Title :
Efficiency optimization of transverse flux permanent magnet machine using genetic algorithm
Author :
Bao, G.Q. ; Shi, J.H. ; Jiang, J.Z.
Abstract :
Particular interest is presently focused on electric propulsion system for the reduction of air pollution and noise. Transverse flux permanent magnet machine (TFPM) is one of the most suitable designs in such application so far as its high power production potential. In this paper a modified genetic algorithm (GA) is developed to find the independent geometrical parameters of rotor and stator with the aim of reducing the TFPM´s power losses, which occur in the iron and the winding. The evolutionary algorithm GA is proved to be a simple and efficient stochastic optimization method for solving optimal design problem in industry. It is found that analytical analysis of machine combined with GA offers an effective way to improve the motor´s efficiency. The calculation result validates the proposed design can achieve a good prediction of TFPM performance.
Keywords :
genetic algorithms; losses; machine windings; permanent magnet machines; stochastic processes; air pollution reduction; electric propulsion system; evolutionary algorithm; genetic algorithm; independent geometrical parameters; noise reduction; power losses reduction; rotor; stator; stochastic optimization method; transverse flux permanent magnet machine; Air pollution; Evolutionary computation; Genetic algorithms; Iron; Noise reduction; Permanent magnet machines; Production; Propulsion; Stator windings; Stochastic processes;
Conference_Titel :
Electrical Machines and Systems, 2005. ICEMS 2005. Proceedings of the Eighth International Conference on
Print_ISBN :
7-5062-7407-8
DOI :
10.1109/ICEMS.2005.202551
