Details

Title

Electromagnetic AC and impulse levitations of conductive, dielectric, and magnetic ball

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2021

Volume

69

Issue

No. 1

Authors

Affiliation

Spałek, Dariusz : Silesian University of Technology, Electrical Engineering Faculty, ul. Akademicka 10, 44-100 Gliwice, Poland

Keywords

levitation forces ; ball ; AC and impulse electromagnetic fields ; power losses

Divisions of PAS

Nauki Techniczne

Coverage

e136040

Bibliography

  1.  K.J. Binns, P.J. Lawrenson, and C.W. Trowbridge, The analytical and numerical solution of electric and magnetic fields, John Wiley & Sons, 1992.
  2.  B.S. Guru and H.R. Hiziroglu, Electromagnetic field theory fundamentals, University Press, Cambridge, 2004.
  3.  V. Dolga and L. Dolga, “Modeling and simulation of a magnetic levitation system”, Annals of the Oradea University of Timisoara, Romania, VI (XVI) (2007).
  4.  H. Górecki and M. Zaczyk, “Determination of optimal controllers. Comparison of two methods for electric network chain”, Bull. Pol. Ac.: Tech.66 (3), 267–273 (2018).
  5.  E. Fromm and H. Jehn, “Electromagnetic forces and power absorption in levitation melting”, British Journal of Applied Physics, 16, 653–663 (1965).
  6.  M. Zdanowski and R. Barlik, “Analytical and experimental determination of the parasitic parameters in high-frequency inductor”, Bull. Pol. Ac.: Tech.65 (1), 107–112 (2017).
  7.  E.C. Okress, D.M. Wroughton, G. Comenetz, P.H. Brace, J.C.R. Kelly, “Electromagnetic levitation of solid and molten metals”, J. Appl. Phys. 23 (5), 545–552 (1952).
  8.  D. Spałek, “Theorem about electromagnetic force surface representation in anisotropic region”, J. Tech. Phys.XLVIII (3-4), 135–145 (2007).
  9.  W.R. Smythe, Static and dynamic electricity, McGraw–Hill Book Company, New York, 1950.
  10.  D. Spałek, “Electromagnetic torque components in synchronous salient-pole machine”, COMPEL. Int. J. Comput. . Math. Electr. Electron. Eng. 16 (3), 129–143 (1997).
  11.  D. Spałek, “Two theorems about surface-integral representation of electromagnetic force and torque”, IEEE Trans. Magn. 53 (7), 1–10 (2017).
  12.  W. He, J. Zhang, S. Yuan, A. Yang, and Ch. Qu, “Threedimensional magneto-electric vibration energy harvester based on magnetic levitation”, IEEE Magn. Lett. 8, 6104703 (2017).
  13.  L. Ułanowicz and G. Jastrze˛bski, “The analysis of working liquid flow in a hydrostatic line with the use of frequency characteristics”, Bull. Pol. Ac.: Tech. 68 (4), 949–956, (2020).
  14.  T. Kaczorek, “Stability analysis of positive linear systems by decomposition of the state matrices into symmetrical and antisymmetrical parts”, Bull. Pol. Ac.: Tech. 67 (4), 761–768 (2019).
  15.  B.P. Mann and N.D. Sims, “Energy Harvesting from the Nonlinear Oscillations of Magnetic Levitation”, Universities of Leeds, Sheffield and York (promoting access to White Rose research papers http://eprints.whiterose.ac.uk/), 2017.
  16.  D. Spałek, “Analytical electromagnetic field and forces calculation for linear, cylindrical and spherical electromechanical converters”, Bull. Pol. Ac.: Tech. 52 (3), 239–250 (2004).
  17.  D. Spałek, “Levitation of Conductive and Magnetically Anisotropic Ball”, IEEE Trans. Magn. 55 (3), 1000406 (2019).
  18.  D. Spałek, “Generalization of Maxwell Stress Tensor Method for Magnetically Anisotropic Regions”, IEEE Trans. Magn. 55 (12), 1000406 (2019).
  19.  J.R. Wait, “A conductive sphere in a time varying magnetic field”, Geophysics, 16 (4), 666–672 (1951).
  20.  K. Jayasekera and I. Ciric, “Benchmark Computations of the Fields, Losses, and Forces for Conducting Spheroids in the Proximity of Current- Carrying Turns”, IEEE Trans Magn. 42 (7), 1802–1811 (2006).
  21.  I.S. Gradshteyn and I.M. Ryzhik, Tables of Integrals, Series, and Products, Academic Press, 2015.
  22.  D. Spałek, “Fourth boundary condition for electromagnetic field problems”, J. Tech. Phys. XLI (2), 129–144 (2000).
  23.  D. Spałek, “Anisotropy component of electromagnetic force and torque”, Bull. Pol. Ac.: Tech. 58 (1), 107–117 (2010).

Date

10.02.21

Type

Article

Identifier

DOI: 10.24425/bpasts.2021.136040

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2021; 69; No. 1; e136040
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