Numerical analysis of eddy current effect of EMS system for medium-low speed maglev train

Changsha Maglev Express adopts medium-low speed maglev trains based on the electromagnetic suspension (EMS) and short-primary linear induction motor (SLIM) propulsion system. When this system is further improved for an operational speed of 160 km/h, the effect of eddy current will become an importan...

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Bibliographic Details
Published in2017 2nd International Conference on Robotics and Automation Engineering (ICRAE) pp. 301 - 305
Main Authors Jingfang, Ding, Zhiqiang, Long, Xin, Yang
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.12.2017
Subjects
Coils
eddy current
Eddy currents
electromagnet
Electromagnets
EMS
Force
Levitation
Maglev
Magnetic flux density
Numerical analysis
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Summary:Changsha Maglev Express adopts medium-low speed maglev trains based on the electromagnetic suspension (EMS) and short-primary linear induction motor (SLIM) propulsion system. When this system is further improved for an operational speed of 160 km/h, the effect of eddy current will become an important factor in influencing the operation of Maglev trains. This paper uses 3D numerical analysis method to analyze the impacts of eddy current on levitation force based on the background of Changsha Maglev Express. Through our analysis, when the speed reaches 160 km/h, the levitation force of the head magnetic module will drop by 22 %.
DOI:10.1109/ICRAE.2017.8291399