DIAGNOSTIC DES DEFAUTS DANS LES MOTEURS ASYNCHRONES TRIPHASES A CAGE Partie I : Modèle Dédié à la Simulation des Ruptures de Barres
Résumé
Dans cet article nous présenterons un modèle mathématique dédié à la simulation des ruptures de barres dans un moteur
asynchrone triphasé à cage. Ce modèle est basé sur un circuit maillé représentant la cage rotorique. Des testes de simulation
nous ont permis de montrer l'efficacité de ce modèle pour décrire le comportement de la machine dans l'état sain et avec défaut.
Références
[1] A. Abed, L. Baghli, H. Razik, A. Rezzoug,
"Modelling Induction Motors for Diagnostic
Purposes", EPE'99, 7-9 September 1999, 233.pdf,
Lausanne, Suisse, pp. 1-9.
[2] A. Abed, "Contribution à l'Etude et au Diagnostic de
la Machine Asynchrone", Thèse de Doctorat,
Université Henri Poincaré, Nancy-1, mars 2002.
[3] S. T. Manolas, J. Tegopoulos, M. Papadopoulos,
"Analysis of Squirrel Cage Induction Motors with
Broken Rotor Bars", Proc. ICEM'96, Vol 3, Vigo,
Spain 1996, pp 19-23.
[4] E. Ritchie, X. Deng, T. Jokinen, "Modèle Dynamique
d'un Moteur à Cage d'Ecureuil Triphasé avec Défauts
du Rotor", ICEM'94, Paris France, 1994, pp. 694-698.
[5] W. T. Thomson, M. Fenger, "Current Signature
Analysis to Detect Induction Motor Faults", IEEE
Industry Application Magazine, July/August 2001, pp.
26-34.
[6] P. Vas, F. Filippeti, G. Franceschini, C. Tassoni, "
Transient Modelling Oriented to Diagnostics of
Induction Machines with rotor Asymetries", Proc.
ICEM'94, 1994, pp. 62-67.
[7] A. H. Bonnett and G. C. Soukup, "Cause and Analysis
of Stator and Rotor Failures in Three-Phase Squirrel-
Cage Induction Motors", IEEE Transactions on
Industry Applications, Vol. 28, No 4, July/August
1992, pp. 921-937.
[8] Y. Han, Y. H. Song, "Condition Monitoring
Techniques for Electrical Equipment – A Literature
Survey", IEEE Transactions on Power Delivery, Vol.
18, No. 1, January 2003, pp. 4-13.
[9] A. Jaco, A. Makki, H. Yahoui, G. Grellet, "Modelling
of Three Phase Asynchronous Motor Aplication to
Magnetic Faults Diagnostic", ICEM 98, Istanbul,
Turkey, Vol 1. 1998, pp. 443-447.
[10] J. F. Bangura, N. A. Demerdash, "Comarison Between
Characterizition and Diagnosis of Broken Bars/End-
Ring Connectors and Airgap Eccentricities of
Induction Motors in ASD's Using a Coupled Finite
Element-State Space Method", IEEE Transactions on
Energy Conversion, Vol. 15, No. 1, March 2000, pp.
47-56.
[11] H. A. Toliyat, T. A. Lipo, " Transient Analysis of
Cage Induction Machines Under Stator, rotor bars and
end – ring Faults", IEEE Transactions on Energy
Conversion, Vol 10, N°6, June 1995, pp. 241-247.
[12] I. Kerszenbaum, C. F. Landy, "The Existance of Large
Inter – Bar Currents in Three Phase Squirrel Cage
Motors with Rotor – Bar and/or End – Ring Faults",
IEEE Transactions on Power Apparatus and
"Modelling Induction Motors for Diagnostic
Purposes", EPE'99, 7-9 September 1999, 233.pdf,
Lausanne, Suisse, pp. 1-9.
[2] A. Abed, "Contribution à l'Etude et au Diagnostic de
la Machine Asynchrone", Thèse de Doctorat,
Université Henri Poincaré, Nancy-1, mars 2002.
[3] S. T. Manolas, J. Tegopoulos, M. Papadopoulos,
"Analysis of Squirrel Cage Induction Motors with
Broken Rotor Bars", Proc. ICEM'96, Vol 3, Vigo,
Spain 1996, pp 19-23.
[4] E. Ritchie, X. Deng, T. Jokinen, "Modèle Dynamique
d'un Moteur à Cage d'Ecureuil Triphasé avec Défauts
du Rotor", ICEM'94, Paris France, 1994, pp. 694-698.
[5] W. T. Thomson, M. Fenger, "Current Signature
Analysis to Detect Induction Motor Faults", IEEE
Industry Application Magazine, July/August 2001, pp.
26-34.
[6] P. Vas, F. Filippeti, G. Franceschini, C. Tassoni, "
Transient Modelling Oriented to Diagnostics of
Induction Machines with rotor Asymetries", Proc.
ICEM'94, 1994, pp. 62-67.
[7] A. H. Bonnett and G. C. Soukup, "Cause and Analysis
of Stator and Rotor Failures in Three-Phase Squirrel-
Cage Induction Motors", IEEE Transactions on
Industry Applications, Vol. 28, No 4, July/August
1992, pp. 921-937.
[8] Y. Han, Y. H. Song, "Condition Monitoring
Techniques for Electrical Equipment – A Literature
Survey", IEEE Transactions on Power Delivery, Vol.
18, No. 1, January 2003, pp. 4-13.
[9] A. Jaco, A. Makki, H. Yahoui, G. Grellet, "Modelling
of Three Phase Asynchronous Motor Aplication to
Magnetic Faults Diagnostic", ICEM 98, Istanbul,
Turkey, Vol 1. 1998, pp. 443-447.
[10] J. F. Bangura, N. A. Demerdash, "Comarison Between
Characterizition and Diagnosis of Broken Bars/End-
Ring Connectors and Airgap Eccentricities of
Induction Motors in ASD's Using a Coupled Finite
Element-State Space Method", IEEE Transactions on
Energy Conversion, Vol. 15, No. 1, March 2000, pp.
47-56.
[11] H. A. Toliyat, T. A. Lipo, " Transient Analysis of
Cage Induction Machines Under Stator, rotor bars and
end – ring Faults", IEEE Transactions on Energy
Conversion, Vol 10, N°6, June 1995, pp. 241-247.
[12] I. Kerszenbaum, C. F. Landy, "The Existance of Large
Inter – Bar Currents in Three Phase Squirrel Cage
Motors with Rotor – Bar and/or End – Ring Faults",
IEEE Transactions on Power Apparatus and
Comment citer
SAHRAOUI, M. et al.
DIAGNOSTIC DES DEFAUTS DANS LES MOTEURS ASYNCHRONES TRIPHASES A CAGE Partie I : Modèle Dédié à la Simulation des Ruptures de Barres.
Courrier du Savoir, [S.l.], v. 5, avr. 2014.
ISSN 1112-3338.
Disponible à l'adresse : >https://revues.univ-biskra.dz./index.php/cds/article/view/296>. Date de consultation : 14 nov. 2024
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