优化 FSPM 机器转子磁极和定子齿形以提高扭矩性能

COMPEL Pub Date : 2024-07-04 DOI:10.1108/compel-05-2023-0175
Emrah Cetin, Z.Q. Zhu
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引用次数: 0

摘要

目的 本研究旨在获得磁通开关永磁(FSPM)机器在最大平均扭矩下的最小扭矩纹波。为此,采用了有限元分析和遗传算法(GA)。对五种不同的设计进行了模拟、优化,并比较了它们的气隙磁通密度、反向电动势、齿槽转矩、平均转矩、转矩密度和转矩纹波。最佳设计是定子和转子联合整形,即设计 V,它能产生最低的扭矩纹波和齿槽转矩。这些技术应适用于具有其他定子槽/转子磁极数组合的 FSPM。通过使用有限元分析和 GA 进行优化,对转子和定子侧面进行了单独和联合优化,以获得最大的平均转矩和最小的转矩纹波。分别实现了五种不同的设计并进行了比较。
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Rotor pole and stator tooth shaping in FSPM machines for torque performance optimization

Purpose

This study aims to obtain the minimum torque ripple at the maximum average torque for Flux-switching permanent magnet (FSPM) machines.

Design/methodology/approach

This paper is about torque performance optimization of the FSPM machines. To achieve that, finite element analysis and genetic algorithm (GA) are used. Five different designs are simulated, optimized and compared on their air gap flux density, back electromotive force, cogging torque, average torque, torque density and torque ripple.

Findings

After the thousands of iterations, its proved that all proposed shaping techniques have potential for reducing torque ripple and cogging torque, with slightly reduced average torque. The best design is the joint stator and rotor shaping, Design V, which results in the lowest torque ripple and cogging torque. The techniques should be applicable to FSPMs with other stator slot/rotor pole number combinations.

Originality/value

In this paper, rotor pole shaping by notching, chamfering and generic shaping, stator tooth shaping and joint shaping techniques are investigated for 12 s/10p FSPM machines. Rotor and stator flanks are optimized separately and jointly, by using finite element analysis and GA for optimization to achieve maximum average torque and minimum torque ripple. Five different design is implemented and compared, respectively.

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