高速开缝固体感应电动机概念设计探索的设计空间法

E. Kurvinen, T. Choudhury, Juuso Narsakka, Iikka Martikainen, J. Sopanen, R. Jastrzebski
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引用次数: 3

摘要

高速电机的设计是一个迭代的过程,需要一个多学科的设计团队来完成所需的性能。本研究提出一种设计空间法(DSM)来简化高速大功率电机的概念设计。该方法根据应用要求,利用解析方程和转子动力学模型确定几何尺寸。这些维度为特定的应用程序创建了可行的基线设计。然而,以尺寸为设计变量,以基线设计为出发点,可以进一步研究针对特定电机拓扑和性能范围的设计变量与相关输出的多维组合和交互作用,以进行设计探索和优化。该研究包括一个测试用例,其中基线尺寸被确定并与文献中的现有机器进行比较,然后进一步探索以确定相对于不同设计变量的不同输出的敏感性。该方法可实现快速设计迭代、转子动力学和转子质量优化。基线设计也可以作为详细设计的起点。
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Design Space Method for Conceptual Design Exploration of High Speed Slitted Solid Induction Motor
Design of High Speed (HS) electric machines is an iterative process that requires a multidisciplinary design team to accomplish the required performance. In this study, a design space method (DSM) is developed to streamline conceptual designing of a high-speed and high-power electric machine. The method uses analytical equations and a rotordynamic model to determine geometrical dimensions based on the application requirements. These dimensions create a feasible baseline design for the particular application. However, considering the dimensions as design variables and using the baseline design as a starting point, a multidimensional combination and interaction of the design variables and the correlated output for the particular topology of motor and performance range can be further studied for design exploration and optimization purposes. The study includes a test case where the baseline dimensions are determined and compared to an existing machine from literature, and then further explored to identify the sensitivity of different outputs with respect to different design variables. The method enables rapid design iterations, rotordynamics and rotor mass optimization. The baseline design can be also used as a starting point for the detailed design.
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