考虑定子模块化的模块化电机优化设计

W. Zhang, G. Li, Z. Zhu, B. Ren, M. Michon
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引用次数: 1

摘要

考虑定子模块化对电机电磁性能的影响,提出了模块化表面贴装永磁电机的全局优化问题。为了优化电磁性能,采用了多目标遗传算法和二维有限元法。选取定子轭架高度、齿宽、磁通间隙宽度、分流比和转子轭架厚度等变量进行优化。目标是实现最大的平均扭矩,最小的扭矩脉动,铜损失和机器总质量。其中磁通间隙宽度是对机器电磁性能影响较大的关键参数,但在文献中并未将其纳入优化过程。本文的结果表明,在优化中考虑磁通间隙宽度将进一步提高机器的电磁性能。此外,对于槽数小于转子极数的电机,优化过程表明,为了获得最佳的电磁性能,需要适当的磁通间隙宽度。而对于槽数大于极数的机床,磁通间隙宽度趋于零,使得非组件化机床具有最优性能。
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Optimization of Modular SPM Machines Considering Stator Modularity
This paper presents the global optimization of modular surface-mounted permanent magnet machines considering the effect of stator modularity on machine electromagnetic performances. In order to optimize the electromagnetic performance, the multi-objective genetic algorithm is adopted and 2D finite element method is used. Variables such as stator yoke height, tooth width, flux gap width, split ratio and rotor yoke thickness have been selected for the optimization. The objectives are to achieve maximized average torque, minimized torque ripple, copper loss and total machine mass. Amongst all the variables, the flux gap width is a key parameter which has significant impact on machine electromagnetic performance, but has not been included in the optimization process in the literature. The results in this paper have shown that considering the flux gap width in the optimization will lead to further improvement in machine electromagnetic performance. In addition, for machines with lower slot number than rotor pole number, the optimization process shows that an appropriate flux gap width is needed for optimal electromagnetic performance. However, for machines with higher slot number than pole number, the flux gap width tends to be zero, leading to non-modular machine having the optimal performance.
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