Forced Oscillations in Wind Energy Generation Systems

2009 International Workshop on Chaos-Fractals Theories and Applications Pub Date : 2009-11-06 DOI:10.1109/IWCFTA.2009.28

Zhen Li, Siu-Chung Wong, C. Tse

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引用次数: 7

Abstract

Use of the doubly fed induction generator (DFIG) in wind energy generation systems allows variable speed operation by using partially rated back-to-back quadruple active and reactive power PWM converters. The control of the system is very complex. Despite numerous new control schemes reported in the literature, these control techniques, which are designed to solve some particular control problems, have rarely been tested for general stability problems systematically. Specifically, nonlinear stability analysis of the system has not been reported before. In this paper, we use a commonly used control scheme to study the system stability in terms of the oscillatory magnitude of the voltage link capacitor of the system under unbalanced grid voltage. An important variation parameter, frequency of the unbalanced grid voltage, is used in this paper. Stability diagrams is collected using the voltage of the link capacitor of the back-to-back PWM power converters, exposing the possibility of chaotic behavior of the wind generation system. This paper thus plays the role of characterizing wind energy generation systems using nonlinear stability analysis.

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风力发电系统中的强迫振荡

在风能发电系统中使用双馈感应发电机(DFIG)，通过使用部分额定背靠背四重有功和无功PWM变换器，可以实现变速运行。这个系统的控制非常复杂。尽管文献中报道了许多新的控制方案，但这些旨在解决某些特定控制问题的控制技术很少被系统地测试用于一般稳定性问题。具体而言，系统的非线性稳定性分析尚未见报道。本文采用一种常用的控制方案，根据电网电压不平衡情况下系统电压链路电容的振荡幅值来研究系统的稳定性。本文采用了一个重要的变化参数——电网不平衡电压的频率。利用背靠背PWM功率变换器的链路电容电压收集稳定性图，揭示风力发电系统混沌行为的可能性。因此，本文利用非线性稳定性分析对风力发电系统进行了表征。

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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2009 International Workshop on Chaos-Fractals Theories and Applications

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