Steady State Analysis of an Isolated Self-Excited Dual Three-Phase Induction Generator for Renewable Energy

M. Khlifi, B. Alshammari
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引用次数: 11

Abstract

In this paper modelling and analysis in autonomous mode of dual three-phase induction generator (DTPIG) with a new algorithm have been done. We develop the steady state model of a dual three-phase self-excited induction generator for stand-alone renewable generation dispensing with the segregating real and imaginary components of the complex impedance of the induction generator. The obtained admittance yields the adequate magnetizing reactance and the frequency. These two key parameters are then used to compute the self-excitation process requirements in terms of the prime mover speed, the capacitance and the load impedance on the one hand and to predict the generator steady state performance parameters on the other. Steady state performances and characteristics of different configurations are clearly examined and compared. The analytical results are found to be in good agreement with experimental results.
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可再生能源用隔离自激双三相感应发电机稳态分析
本文用一种新的算法对双三相感应发电机(DTPIG)的自主模式进行了建模和分析。建立了用于独立可再生能源发电的双三相自激感应发电机的稳态模型,消除了感应发电机复杂阻抗实虚分量的分离。所得到的导纳产生足够的磁化电抗和频率。然后利用这两个关键参数一方面计算原动机转速、电容和负载阻抗方面的自激过程要求,另一方面预测发电机稳态性能参数。对不同结构的稳态性能和特性进行了清晰的检验和比较。分析结果与实验结果吻合较好。
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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