为小型可再生能源发电设计的超多极永磁磁阻发电机

K. Nakamura, O. Ichinokura
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引用次数: 3

摘要

介绍了一种用于小型可再生能源发电的超多极永磁磁阻发电机。PMRG的定子极数为72极,转子极数为96极,直接与涡轮相连,无需齿轮箱。设计的PMRG在100转时的额定功率约为1.0千瓦。PMRG有两个特点,以减少扭矩波动;第一种是双堆叠结构,即一个转子与另一个转子电角移位180度;第二个是转子极尖被切断,使扭矩波形仅由奇谐波组成。在这种结构中,PMRG的转矩脉动可以大大减小。本文首先采用二维有限元法(2D-FEM)结合通用优化程序对转子极尖形状进行优化。其次,通过三维有限元分析得到了PMRG的载荷特性。最后,描述了研制的72/96极PMRG的实测特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Super-multipolar permanent magnet reluctance generator designed for small-scale renewable energy generation
This paper describes a super-multipolar permanent magnet reluctance generator (PMRG) for small-scale renewable energy generation. The numbers of stator and rotor poles of the PMRG are 72 and 96 respectively, in order to be directly connected to the turbine without a gear box. The rated power of the designed PMRG is about 1.0 kW at 100 rpm. The PMRG has two features for reducing torque ripple; the first one is a two-stacked structure, namely, one rotor is shifted by 180 deg. in electrical angle from the other rotor; the second one is that the rotor pole-tips are cut off so that the torque waveform consists of only odd-harmonics. In such a structure, the torque ripple of the PMRG can be reduced drastically. In this paper, first, the shape of rotor pole-tips is optimized by two-dimensional finite element method (2D-FEM) coupled with a general purpose optimization program. Next, the load characteristics of the PMRG obtained from 3D-FEM are indicated. Finally, the measured characteristics of the developed 72/96-pole PMRG are described.
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