Research on a novel tubular transverse-flux permanent-magnet linear machine for free-piston energy converter

2011 International Conference on Electrical Machines and Systems Pub Date : 2011-11-15 DOI:10.1109/ICEMS.2011.6073432

Haiyuan Yan, Bin Yu, Chong Xiao, Z. Song, Jia Lin, P. Zheng

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引用次数: 2

Abstract

This paper investigates a novel tubular transverse-flux permanent-magnet linear machine (TFPLM) for a free-piston energy converter, which has advantages in efficiency, emissions and reliability for serial hybrid electric vehicles. Most importantly, the novel structure solves the problems of low power factor and complex process which exist in conventional transverse-flux permanent-magnet machines (TFPMs). In this paper, a staggered structure is applied for the adjacent stator teeth of a transverse-flux machine. This kind of structure has two topologies: three phases in the axial direction and three phases in the circumference direction. To minimize flux leakage, stator and permanent magnet dimensions are optimized by three-dimensional finite-element method (3-D FEM). As the key technology of TFPMLM, the method to increase power factor and force density has been investigated. And low thrust fluctuation, high power factor and force density are achieved by further optimization. The simulation results prove that the machine has both higher power factor and high efficiency.

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一种新型管状横向磁通永磁直线机构的研究

本文研究了一种用于自由活塞能量转换器的新型管状横向磁通永磁直线电机(TFPLM)，它在效率、排放和可靠性方面具有优势，适用于串联混合动力汽车。最重要的是，这种新型结构解决了传统横磁永磁电机存在的功率因数低、工艺复杂的问题。本文对横向磁通机相邻定子齿采用交错结构。这种结构有两种拓扑结构:轴向三相和周向三相。为了使漏磁最小化，采用三维有限元法对定子和永磁体尺寸进行了优化。作为TFPMLM的关键技术，研究了提高功率因数和力密度的方法。通过进一步优化，实现了低推力波动、高功率因数和力密度。仿真结果表明，该机床具有较高的功率因数和高效率。

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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来源期刊

2011 International Conference on Electrical Machines and Systems

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