DESIGN OPTIMIZATION OF TWO SYNCHRONOUS RELUCTANCE MACHINE STRUCTURES WITH MAXIMIZED TORQUE AND POWER FACTOR | Zendy

Slimane Tahi | Zendy; R. Ibtiouen | Zendy; M. Bounekhla | Zendy

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DESIGN OPTIMIZATION OF TWO SYNCHRONOUS RELUCTANCE MACHINE STRUCTURES WITH MAXIMIZED TORQUE AND POWER FACTOR

Author(s) -

Slimane Tahi,

R. Ibtiouen,

M. Bounekhla

Publication year - 2011

Publication title -

progress in electromagnetics research b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.208

H-Index - 47

ISSN - 1937-6472

DOI - 10.2528/pierb11091101

Subject(s) - torque , magnetic reluctance , computer science , power (physics) , factor (programming language) , power factor , control theory (sociology) , synchronous motor , mechanical engineering , electrical engineering , physics , artificial intelligence , engineering , magnet , control (management) , quantum mechanics , thermodynamics , programming language

The subject of this article is to optimize the design of synchronous reluctance machines with massive rotor and multi-∞ux barrier rotor. The optimization procedure, which aims to improve simultaneously the machines' torque and the power factor, uses the cyclic coordinate method coupled with the magnetostatic flnite- element (FE) fleld solutions. The optimization results regarding these two types of machines, which provide the optimized rotor geometrical dimensions and the in∞uence of the current angle, are discussed.

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