Research on efficient design method of high torque motor with dual airgap hybrid rotor for aircraft engines

IET Electric Power Applications Pub Date : 2024-07-01 DOI:10.1049/elp2.12447

Siyang Yu, Yingjie Xu, Yue Zhang, Guangwei Liu, Fengge Zhang

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Abstract

High torque density and high reliability motors have a wide application prospect in aerospace field, so a hybrid rotor and dual stator motor is studied in this paper. Firstly, to address the problem that the difference in power density between the inner and outer unit motor is so large that it is not suitable for electromagnetic design using the power splitting method, a main dimensioning calculation method based on the equal‐power volume transformation is proposed. The influence of thermal load on the output performance of the inner and outer unit motors is taken into account comprehensively. The main dimensioning expressions for such motors are derived. Secondly, the output performance consistency between the inner and outer unit motors is theoretically analysed, and the optimal angle between the d‐axis of the permanent magnet rotor and the d‐axis of the reluctance rotor is obtained when the motor is operated in the maximum torque per ampere control mode. Finally, a prototype with a rated power of 46.7 kW was developed and load experiments were conducted on it, and the experimental results verified the correctness and feasibility of the theoretical analysis method.

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航空发动机双气隙混合转子大扭矩电机高效设计方法研究

高转矩密度和高可靠性电机在航空航天领域具有广泛的应用前景，因此本文研究了一种转子和双定子混合电机。首先，针对内外单元电机功率密度相差太大，不适合采用功率分割法进行电磁设计的问题，提出了一种基于等功率体积变换的主尺寸计算方法。综合考虑了热负荷对内外单元电机输出性能的影响。得出了此类电机的主要尺寸计算表达式。其次，从理论上分析了内外单元电机输出性能的一致性，并得出了电机在每安培最大转矩控制模式下运行时永磁转子 d 轴与磁阻转子 d 轴之间的最佳角度。最后，开发了额定功率为 46.7 kW 的原型机，并对其进行了负载实验，实验结果验证了理论分析方法的正确性和可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IET Electric Power Applications

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