Flicker assessment of grid connected DFIG for wind energy conversion systems

2013 International Conference on Power, Energy and Control (ICPEC) Pub Date : 2013-06-13 DOI:10.1109/ICPEC.2013.6527729

S. S. Matharu, S. Bhalla, R. Jarial

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引用次数: 2

Abstract

As a result of increasing demand of electricity, one way of generating renewable energy sources is from wind turbines. The places across the world where velocity of wind is conducive for power generation, the wind turbines influence the behavior of power system. In this paper, a wind turbine connected with DFIG for Wind Energy Conversion using sherbius drive with vector control is modeled, in the power system simulation tool, PSCAD/EMTDC and outputs are simulated to investigate the presence of flicker at the point of common coupling. The impact of wind speed variation on the voltage & current waveforms is investigated so as to assess the Power Quality. The vector control method is implemented to ensure decoupled control of active and reactive powers while ensuring the maximum energy capture from the wind. It is concluded that wind speed variation results in predominant flicker during transient period, however the DFIG model is capable of suppressing the same. Efforts can still be made to mitigate the flicker by flicker control scheme so as to improve the Power Quality of associated Networks in National Endeavour.

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风能转换系统并网DFIG闪变评估

由于电力需求的增加，产生可再生能源的一种方法是使用风力涡轮机。在世界上风速有利于发电的地方，风力发电机组影响着电力系统的运行。本文对采用矢量控制的sherbius驱动与DFIG连接的风力发电机组进行了建模，在电力系统仿真工具中，对PSCAD/EMTDC和输出进行了仿真，研究了共耦合点处的闪变现象。研究了风速变化对电压和电流波形的影响，以评估电能质量。采用矢量控制方法实现有功和无功的解耦控制，同时保证从风中获取最大能量。结果表明，瞬态闪变主要由风速变化引起，而DFIG模型能有效抑制闪变。在国家努力中，仍然可以通过闪烁控制方案来减轻闪烁，从而改善关联网络的电能质量。

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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2013 International Conference on Power, Energy and Control (ICPEC)

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