Modeling and analysis guidelines for slow transients - Part III: the study of ferroresonance

The ability to predict or confirm ferroresonance depends primarily on the correctness of the transformer model used by the computer simulation. Ferroresonance is introduced and a general modeling approach is given. An overview of available literature and contributors to this area is provided. A simp...

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Bibliographic Details
Published in:IEEE transactions on power delivery 2000-01, Vol.15 (1), p.255-265
Main Authors: Iravani, M R, Chaudhary, A K S, Giesbrecht, W J, Hassan, I E, Keri, A J F, Lee, K C, Martinez, J A, Morched, A S, Mork, B A, Parniani, M, Sharshar, A, Shirmohammadi, D, Walling, R A, Woodford, D A
Format: Article
Language:English
Online Access:Get full text
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Summary:The ability to predict or confirm ferroresonance depends primarily on the correctness of the transformer model used by the computer simulation. Ferroresonance is introduced and a general modeling approach is given. An overview of available literature and contributors to this area is provided. A simple case of ferroresonance in a single phase transformer is used to illustrate this 'phenomenon'. Three phase transformer core structures are discussed. Ferroresonance in three phase grounded-wye distribution systems is described and illustrated with waveform data obtained from laboratory simulations. Representation of the study zone is discussed, modeling techniques are presented, and implementation suggestions are made. Three case studies are presented. Transformer representation is critical to performing a valid simulation. The direction of ongoing research is discussed, and the reader is advised to monitor the literature for ongoing rapid improvements in transformer modeling techniques.
ISSN:0885-8977
DOI:10.1109/61.847260