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Multi-objective tradeoffs in the design optimization of synchronous reluctance machines for electric vehicle application

机译:电动汽车应用同步磁阻电机设计优化中的多目标权衡

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The synchronous reluctance machine (SynRM) can be considered as a viable alternative to permanent-magnet synchronous machines and induction machines. The absence of permanent magnets or excitation windings are advantages. Additionally, higher efficiencies respectively torque densities are possible compared to induction machines. Lower power factors (typically less than 0.7???0.8) and therefore larger inverter currents are one of the major drawbacks of the SynRM. This paper presents a design optimization procedure for synchronous reluctance machines for electric vehicle application and discusses the tradeoffs between the most important design objectives. The optimization problem is solved using a multi-objective evolutionary algorithm (differential evolution) assisted by a surrogate model (Kriging). This work aims at presenting an approach which is more comprehensive than usual due to the consideration of electromagnetic, thermal and mechanical aspects.
机译:同步磁阻电机(SynRM)可以看作是永磁同步电机和感应电机的可行替代方案。没有永磁体或励磁绕组是有利的。另外,与感应电机相比,更高效率的转矩密度是可能的。较低的功率因数(通常小于0.7≤0.8),因此较大的逆变器电流是SynRM的主要缺点之一。本文介绍了用于电动汽车应用的同步磁阻电机的设计优化程序,并讨论了最重要的设计目标之间的权衡。使用替代模型(Kriging)辅助的多目标进化算法(差分进化)解决了优化问题。由于考虑了电磁,热和机械方面的原因,这项工作的目的是提出一种比平时更全面的方法。

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