Application of a Computationally Efficient Air-Gap Element Within the Finite Element Analysis of Magnetic Bearings

Erich Schmidt; Herbert De Gersem; Thomas Weiland

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Application of a Computationally Efficient Air-Gap Element Within the Finite Element Analysis of Magnetic Bearings

机译：计算有效气隙单元在电磁轴承有限元分析中的应用

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This paper presents finite-element analyses of radial magnetic bearings where noncentered rotor positions are considered very efficiently. With an introduction of a reformulated air-gap macro element, distinct stator and rotor models can be used, and remeshing of the air gap is avoided. Therefore, static and dynamic rotor eccentricities can be considered very easily. The force-current relations for a typical design of a radial magnetic bearing with four pole pairs in two orthogonal directions are evaluated with both conventional finite-element models and models based on the eccentric air-gap element.

机译：本文介绍了径向电磁轴承的有限元分析，其中非中心转子位置非常有效。通过引入重新设计的气隙宏单元，可以使用不同的定子和转子模型，并且避免了气隙的重新填充。因此，可以非常轻松地考虑静态和动态转子偏心率。使用常规有限元模型和基于偏心气隙模型的模型，评估了在两个正交方向上具有四个极对的径向磁轴承的典型设计的力-电流关系。

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来源
《IEEE Transactions on Magnetics》 |2006年第4期|p.1263-1266|共4页
作者
Erich Schmidt; Herbert De Gersem; Thomas Weiland;
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作者单位

Institut fur Elektrische Antriebe und Maschinen, Technische Universitat Wien, A-1040 Vienna, Austria;

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原文格式 PDF
正文语种 eng
中图分类计量学;
关键词
Air-gap element; finite element method; magnetic bearing;

机译：气隙元素;有限元法;电磁轴承;

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Application of a Computationally Efficient Air-Gap Element Within the Finite Element Analysis of Magnetic Bearings

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