风力发电机暂态稳定的混合控制器

2015 Clemson University Power Systems Conference (PSC) Pub Date : 2015-03-10 DOI:10.1109/PSC.2015.7101690

M. Q. Duong, F. Grimaccia, S. Leva, M. Mussetta, K. H. Le

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引用次数: 11

摘要

在风力发电厂中，典型的鼠笼式感应发电机(SCIG)往往会从电网中消耗大量的无功功率，从而可能导致电压下降。为了提高SCIG的电能质量和暂态稳定性，本文研究了一种基于PI和模糊逻辑混合技术的新的俯仰角控制策略，包括正常方案和故障穿越(FRT)方案。特别地，利用SCIG的等效电路和稳定与不稳定的机电平衡概念，建立了暂态稳定的解析模型。通过与动态仿真结果的比较，对该方法进行了评价。动态仿真结果表明，所提出的混合控制器能够有效地提高风电系统SCIG的输出功率平稳性和FRT要求。

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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Hybrid controller for transient stability in wind generators

In wind power plants typically squirrel-cage induction generators (SCIG) tend to drain large amount of reactive power from the grid, potentially causing a drop voltage. To improve SCIG's power quality and transient stability, this paper investigates a new pitch angle control strategy, including normal scheme and Fault-Ride-Through (FRT) scheme, based on hybrid of PI and Fuzzy logic technique. In particular, an analytic model for transient stability is implemented using the equivalent circuit of the SCIG and on the concepts of stable and unstable electrical-mechanical equilibrium. This method has been evaluated by comparing the results with the dynamic simulation. The dynamic simulation results show that the proposed hybrid controller can be effective in enhancing output power smoothness and FRT requirements for SCIG in wind power system.

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2015 Clemson University Power Systems Conference (PSC)

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