Veuillez utiliser cette adresse pour citer ce document : http://hdl.handle.net/123456789/2428
Titre: A Winding Function-Based Model of Air-gap Eccentricity in Saturated Induction Motors
Auteur(s): A. Ghoggal
S.E. Zouzou
M. Sahraoui
H. Derghal
A. Hadri-Hamida
Mots-clés: Induction motor, 2D-MWFA, convolution, FFT, Diagnosis, space harmonics, skew, teeth saturation, static eccentricity.
Date de publication: 24-avr-2014
Résumé: This paper set out a new modeling technique of air-gap eccentricity in induction motors (IMs) taking into account teeth saturation due to the local air-gap flux concentration. The approach is based on the inclusion of the magnetic saturation into the analytical model by a fictive permeance variation. Besides that, it supposes that, in air-gap nonuniformity conditions, the well-known saturation factor must be updated in function of the spatial-dependant air-gap length. The 2D-modified winding function approach (2DMWFA) is utilized to get the inductance formalism while assuming a linear rise of the saturation factor with respect to the air-gap length in a particular circumferential region. We show that the proposed model yields more reasonable results by confirming that the magnetic saturation effect reduces the asymmetry of the air-gap flux distribution due to the eccentricity. Furthermore, we highlight this effect by inspecting the shapes of the calculated inductances and making them ready for a full dynamic simulation in sense of multiple coupled circuit model (MCCM).
URI/URL: http://dspace.univ-biskra.dz:8080/jspui/handle/123456789/2428
Collection(s) :Communications Internationales

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