Influence of Optimisation Target Functions on Synchronous Reluctance Machines Design

IECON 2020 The 46th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2020-10-18 DOI:10.1109/IECON43393.2020.9254529

Oğuz Korman, M. D. Nardo, M. Degano, C. Gerada

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Abstract

Synchronous reluctance machines (SynRel) are becoming very attractive for different applications because of their reluctance nature, easy manufacturability and low cost. Their design still represents a challange because of the many degrees of freedom that their rotor structure presents. Furthermore, in order to obtain a design with defined electromagnetic characteristics and low torque ripple machine geometry is needed to be optimised. In this paper, three different optimisations are performed on 6 poles SynRel motor with three flux barriers per pole. The aim of the work is to show the effect of the objective selection on the optimization process. An automatic procedure has been applied coupling finite element analysis with an optimization algorithm that is working towards the competitive targets of maximazing the torque, while minimizing the torque ripple and losses. The effects of these objectives on the geometrical variables are investigated in detail. The outcome of the analysis show how the problem definition heavily affects the obtained results. This gives useful insights on how to approach SynRel rotor design.

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优化目标函数对同步磁阻电机设计的影响

同步磁阻电机(SynRel)由于其磁阻特性，易于制造和低成本，在不同的应用中变得非常有吸引力。他们的设计仍然是一个挑战，因为许多自由度，他们的转子结构提出。此外，为了获得具有明确电磁特性和低转矩脉动的设计，需要对机器的几何结构进行优化。本文对六极SynRel电机进行了三种不同的优化，每极有三个磁通屏障。这项工作的目的是显示目标选择对优化过程的影响。将有限元分析与优化算法相结合的自动程序已被应用于实现扭矩最大化的竞争目标，同时最小化扭矩波动和损失。详细研究了这些物镜对几何变量的影响。分析的结果显示问题的定义如何严重地影响得到的结果。这为如何接近SynRel转子设计提供了有用的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IECON 2020 The 46th Annual Conference of the IEEE Industrial Electronics Society

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