The magnetic field calculation in electromechanical systems with saturated ferromagnetic structural elements

• Autorzy: Zhyltsov Andrii , Kondratenko Ihor , Lyktei Viktoriia , Usenko Serhii

Identyfikatory

DOI

10.15199/48.2021.01.12

Warianty tytułu

PL

Metoda obliczania charakterystyk pola magnetycznego w układach elektromechanicznych z cienkimi mostkami ferromagnetycznymi

• Języki publikacji: EN

Abstrakty

EN

A method for calculating the characteristics of the magnetic field in electromechanical systems with thin bridges based on the reduction of the initial-boundary value problem for Maxwell's equations to an equivalent system of integro-differential equations with its subsequent numerical solution is developed.

PL

Opracowano metodę obliczania charakterystyk pola magnetycznego w układach elektromechanicznych z cienkimi mostkami ferromagnetycznymi, polegającą na redukcji problemu początkowo-brzegowego dla równań Maxwella do równoważnego układu równań całkowo-różniczkowych z jego późniejszym rozwiązaniem numerycznym.

Słowa kluczowe

EN

brushless direct current motor; thin ferromagnetic bridge; magnetic permeability; nonlinearity; secondary sources method

PL

bezszczotkowy silnik prądu stałego; mostek ferromagnetyczny cienki; nieliniowość; metoda źródła wtórnego

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2021
• Tom: R. 97, nr 1
• Strony: 69--72
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Zhyltsov Andrii

• The National University of Life and Environmental Sciences of Ukraine

autor

Kondratenko Ihor

• The Institute of Electrodynamics of the National Academy of Sciences of Ukraine

autor

Lyktei Viktoriia

• The National University of Life and Environmental Sciences of Ukraine

autor

Usenko Serhii

• The National University of Life and Environmental Sciences of Ukraine

Bibliografia

• [1] Zhou P.B., Numerical Analysis of Electromagnetic Fields. Springer (1993), 418 p.
• [2] Humphr ies S., Finite-element Methods for Electromagnetics. Electronic edition (2010), 329 p.
• [3] Zablodskiy M, G r i tsyuk V, Rudnev Y, et al., Analysis of 3D eddy current distribution in a hollow rotor of an electromechanical converter, IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO), Ukraine, April, 2020, pp. 561-564.
• [4] Mykola Z., Volodymyr G., Olga T., Calculation of the three-dimensional electromagnetic field distribution in a screw electromechanical converter with external massive rotor, IEEE 2nd Ukraine Conference on Electrical and Computer Engineering, Ukraine, 2019.
• [5] Zablodskiy M., Gritsyuk V., Rudnev Y., et al., Threedimensional electromagnetic field model of an auger electromechanical converter with an external solid rotor, Mining of Mineral Deposits, Volume 13 (2019), Issue 4, pp. 99-106.
• [6] Umoh G., Ogbuka C., Obe E., Modelling and analysis of five-phase permanent magnet synchronous motor in machine variables, Przegląd Elektrotechniczny, R.96, NR 1/2020, pp. 87-92.
• [7] Knebl L., Bianchi N., Bacco G. et al., Synchronous reluctance motor analytical model cross-saturation and magnetization analysis, Przegląd Elektrotechniczny, R.96, NR 1/2020, pp. 108-112.
• [8] Tozoni O.V., Method of secondary sources in electrical engineering, 1975, 296 p.
• [9] Tolmachev S.T., I lchenko A.V., V lasenko V.A., Integral equations for calculating a quasi-stationary electromagnetic field in magnetically conductive media, Bulletin of Kryvyi Rih National University, 2012, nr 33, pp 245-250.
• [10] Lobanov L., Kondratenko I., Zhi l t sov A. et al., Development of post-weld electrodynamic treatment using electric current pulses for control of stress-strain states and improvement of life of welded structures, Materials Performance and Characterization (2018), Volume 7, Issue 4, pp. 941-955.
• [11] Lobanov L. M., Kondratenko I. P., Zhiltsov A. V. et al., Electrophysical unsteady processes in the system to reduce residual stresses welds, Tekhnichna Elektrodynamika, 6, pp. 10–19.
• [12] Zhi l t sov A. Sorokin D., The calculation of the magnetic field in the working area of the linear motor with permanent magnets, 16th International Conference on Computational Problems of Electrical Engineering, Lviv, Ukraine, Sept., 2015, pp. 252-254.
• [13] Zhyl t sov A.V., Lyk tei V.V., Calculation of the magnetic field in a valve electric motor with closed grooves based on nonlinear magnetic characteristic, Electromechanical and energy saving systems. Quarterly Scientific and Production Magazine. Kremenchuk: KrnU, 2014, Vip. 4, pp. 59 – 70.
• [14] Zhyl t sov A.V., Lyk tei V.V. Modeling of the magnetic field in a valve electric motor with closed grooves based on a nonlinear magnetic characteristic. Scientific Bulletin of the National University of Life and Environmental Sciences of Ukraine. Series: Engineering and Power Engineering of Agroindustrial Complex. 2016. Vol. 256. P. 178 – 186.
• [15] Zhyl t sov A.V., Lyk tei V.V., The boundary value problem for a three-dimensional magnetic field with allowance for a nonlinear magnetic medium. Problems of energy saving in electrical engineering systems, Science, education and practice. Scientific publication, Kremenchuk, 1/2014 (2), pp. 124 – 126.
• [16] Zhyl t sov A.V., L yk tei V.V., Magnetic field calculation of brushless direct current motor with smooth stator by secondary sources method Tekhnichna Elektrodynamika, 2018, 5, pp. 7-10.
• [17] Comsol Multiphysics modeling and simulation software. URL.: http://www.comsol.com

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).