高气隙直线感应电机快速仿真

C. Bianchini, A. Torreggiani, M. Davoli, Danilo David, Andrea Sala, A. Bellini
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引用次数: 0

摘要

直线感应电动机主要用于牵引或运动传动。直线感应电动机的一些优点是:直接电磁推力推进(不需要机械传动),维护成本低,直线定位精确;另一方面,该电机拓扑具有低功率因数和效率,纵向和横向边缘效应。本文提出了一种新的快速仿真方法,通过二维有限元分析来评估双面直线感应电动机的性能和机器参数,同时考虑了磁时谐波和静磁问题。由于气隙磁动势的基本原理,通过调整二次铝板电阻率作为感应涡流路径长度的函数来计算推力。该方法已通过多个二维有限元模拟和实验验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Air Gap Linear Induction Motor Fast Simulation
The linear induction motor is mainly adopted for traction or motion transmission applications. Some advantages of linear induction motors are: a direct electromagnetic thrust propulsion (no need of mechanical transmissions), low maintenance costs and precision linear positioning; on the other hand, this motor topology has low power factor and efficiency, longitudinal and transversal edge-effect. This paper proposes a novel fast simulation method to evaluate the performance and machine parameters of a double-sided linear induction motor via 2-D finite element analysis considering both a magnetic time-harmonic and magnetostatic problems. The thrust force is computed tuning the secondary aluminum plate resistivity as a function of the path length of the induced eddy currents due to the fundamental of the air gap magnetomotive force. The proposed method has been verified via several 2-D finite element simulations and validated with experimental tests.
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