Multi-physics and multi-objective optimization of a permanent magnet-assisted synchronous reluctance machine for traction applications

Francesco Puglisi, Saverio Giulio Barbieri, Sara Mantovani, Giampaolo Devito, Stefano Nuzzo
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Abstract

This contribution addresses the rotor design process of a Permanent Magnet-assisted Synchronous Reluctance Machine by adopting a multi-physics and multi-objective optimization algorithm. A Finite Element (FE) approach is employed to determine the electromagnetic and structural responses during the optimization. In particular, a detailed FE structural modeling is used, which often is based on simplifications and inaccuracies in the available literature. A genetic algorithm is adopted, with the objectives being the maximization of the mean torque, the minimization of the torque ripple and the minimization of the stress in the rotor. A parametric analysis of the geometric features precedes the optimization to establish the design variables which mostly affect the machine performance, and thus to reduce the computational cost of the optimization. The presented methodology consists of a useful tool for the final stages of the design process, and provides a rotor with a torque ripple reduced by 15.1% compared to an existing design used as a benchmark, while the mean torque and the maximum stress remain the same as the original configuration.
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用于牵引应用的永磁辅助同步磁阻机的多物理场和多目标优化设计
本文采用多物理场和多目标优化算法,探讨了永磁辅助同步磁阻机的转子设计过程。在优化过程中,采用有限元(FE)方法确定电磁和结构响应。特别是,使用了详细的有限元结构建模,而这种建模往往是基于现有文献中的简化和不准确之处。采用遗传算法,目标是平均转矩最大化、转矩纹波最小化和转子应力最小化。在优化之前对几何特征进行了参数分析,以确定主要影响机器性能的设计变量,从而降低优化的计算成本。所提出的方法是设计过程最后阶段的有用工具,与作为基准的现有设计相比,转子的扭矩纹波降低了 15.1%,而平均扭矩和最大应力与原始配置保持一致。
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
期刊最新文献
Parametric analysis of the oil pressure limiter built on the influence on the diaphragm compressors for hydrogen refueling stations Multi-physics and multi-objective optimization of a permanent magnet-assisted synchronous reluctance machine for traction applications An adaptive fluid-solid coupling time step control algorithm for unsteady conjugate heat transfer Special issue: International Conference on Advanced Materials and Mechanical Characterization (ICAMMC 2021) Synchronization characteristics of two induction motors on a floating raft system
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