转子永磁开关电机双风道冷却系统的设计与优化

IF 8.3 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Transportation Electrification Pub Date : 2024-12-24 DOI:10.1109/TTE.2024.3521968

Hao Shi;Qian Chen;Jihong Liao;Yanan Zhou;Gaohong Xu;Guohai Liu

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引用次数: 0

摘要

转子永磁开关电机因其高转矩密度而受到广泛关注。然而，这种类型的电机将产生显著的损失，导致严重的加热。因此，本文提出了一种双风道冷却系统，充分利用转子孔结构的优势，有效提高RPMFS电机的冷却性能。首先，采用隔离翼型和等流通量法设计了克拉克翼型轴流风扇，以最大化气流速度。然后，通过端盖和外壳开孔形成RPMFS电机的内部风道，该风道穿过转子孔。采用响应面分析（RSA）方法对绕组的稳态温度进行优化，减少了仿真次数。此外，对单风管和双风管的性能进行了比较，发现双风管可以有效降低电机的稳态温度。最后，制造了一个原型电机并进行了测试，以验证所提出的双风道冷却系统的有效性和可行性。

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Design and Optimization of Dual-Air Duct Cooling System for Rotor Permanent Magnet Flux-Switching Motor

Rotor permanent magnet flux switching (RPMFS) motors have attracted widespread attention due to high torque density. However, this type of motor will generate significant losses, leading to severe heating. Therefore, this article proposes a dual-air duct cooling system to effectively improve the cooling performance of the RPMFS motor, which fully utilizes the advantages of the rotor hole structure. First, a Clark-y airfoil axial fan is designed using the isolated airfoil and the equal circulation volume method to maximize the airflow velocity. Then, the internal air duct of the RPMFS motor is formed by opening holes in the end cap and the housing, which passes through the rotor hole. Furthermore, the response surface analysis (RSA) method is adopted to optimize the steady-state temperature of the winding, which advantage is reducing the number of the simulation. In addition, the performance of single-air duct and dual-air duct was compared, and it was found that dual-air duct can effectively reduce the steady-state temperature of the motor. Finally, a prototype motor was manufactured and tested to verify the effectiveness and feasibility of the proposed dual-air duct cooling system.

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来源期刊

IEEE Transactions on Transportation Electrification Engineering-Electrical and Electronic Engineering

CiteScore

12.20

自引率

15.70%

发文量

449

期刊介绍： IEEE Transactions on Transportation Electrification is focused on components, sub-systems, systems, standards, and grid interface technologies related to power and energy conversion, propulsion, and actuation for all types of electrified vehicles including on-road, off-road, off-highway, and rail vehicles, airplanes, and ships.