Optimal design of a for middle-low-speed maglev trains

Optimal design of a for middle-low-speed maglev trains AbstractA middle-low-speed maglev train is supported by an electromagnetic force between the suspension electromagnet (EM) and the steel rail and is driven by a linear induction motor. The capability of the suspension system has a direct bearing on safety and the technical and economic performance of the train. This paper focuses on the dependence of the electromagnetic force on the structural configuration of the EM with the purpose of improving performance of a conventional EM. Finally, a novel configuration is proposed of a hybrid suspension magnet, which combines permanent magnets and coils, in order to increase the suspension force while reducing the suspension power loss. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Open Physics de Gruyter

Optimal design of a for middle-low-speed maglev trains

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Publisher
De Gruyter Open
Copyright
© 2018 Song Xiao et al.
ISSN
2391-5471
eISSN
2391-5471
D.O.I.
10.1515/phys-2018-0024
Publisher site
See Article on Publisher Site

Abstract

AbstractA middle-low-speed maglev train is supported by an electromagnetic force between the suspension electromagnet (EM) and the steel rail and is driven by a linear induction motor. The capability of the suspension system has a direct bearing on safety and the technical and economic performance of the train. This paper focuses on the dependence of the electromagnetic force on the structural configuration of the EM with the purpose of improving performance of a conventional EM. Finally, a novel configuration is proposed of a hybrid suspension magnet, which combines permanent magnets and coils, in order to increase the suspension force while reducing the suspension power loss.

Journal

Open Physicsde Gruyter

Published: Apr 18, 2018

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