Mechanisms of middle-frequency oscillations in an offshore wind farm induced by the converter current inner loops

Journal of Physics: Conference Series Pub Date : 2024-07-01 DOI:10.1088/1742-6596/2806/1/012012

Yong Chen, Hui Huang, Ruixiong Yang, Xingwang Ren, Yawei Sang, Haobin Wu

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Abstract

Middle-frequency oscillation instability is one of the important issues that threats the safe integration of offshore wind farms. However, analytical explanations to key affecting factors and laws for the middle-frequency oscillation are not clear yet, which makes it difficult to avoid this kind of oscillation effectively. Therefore, in this paper, mechanism for the middle-frequency oscillation induced by the dynamics of converter current inner loops is studied in-depth. First, small-signal transfer function model for a general offshore wind farm integrated via AC submarine cable is established. Then impact of the AC submarine cable and control parameters of the converter current inner loops on oscillation stability of the wind farm is analysed via eigenvalue analysis. It is found that with the length of AC submarine cable increases, frequency for the open-loop pole of the AC grid decreases. When open-loop pole of the AC grid gets close that of the PMSGs on complex plane, the near strong mode resonance can cause middle-frequency oscillation of the system. Finally, effectiveness of the conclusions drawn is evaluated through nonlinear simulations.

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变流器电流内环诱发海上风电场中频振荡的机理

中频振荡不稳定性是威胁海上风电场安全并网的重要问题之一。然而，对中频振荡的关键影响因素和规律的分析解释尚不明确，难以有效避免这种振荡。因此，本文深入研究了变流器电流内环动态诱发中频振荡的机理。首先，建立了通过交流海底电缆集成的一般海上风电场的小信号传递函数模型。然后，通过特征值分析法分析了交流海底电缆和变流器电流内环控制参数对风电场振荡稳定性的影响。结果发现，随着交流海底电缆长度的增加，交流电网开环极点的频率会降低。当交流电网的开环极点接近 PMSG 在复平面上的开环极点时，近强模式共振会引起系统的中频振荡。最后，通过非线性仿真评估了结论的有效性。

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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Journal of Physics: Conference Series

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