Axial Ferrite-Magnet-Assisted Synchronous Reluctance Motor

2018 XIII International Conference on Electrical Machines (ICEM) Pub Date : 2018-09-01 DOI:10.1109/ICELMACH.2018.8507245

P. Akiki, M. Hage-Hassan, Mohamed Bensetti, J. Vannier, D. Prieto, M. Mcclelland

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引用次数: 5

Abstract

This paper presents a noval 18 poles /16 slots Axial Flux Permanent Magnet-Assisted Synchronous Reluctance Motor (AF-PMASynRM) with non-overlapping concentrated winding. At first, the torque ripple and iron losses are analyzed using 3D Finite Element Analysis (3D-FEA). Then, a comparison between 3D-FEA and 2D-FEA based on flux and iron losses is established. In this paper, we propose to design the motor for high torque low speed application using a multiobjective optimization. In this kind of iterative procedure, the use of Finite Element is generally time consuming. Thus, we propose a 2D analytical saturated model that considers the local saturation near the iron bridges and the slot tangential leakage flux. The magnetic model is coupled with an electrical model that computes the power factor and the voltage at the motor terminals. A loss model is also developed to calculate the copper and the iron losses. The proposed analytical model is 5 times faster than the 2D- FEA. The optimal axial structure is compared to a previously optimized radial motor in order to evaluate the design benefits of axial flux machines.

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轴向铁氧体磁辅助同步磁阻电动机

提出了一种新型无重叠集中绕组的18极/16槽轴向磁通永磁辅助同步磁阻电机(AF-PMASynRM)。首先利用三维有限元分析(3D- fea)对转矩脉动和铁损进行了分析。然后，建立了基于通量和铁损的三维有限元分析与二维有限元分析的对比。在本文中，我们提出了一个多目标优化设计的电机大转矩低速应用。在这种迭代过程中，有限元的使用通常是耗时的。因此，我们提出了考虑铁桥附近局部饱和和槽切向泄漏通量的二维解析饱和模型。磁性模型与计算功率因数和电机终端电压的电气模型相耦合。还建立了一个损耗模型来计算铜和铁的损耗。该分析模型比二维有限元分析快5倍。将优化的轴向结构与先前优化的径向电机进行比较，以评估轴向磁通机的设计效益。

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2018 XIII International Conference on Electrical Machines (ICEM)

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