永磁电动机转子高性能冷却技术的评价

J. Nonneman, Brent van der Sijpe, I. T’Jollyn, Steven Vanhee, J. Druant, M. De Paepe
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引用次数: 6

摘要

本文采用集总参数模型对一种内部永磁电机进行了热分析,目的是评估几种用于电动汽车的转子冷却技术,以达到更高的功率密度。所选择的两种转子冷却技术包括通过泵送液体通过轴中的通道和通过实施旋转热管来冷却轴。第三种选择的转子冷却技术是通过将液体射流指向转子的轮毂来完成的。描述了这些新建模的冷却技术的集总参数模型和实现。从水套冷却引起的电机温度分布和不同的转子冷却技术结合来看,当电动机转子含有轮毂时,轴冷却方法是无效的。然而,转子喷射冷却导致了最有效的冷却方法,以尽量减少永磁体的温度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of High Performance Rotor Cooling Techniques for Permanent Magnet Electric Motors
A thermal analysis of an interior permanent magnet machine using a lumped parameter model is presented, with the objective to evaluate several rotor cooling techniques for electric vehicle applications which are needed in order to achieve higher power densities. Two of the selected rotor cooling techniques involve cooling of the shaft by pumping a liquid through a channel in the shaft and by implementing a rotating heat pipe. The third selected rotor cooling technique is accomplished by pointing liquid jets towards the hub of the rotor. The lumped parameter model and implementation of these newly modeled cooling techniques are described. From the temperature distributions of the electrical machine resulting from water jacket cooling in combination with the different rotor cooling techniques, it was revealed that when the rotor of an electrical motor contains a hub, shaft cooling methods are ineffective. Rotor jet cooling however resulted in the most effective cooling approach to minimize permanent magnet temperatures.
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