%0 Electronic Article
%A Cencen Hong
%A Wenxin Huang
%A Zhenwei Hu
%K equal-height layers
%K dual stator windings
%K improved equivalent circuit model
%K multislice method
%K three-dimensional electromagnetic field distribution
%K IECM
%K surface impedance theory
%K increasing-length double primary composite secondary linear induction motors
%K analytical method
%K experimental test
%K copper layers
%K performance analysis
%K multilayer method
%K solid rotor
%K finite set
%K dual stator composite rotor axial flux induction motor
%K equal-width
%K DSCRAFIM
%K finite-element analysis
%X This study proposes a novel dual stator composite rotor axial flux induction motor (DSCRAFIM) whose solid rotor is coated with copper layers. A novel multi-slice and multi-layer method is developed and applied to analyse the three-dimensional electromagnetic field distribution in DSCRAFIM. In the application of this analytical method, DSCRAFIM is equivalent to a finite set of equal-width and increasing-length double primary composite secondary linear induction motors, whose steel secondary is divided into a finite set of equal-height layers. The surface impedance theory is applied to derive the improved equivalent circuit model (IECM) of DSCRAFIM, which considers the coupling relationship between dual stator windings. The accuracy of this IECM is then verified by both finite-element analysis and experimental test.
%@ 1751-8660
%T Parameters and performance analysis of a dual stator composite rotor axial flux induction motor by an analytical method
%B IET Electric Power Applications
%D May 2018
%I Institution of Engineering and Technology
%U http://digital-library.theiet.org/;jsessionid=3b4338ucnuvof.x-iet-live-01content/journals/10.1049/iet-epa.2017.0786
%G EN