功率密集电机热分析与管理研究进展

F. Nishanth, M. Johnson, E. Severson
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引用次数: 8

摘要

功率密集的电机非常适合电气化运输系统等应用。限制电机功率密度的因素之一是热管理系统。在没有合适的热管理系统的情况下,电机损耗会导致绝缘失效、匝间短路、永磁体退磁,最终导致驱动系统故障。因此,分析电机损耗并确定合适的热管理系统是实现功率密集电机的必要条件。本文首先综述了用于电机的热分析技术,并指出了它们的优缺点。讨论了电机设计中的热因素。一旦对电机进行热分析,下一步就是确定或设计合适的热管理系统。本文的后续部分详细回顾了文献中报道的用于冷却电机的热管理系统,重点介绍了不同应用场景下的高功率密度设计。最后,给出了一个分析,说明如何利用机器的物理特性来确定定子电流密度极限。
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A Review of Thermal Analysis and Management of Power Dense Electric Machines
Power dense electric machines are highly desirable for applications such as electrified transportation systems. One of the factors limiting the achievable power density of electric machines is the thermal management system. In the absence of suitable thermal management systems, the electric machine losses can lead to insulation failure, inter-turn short circuits, de-magnetization of the permanent magnets, and finally drive system failure. Therefore, analyzing the losses in the machine and identifying a suitable thermal management system is essential to realize power dense electric machines. In this paper, thermal analysis techniques applied to electric machines are first reviewed, and their relative merits and demerits are identified. The thermal considerations in electric machine design are discussed. Once the electric machine is thermally analyzed, the next step is to identify or design a suitable thermal management system. The subsequent sections of this paper provide a detailed review of thermal management systems reported in literature for cooling electric machines, with a focus on high power density designs across different application scenarios. Finally, an analysis is presented that demonstrates how the physics of the machine can be used to determine the stator current density limits.
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