MPF)两种度量方法。当系统遭受给定故障时，它们确定了最主要的模式，并确定了最受干扰的发电机。贡献因子被用来显示从分析中确定的模式和机器之间的联系。时域仿真有助于验证结果。通过相似变换，将状态变量表示为模态空间，并对结果进行检验。该研究在IEEE 50发电机测试系统上进行，该系统在不同负载水平和故障场景下展示了广泛的动态特性。版权所有©2008 John Wiley & Sons, Ltd

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

European Transactions on Electrical Power 工程技术-工程：电子与电气

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审稿时长

5.4 months