Torque Optimization of Double-Stator Switched Reluctance Machine
Double-stator switched reluctance machines benefit from a high torque density and a low radial force level in comparison with conventional switched reluctance machines resulting in a lower vibration and acoustic noise.Therefore,they are suitable candidate for automotive applications.However,torque pulsation which is also a source for vibration is still remained and should be alleviate by dimension optimization of the machine.This paper presents a design optimization of a double-stator switched reluctance machine for improving the magnetic torque quality of the machine.For this purpose finite element method along with response surface methodology is used to optimize three parameters of the machine to maximize torque quality factor i.e.the average torque to torque ripple ratio in the machine.Genetic algorithm method is also employed as an optimization tool.The aim of optimization is to maximize the ratio of average torque to torque ripple.Finite element results are presented to verify the optimization method.
Double-stator switched reluctance machine optimization average torque torque ripple torque quality factor response surface methodology finite element method genetic algorithm
Mohammadali Abbasian Vahid Hanaeinejad
Islamic Azad University,Khorasgan Branch,Isfahan,Iran
国际会议
济南
英文
45-50
2012-12-29(万方平台首次上网日期,不代表论文的发表时间)