采用DFIG和撬棍系统的风电场暂态电压稳定问题的研究与建模

2014 6th International Conference on Information Technology and Electrical Engineering (ICITEE) Pub Date : 2014-10-01 DOI:10.1109/ICITEED.2014.7007940

K. Malekian, U. Schmidt, A. Shirvani, W. Schufft

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引用次数: 1

摘要

本文第一部分研究了双馈感应发电机(DFIGs)风电场在故障穿越(FRT)条件下的行为。介绍了电网规范对电压稳定性的要求。然后，讨论了在FRT条件下应用撬棍系统的有关问题。在接下来的部分中，我们将在大型风电场中对这一问题进行建模。为此，建立了一组DFIGs的等效模型。所提出的等效模型是基于各个dfig的活动撬棍跨度的并发性。仿真结果与详细模型的对比验证了所提等效模型的有效性。

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Investigation and modeling of transient voltage stability problems in wind farms with DFIG and crowbar system

The behavior of wind farms with doubly fed induction generators (DFIGs) in fault ride through (FRT) conditions is investigated in the first part of this article. The requirements mandated by grid-codes to contribute to the voltage stability are introduced. Afterwards, the problems associated with applying the crowbar system in FRT conditions are discussed. In the next part, modeling of this problem in huge wind farms is presented. For this purpose, an equivalent model for a group of DFIGs is developed. The proposed equivalent model is based on the concurrency of the active-crowbar spans of the individual DFIGs. The comparison between simulation results with the detailed model proves the validity of the proposed equivalent model.

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2014 6th International Conference on Information Technology and Electrical Engineering (ICITEE)

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