Review of linear flux-switching machines for variable speed applications

Basharat Ullah, Faisal Khan
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Abstract

Purpose This paper aims to present an overview of permanent magnet linear flux-switching machines (PMLFSM), field excited LFSM and hybrid excited LFSM (HELFSM) topologies as presented in literature for transportation systems such as high-speed trains and maglev systems. Design/methodology/approach The structural designs of different configurations are thoroughly investigated, and their respective advantages and disadvantages are examined. Based on the geometry and excitation sources, a detailed survey is carried out. Specific design and space issues, such as solid and modular structures, structure strength, excitation sources placement, utilization of PM materials, and flux leakage are investigated. Findings PMLFSM provide higher power density and efficiency than induction and DC machines because of the superior excitation capability of PMs. The cost of rare-earth PMs has risen sharply in the past few decades because of their frequent use, so the manufacturing cost of PMLFSM is increasing. Owing to the influence of high-energy PMs and magnetic flux concentration, the efficiency and power density are higher in such machines. PM is the only excitation source in PMLFSM and has constant remanence, limiting its applications in a wide speed operation range. Therefore, the field winding is added in the PMLFSM to flexibly regulate the magnetic field, making it a hybrid excited one. The HELFSM possess better flux linkage, high thrust force density and better flux controlling ability, leading to a wide speed range. However, the HELFSM have problems with the crowded mover, as PM, field excited and armature excitation are housed on a short mover. So, for better performance, the area of each excitation component has to compete with each other. Originality/value Transportation of goods and people by vehicles is becoming increasingly prevalent. As railways play a significant role in the transportation system and are an integral part of intercity transportation. So, this paper presents an overview of various linear machines that are presented in literature for rail transit systems to promote sustainable urban planning practices.
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用于变速应用的线性磁通开关设备回顾
目的 本文旨在概述永磁线性磁通开关机(PMLFSM)、场激励 LFSM 和混合激励 LFSM(HELFSM)拓扑结构,这些拓扑结构已在高速列车和磁悬浮系统等交通系统的文献中有所介绍。根据几何形状和激励源进行了详细调查。研究结果与感应和直流电机相比,PMLFSM 具有更高的功率密度和效率,因为永磁材料具有卓越的励磁能力。在过去几十年中,由于稀土永磁材料的频繁使用,其成本急剧上升,因此 PMLFSM 的制造成本也在不断增加。由于高能永磁体和磁通集中的影响,这类机器的效率和功率密度更高。永磁体是 PMLFSM 中唯一的励磁源,且具有恒定剩磁,这限制了其在宽速运行范围内的应用。因此,在 PMLFSM 中增加了磁场绕组,以灵活调节磁场,使其成为混合励磁型。HELFSM 具有更好的磁通联动性、更高的推力密度和更好的磁通控制能力,因而具有更宽的速度范围。然而,HELFSM 也存在传动装置拥挤的问题,因为永磁、场励磁和电枢励磁都安装在一个短小的传动装置上。因此,为了获得更好的性能,每个励磁元件的面积必须相互竞争。铁路在运输系统中扮演着重要角色,是城际运输不可或缺的一部分。因此,本文概述了文献中介绍的用于轨道交通系统的各种线性机械,以促进可持续城市规划实践。
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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