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Finite element method for modeling three-dimensional nonlinear magnetic fields in electrotechnical devices

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Abstract

The method of modeling three-dimensional magnetic fields in electrotechnical devices based on extracting the two-dimensional part of the field is described in the present paper. Two techniques for extracting the field depending on the type of the device and the approaches to both realization of computer model assignment for the electrotechnical device and automatic control of the process of building finite element mashes are described.

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References

  1. Persova, M.G., Numerical Simulation of Electromagnetic Processes in Electric Drives by Considering Rotor’s Motion, Elektrichestvo, 2007, no. 8, pp. 54–58.

  2. Persova, M.G., Soloveichik, Yu.G., Temlyakova, Z.S., et al., Numerical Simulation of Electric Machine Acceleration by Example of Induction Motor with Two “Squirrel Cages”, Elektrichestvo, 2007, no. 8, pp. 59–61.

  3. Temlyakova, Z.S, Persova, M.G., Soloveichik, Yu.G., et al., A New Approach to Designing Electrical Machines on the Basis of Numerical Simulation, Elektrotekhn., 2007, no. 9, pp. 15–21 [Rus. Electr. Eng. (Engl. Transl.), 2007, vol. 78, no. 9, p. 461].

  4. Persova, M.G., Soloveichik, Yu.G., and Temlyakova, Z.S., Mathematical Model for Researching the Characteristics of Traction Induction Electric Motor, Transport. Nauka. Tekhn. Upravl., 2008, no. 6, pp. 6–9.

  5. Silvester, P.P. and Ferrari, R.L., Finite Elements for Electrical Engineers, Cambridge Univ. Press, 1983; Moscow: Mir, 1986.

  6. Bossavit, A., Computational Electromagnetism: Variational Formulations, Complementarity, Edge Elements, Boston: Acad. Press, 1998.

    MATH  Google Scholar 

  7. Soloveichik, Yu.G., Royak, M.E., and Persova, M.G., Metod konechnykh elementov dlya resheniya skalyarnykh i vektornykh zadach (Finite Element Method for Solving Scalar and Vector Problems), Novosibirsk: NGTU, 2007.

    Google Scholar 

  8. Morozov, N.A., Bakevich, E., Daniel, K., et al., Electrostatic and Magnetic Elements for the New System of Beam Output from AITs-144 Isochronous Cyclotron, Vopr. At. Nauki Tekh., Ser. Yad.-Fiz. Issl., 2001, no. 3, pp. 108–110.

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Authors
  1. M. G. Persova
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  2. Yu. G. Soloveichik
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  3. Z. S. Temlyakova
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  4. M. V. Abramov
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  5. D. V. Vagin
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  6. M. V. Gamadin
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Additional information

Original Russian Text © M.G. Persova, Yu.G. Soloveichik, Z.S. Temlyakova, M.V. Abramov, D.V. Vagin, M.V. Gamadin, 2011, published in Elektrotekhnika, 2011, No. 6, pp. 14–20.

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Persova, M.G., Soloveichik, Y.G., Temlyakova, Z.S. et al. Finite element method for modeling three-dimensional nonlinear magnetic fields in electrotechnical devices. Russ. Electr. Engin. 82, 292–297 (2011). https://doi.org/10.3103/S1068371211060113

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  • DOI: https://doi.org/10.3103/S1068371211060113

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