FEMLab software applied to Active Magnetic Bearing analysis

Adam Piłat

International Journal of Applied Mathematics and Computer Science (2004)

  • Volume: 14, Issue: 4, page 497-501
  • ISSN: 1641-876X

Abstract

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This paper presents how the FEMLab package can be used to perform the magnetic field analysis in the Active Magnetic Bearing (AMB). The AMB is an integral part of the industrial rotational machine laboratory model. The electromagnetic field distribution and density analysis allow verifying the designed AMB and the influence of the shaft and coil current changes on the bearing parameters.

How to cite

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Piłat, Adam. "FEMLab software applied to Active Magnetic Bearing analysis." International Journal of Applied Mathematics and Computer Science 14.4 (2004): 497-501. <http://eudml.org/doc/207714>.

@article{Piłat2004,
abstract = {This paper presents how the FEMLab package can be used to perform the magnetic field analysis in the Active Magnetic Bearing (AMB). The AMB is an integral part of the industrial rotational machine laboratory model. The electromagnetic field distribution and density analysis allow verifying the designed AMB and the influence of the shaft and coil current changes on the bearing parameters.},
author = {Piłat, Adam},
journal = {International Journal of Applied Mathematics and Computer Science},
keywords = {active magnetic bearing; finite element method; electromagnetic field; FEM; software; rotary machines},
language = {eng},
number = {4},
pages = {497-501},
title = {FEMLab software applied to Active Magnetic Bearing analysis},
url = {http://eudml.org/doc/207714},
volume = {14},
year = {2004},
}

TY - JOUR
AU - Piłat, Adam
TI - FEMLab software applied to Active Magnetic Bearing analysis
JO - International Journal of Applied Mathematics and Computer Science
PY - 2004
VL - 14
IS - 4
SP - 497
EP - 501
AB - This paper presents how the FEMLab package can be used to perform the magnetic field analysis in the Active Magnetic Bearing (AMB). The AMB is an integral part of the industrial rotational machine laboratory model. The electromagnetic field distribution and density analysis allow verifying the designed AMB and the influence of the shaft and coil current changes on the bearing parameters.
LA - eng
KW - active magnetic bearing; finite element method; electromagnetic field; FEM; software; rotary machines
UR - http://eudml.org/doc/207714
ER -

References

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  1. FEMLab (2002): User's Guide and Introduction. - Tegnergaten Comsol AB. 
  2. Gosiewski Z. and Falkowski K. (2003): Multifunction Magnetici Bearings. - Scientific Library of the Aviation Institute, Warsaw (in Polish). 
  3. Hammond P. and Sykulski J.K. (1994): Engineering Electromagnetism - Physical Processes and Computation. - New York: Oxford University Press. 
  4. Kanebako H. and Okada Y. (2002): New design of hybrid type self-bearing motor for high-speed miniature spindle. - Proc. 8-th Int. Symp.sMagnetic Bearings, Mito, Japan, pp. 65-70. 
  5. Maslen E. (1999): Magnetic Bearings. - Charlottesville, Virginia, USA, (personal notes). 
  6. Ohmori K., Kim S., Masuzawa T. and Okada Y. (2002): Design of an axial-type self bearing motor for small axial pump. - Proc. 8-th Int.Symp. Magnetic Bearings, Mito, Japan, pp. 15-20. 
  7. Rothwell E.J. and Cloud M.J. (2001): Electromagnetics. - Boca Raton: CRC Press. 

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