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Analysis of a Saturated Multi-Phase (Six-Phase) Self-Excited Induction Generator
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G. K. Singh
, K. B. Yadav und R. P. Saini
Veröffentlicht/Copyright:
24. September 2006
The present paper is concerned with the application of the equations of a saturated smooth air-gap machine to the analysis of the transient behavior of a multi-phase (six-phase) self-excited induction generator (SEIG). In the analytical model (d-q axis model), the effects of common mutual leakage inductance between the two three-phase winding sets have been included. A detailed experimental investigation of self-excitation process, loss of excitation and re-excitation, switching-in of pure resistive load without, and with series compensation (short shunt) is also included in this paper.
Keywords: multi-phase induction machine; self-excited induction generator; renewable energy source; voltage regulation; series compensation
Published Online: 2006-9-24
©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston
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Schlagwörter für diesen Artikel
multi-phase induction machine;
self-excited induction generator;
renewable energy source;
voltage regulation;
series compensation
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- Analysis of Ferroresonance in a Power Transformer with Multiple Nonlinearities
- A Three Gate Neural Network Based Approach for Automatic Control of Small Hydro Power Plants
- A Rule Based Expert System for Identification of Harmonics Originating from Single Phase Nonlinear Loads
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