高速磁悬浮列车线性感应电机牵引系统优化研究

Journal of Transportation Systems Engineering and Information Technology Pub Date : 2018-11-19 DOI:10.17816/TRANSSYST201843S1156-164

Ying Yang, Jiangmin Deng, Laisheng Tong, Xiaoсhun Li, Qibiao Peng, Wenhui Zhang

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引用次数: 6

摘要

背景:短定子直线感应电动机通常用于中低速磁悬浮列车。受转向架安装空间和第三供电轨电机输入电压的限制，中低速磁悬浮列车的最高运行速度不能超过120公里/小时。目的:本文通过优化LIM设计，改善LIM在高速范围内的力特性，使中低速磁悬浮列车的最高速度达到160 km/h。方法:通过理论计算和实际测试数据的对比，验证了新设计的线性多目标拓扑是有效的。结论:随后，通过安装新设计的lim，传统的中低速磁悬浮列车变成了高速磁悬浮列车，在交通运输中应用前景广阔。

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Study on the optimization of linear induction motor traction system for fast-speed maglev train

Background: The short stator linear induction motor (LIM) is normally used in medium-low speed maglev train. The restriction by mounting space on bogie and motor input voltage from the third power supply rail lead that the maximum speed of medium-low speed maglev train can reach no more than 120 km/h. Aim: In this paper, by means of the LIM design optimization, improvement of the LIM force characteristic in high speed range, the maximum speed of medium-low speed maglev train can reach 160 km/h. Methods: After comparing the LIM theoretical calculation and actual test data, it shows that the new designed LIM is effective. Conclusion: Afterwards, by installing the new designed LIMs, the traditional medium-low speed maglev train becomes a fast-speed maglev train, and it has a bright future in transportation applications.

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Journal of Transportation Systems Engineering and Information Technology

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