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Substitution Analytical Model for Finite Element Method to Predict Distribution of Flux density for Flux Switching Permanent Magnet with E-Core Shape of Stator at no load


Affiliations
1 School of Electrical and Electronic Engineering, University of Bojnord, Bojnord, Iran, Islamic Republic of

In this essay, a two-dimensional analytical model for switched flux machines without permanent magnet brushes with E-shape of stator is presented. This machine is a suitable choice for use in hybrid vehicles, due to high power density of this configuration. The radial and tangential components of the magnetic flux density in the presence of only magnets are calculated based on Maxwell's equations and the subdomain method for different areas of the machine, including air gaps. Finally, in order to validate the proposed model of the essay, the results extracted from the analytical model are compared with the results obtained from the finite element method

Keywords

Flux-switching; Analytical model; Finite element method; Sub-domain; Boundary conditions; E-core
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  • Substitution Analytical Model for Finite Element Method to Predict Distribution of Flux density for Flux Switching Permanent Magnet with E-Core Shape of Stator at no load

Abstract Views: 66  | 

Authors

Ehsan Shirzad
School of Electrical and Electronic Engineering, University of Bojnord, Bojnord, Iran, Islamic Republic of

Abstract


In this essay, a two-dimensional analytical model for switched flux machines without permanent magnet brushes with E-shape of stator is presented. This machine is a suitable choice for use in hybrid vehicles, due to high power density of this configuration. The radial and tangential components of the magnetic flux density in the presence of only magnets are calculated based on Maxwell's equations and the subdomain method for different areas of the machine, including air gaps. Finally, in order to validate the proposed model of the essay, the results extracted from the analytical model are compared with the results obtained from the finite element method

Keywords


Flux-switching; Analytical model; Finite element method; Sub-domain; Boundary conditions; E-core