Three dimensional pole shape optimization of claw pole machines based on a hybrid model | Zendy

Geoffrey Devornique | Zendy; Julien Fontchastagner | Zendy; Denis Netter | Zendy; Noureddine Takorabet | Zendy

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Three dimensional pole shape optimization of claw pole machines based on a hybrid model

Author(s) -

Geoffrey Devornique,

Julien Fontchastagner,

Denis Netter,

Noureddine Takorabet

Publication year - 2018

Publication title -

international journal of applied electromagnetics and mechanics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.239

H-Index - 30

eISSN - 1875-8800

pISSN - 1383-5416

DOI - 10.3233/jae-182318

Subject(s) - claw , permeance , stator , finite element method , torque , shape optimization , control theory (sociology) , computer science , engineering , structural engineering , mechanical engineering , physics , artificial intelligence , permeation , control (management) , membrane , biology , genetics , thermodynamics

This paper deals with the shape optimization of the claws of a claw-pole synchronous machine. A hybrid model combining 3D FEM and Permeance Network is developed for this purpose. The optimization of the average torque with fixed stator geometry is performed using Mesh Adaptative Direct Search methods. The developed methodology has led to improve the performances of claw-pole synchronous machines used in mild-hybrid vehicles.

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