新型双转子同极性交流电机

IF 3.3 Q3 ENERGY & FUELS IEEE Open Access Journal of Power and Energy Pub Date : 2024-10-10 DOI:10.1109/OAJPE.2024.3475928
T. Ruekamnuaychok;J. Zhong;S. Sudhoff;R. Swanson;A. Sah;H. Singh;N. Aronhime;E. Schultz
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引用次数: 0

摘要

同极性交流电机(HAM)因其转子损耗低和能够高速运转而备受关注。这些机器经常用于飞轮储能系统,但在车辆牵引等其他情况下,则以永磁或感应机器为主。这项工作旨在探索一种新型同极性机器。本文提出了双转子同极性交流电机(DHAM)。本文解释了 DHAM 的基本工作原理,并概述了其扭矩产生和终端特性。该机器的永磁版本可在不影响永磁场强的情况下实现更宽的恒功率转速范围,从而允许使用本征矫顽力值适中的磁体材料。该设备包括一个模块化分段定子,易于缠绕和冷却。DHAM 依赖于正弦气隙磁阻,因此得出了必要的转子几何形状。原型机用于验证工作原理。
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A Novel Dual-Rotor Homopolar AC Machine
Homopolar AC Machines (HAMs) are of interest because of low rotor loss and the ability to operate at high speeds. These machines are frequently utilized in flywheel energy storage systems but are dominated by permanent magnet or induction machines in other contexts such as vehicle traction. The aim of this work is to explore a new type of homopolar machine. The Dual Rotor Homopolar AC Machine (DHAM) is proposed herein. The fundamental operating principles of the DHAM are explained, and its torque production and terminal characteristics are outlined. The permanent magnet version of the machine is shown to achieve an extended constant power speed range without impacting the PM field intensity, allowing the use of magnet materials with modest values of intrinsic coercive force. The machine includes a modular sectionalized stator, which is easy to wind and cool. The DHAM relies on sinusoidal airgap reluctances, and so the necessary rotor geometry is derived. A prototype machine is used to validate the operating principle.
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来源期刊
CiteScore
7.80
自引率
5.30%
发文量
45
审稿时长
10 weeks
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