Analysis and Optimization of Thrust Characteristics of Tubular Linear Electromagnetic Launcher for Space-Use

2008 14th Symposium on Electromagnetic Launch Technology Pub Date : 1900-01-01 DOI:10.1109/elt.2008.16

B. Kou, Liyi Li, Chengming Zhang

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引用次数: 7

Abstract

Release-launch is a fundamental operation in space platform. Not like traditional land-base launcher, space-base launcher is more flexible and more efficient. Tubular linear electromagnetic launcher (TLEML), which provides higher force density, simple structure and no unilateral magnetic force, compared with the flat linear electromagnetic launcher, is more suitable for space platform. It can easily meet the demand such as little volume, light weight and high control precision. This paper analyzes and optimizes the thrust characteristics of tubular linear permanent magnet synchronous motors (TL-PMSM) for electromagnetic launcher, including different topologies, interior PMs (IPM) and surface-mounted PMs (SPM). First, build up the finite element model for the two kinds of TLEML and calculate the magnetic field. Then thrust force fluctuation figures are obtained by finite element analysis considering the pole/arc ratio, the pole pitch and the inner diameter/outer diameter ratio of the stator. The result shows that it can improve the thrust characteristic and decrease the cogging force by optimizing the parameters of the motor.

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空间用管状直线电磁发射器推力特性分析与优化

释放-发射是空间平台的一项基本操作。与传统的陆基发射装置不同，天基发射装置更灵活，效率更高。管式直线电磁发射装置(tlel)具有受力密度高、结构简单、无单边磁力的特点，与扁平式直线电磁发射装置相比，更适用于空间平台。可轻松满足体积小、重量轻、控制精度高等要求。本文分析并优化了用于电磁发射装置的管状直线永磁同步电动机(TL-PMSM)的推力特性，包括不同拓扑结构、内置式永磁同步电动机(IPM)和表面安装式永磁同步电动机(SPM)。首先，建立了两种tlel的有限元模型，并计算了其磁场。然后通过有限元分析得到了考虑极弧比、极节距和定子内径外径比的推力波动图。结果表明，通过优化电机参数，可以改善推力特性，减小齿槽力。

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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2008 14th Symposium on Electromagnetic Launch Technology

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