Author(s)

Faris Hamoud, Mamadou Lamine Doumbia, Ahmed Cheriti

Department of Electrical and Computer Engineering, Université du Québec à Trois-Rivières, Québec, Canada.

Renewable power generation is a suitable technology used to deliver energy locally to customers especially in remote regions. Wind energy based on induction generator situates in a foreground position in the total energy produced using renewable sources. In the last few decades, a new self- excitation generator was based on multi-stator induction strongly emerges. This article presents a systematic modelling, a detailed analysis and the performance analysis of self-excitation dual stator winding induction generator (SE-DSWIG). The modelling of the SE-DSWIG was done with taking in account the common mutual leakage inductance between stators and the magnetizing inductance, which played a principal role in the stabilization of the output voltage in the steady state. The generator feeds the end user emulated by an inductive-resistive load. In order to simulate the weather conditions’ variation, a step change of the prime mover speed was applied on the SE-DSWIG. A passive series and shunt compensator was used to mitigate the voltage sag and swell appeared in the power system due to wind variation and the lack of reactive power consumed by the inductive load.

Magnetizing Inductance, Magnetizing Current, Voltage Mitigation, Self-Excitation, Passive Compensator

Hamoud, F. , Doumbia, M. and Cheriti, A. (2016) Performance Study of a Self-Excitation Dual Stator Winding Induction Generator for Renewable Distributed Generation Systems. Smart Grid and Renewable Energy, 7, 197-215. doi: 10.4236/sgre.2016.76016.