工业电力系统暂态稳定评估的详细模型实现

Masayuki Watanabe, Y. Mitani, H. Iki, Y. Uriu, Y. Urano
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引用次数: 4

摘要

本文简要总结了工业用户电力系统中的一些问题,并提出了一种分析由自发电机、变电站和多台感应电动机组成的系统暂态行为的方法。一些突发事件后的功率振荡和电压恢复性能被认为是客户系统的典型问题。由于系统结构复杂所引起的强非线性,给系统暂态的合理评估带来了困难。电力系统分析是解决这些问题的有效对策,然而,为了更好地评估固有现象,对各部件进行建模还存在一些问题。本文讨论了对复杂调速器系统进行动态过程评估所需的模型。这些模型在面向对象配置的MATLAB/Simulink环境中一致地实现。以某石化装置实际电力系统为例,对其静态和动态特性进行了研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transient stability assessment of industrial power systems with detailed models implementation
This paper presents a brief summary of issues on industrial customer's electrical power systems and an approach to analyze the transient behavior of a system with the group of self-generators, substations and many induction motors. Power oscillations and voltage recovery performance after some contingencies are recognized as typical issues on customer's systems. The strong nonlinearity caused by the complicated system configuration falls into difficulties of the proper evaluation of the transient state. Power system analysis is an effective countermeasure for these issues, however, there are some problems on the modeling of each component for better assessment of inherent phenomena. In this paper, required models especially for the complicated governor system for the assessment of the dynamical process are discussed. These models are consistently implemented on the MATLAB/Simulink environment with object oriented configuration. Static and dynamic characteristics of the real power system of a petrochemical plant are investigated as an example.
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