Influence of rotor excitation source model in electromagnetic field–circuit coupling analysis model of tubular hydro‐generator on no‐load voltage waveform and damper winding loss calculation results

In this study, a 34‐MW tubular hydro‐generator was selected as the study example. For the electromagnetic field–circuit coupling analysis model, the effects of the ideal DC voltage and current sources (i.e. two models of the rotor excitation power supply) on the no‐load voltage waveform quality and...

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Bibliographic Details
Published in:IET electric power applications 2023-07, Vol.17 (7), p.991-1003
Main Authors: Gu, Shi‐fu, Bian, Zu‐ying, Zhou, Zhi‐ting, Fan, Zhen‐nan, Yang, Yong, Li, Jing‐can
Format: Article
Language:English
Subjects:
eddy current losses
electromagnetic fields
harmonic analysis
hydroelectric generators
voltage distribution
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Summary:In this study, a 34‐MW tubular hydro‐generator was selected as the study example. For the electromagnetic field–circuit coupling analysis model, the effects of the ideal DC voltage and current sources (i.e. two models of the rotor excitation power supply) on the no‐load voltage waveform quality and the damper winding loss calculation results were studied by considering the influence of the electromagnetic induction of the rotor excitation winding. The obtained results provide direct and effective theoretical support and technical reference for improving the accuracy and rationality of the calculation results of the electromagnetic performance parameters and the analysis, design, manufacturing and operating level of such generators. For the electromagnetic field–circuit coupling analysis model of hydro‐generator, by considering the influence of the electromagnetic induction of the rotor excitation winding, the effects of the ideal DC current source and the ideal DC voltage source on the no‐load voltage waveform quality and the damper winding loss calculation results are examined. The obtained results can serve as effective theoretical support and technical reference that would improve the accuracy of the calculation results of the electromagnetic performance parameters. The findings will also improve the analysis, design, and manufacturing level of hydro‐generators.
ISSN:1751-8660
1751-8679
DOI:10.1049/elp2.12294