Metamodels for Optimum Design of Outer-Rotor Synchronous Reluctance Motor
DOI:
https://doi.org/10.2478/ecce-2014-0005Keywords:
AC motors, Design optimization, Magnetostatics, Metamodeling, Finite element analysisAbstract
A new design of synchronous reluctance motor with segment-shaped outer rotor is presented and investigated in this paper. In order to obtain correct recommendations for optimal design of the studied synchronous reluctance motor, analytical relations of motor electromagnetic parameters and geometrical dimensions (also known as metamodels) have been synthesized. Electromagnetic parameters, which have been used for metamodels synthesis, are obtained by means of magnetostatic field numerical calculations with finite element method using software QuickField.References
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T. J. E. Miller, Switched Reluctance Motors and their Control, Magna Physics Publishing and Oxford University Press, London, 1993.
R. Krishman, Switched reluctance motor drives, modeling, simulation, analysis, design, and applications, CRC Press, Washington, 2001.
K. Nakamura, Y. Suzuki, H. Goto, and O. Ichinokura, Design of outerrotor type multipolar SR motor for electric vehicle, Proceedings of the Joint European Magnetic Symposia (JEMS’04), vol. 290-291, pp. 787-794, April 2005.
J. Dirba, N. Levin, S. Orlova and V. Pugachev, Brushless Synchronous Motors for Appliances and Power Tools, Proceedings of the 6th International Conference on Electrical and Control Technologies (ECT2011), Lithuania, Kaunas, pp. 222-225, May 2011.
V. Pugachev, J. Dirba, L. Kukjane, N. Levin and S. Orlova, “Synchronous Reluctance motor”, Patent of the Republic of Latvia LV 14418 B, Jan. 20, 2012 (in Latvian).
M. M. Protodyakonov, R. I. Teder, Method of the experiments rational design, Moscow, Russia: Science, 1973 (in Russian).
A. Janushevskis, J. Auzinsh, Design and analysis of experiments, Riga, Latvia: RTU, 2007 (in Latvian)
QuickField. Finite Element Analysis System. Version 5.7. User’s Guide. Denmark: Tera Analysis, 2010.
L. Lavrinovicha, J. Dirba, N. Lavrinovich, Magnetostatic analysis of surface-mounted permanent magnet motor with external rotor for use in electric hand planer. Electric Power Engineering (EPE) Conf., Kouty nad Desnou, Chech Republic, 2013.
N. Bianchi, Electrical Machine Analysis Using Finite Elements, CRC Press, Boca Raton, FL, Taylor & Francis, 2005.
V. O. Eglays, Aproximation of the tabular data by means of the polynomial functions regression, Problems of the dynamic and strength. Riga, 1981, Nr 36. (in Russian).
O. Onzevs, I. Tihenko, N. Povetkina and J. Dirba. Electronic Motors: Optimization Problems. Latvian Journal of Physics and Technical Science, Nr 3, Riga, Latvia: Prese, 1997, pp. 71-76.
O. Onzevs, J.Dirba, I. Tihenko, Methodology for Visual Estimation of Electronically Commutated Motors. Latvian Journal of Physics and Technical Science, Riga, Latvia, Nr 3., ISSN 0868-8257, 1998, pp. 32-37.
J. Dirba, Special mode of synchronous machines, Riga, Latvia: RTU, 1997 (in Latvian).
J. Dirba, L. Lavrinovicha, L. Levin, V. Pugachev, Application of Synchronous Brushless Motors in Electric Hand Tools, Latvia Journal of Physics and Technical Science, Volume 49, Issue 1, pp. 29-34, ISSN 0868-8257, Riga, Latvia, March 2012, [17] Introduction to optimization with the Excel Solver tool, Microsoft Home page. [Online]. Available: http://office.microsoft.com [Accessed: May. 12, 2013].
T. J. E. Miller, Switched Reluctance Motors and their Control, Magna Physics Publishing and Oxford University Press, London, 1993.
R. Krishman, Switched reluctance motor drives, modeling, simulation, analysis, design, and applications, CRC Press, Washington, 2001.
K. Nakamura, Y. Suzuki, H. Goto, and O. Ichinokura, Design of outerrotor type multipolar SR motor for electric vehicle, Proceedings of the Joint European Magnetic Symposia (JEMS’04), vol. 290-291, pp. 787-794, April 2005.
J. Dirba, N. Levin, S. Orlova and V. Pugachev, Brushless Synchronous Motors for Appliances and Power Tools, Proceedings of the 6th International Conference on Electrical and Control Technologies (ECT2011), Lithuania, Kaunas, pp. 222-225, May 2011.
V. Pugachev, J. Dirba, L. Kukjane, N. Levin and S. Orlova, “Synchronous Reluctance motor”, Patent of the Republic of Latvia LV 14418 B, Jan. 20, 2012 (in Latvian).
M. M. Protodyakonov, R. I. Teder, Method of the experiments rational design, Moscow, Russia: Science, 1973 (in Russian).
A. Janushevskis, J. Auzinsh, Design and analysis of experiments, Riga, Latvia: RTU, 2007 (in Latvian)
QuickField. Finite Element Analysis System. Version 5.7. User’s Guide. Denmark: Tera Analysis, 2010.
L. Lavrinovicha, J. Dirba, N. Lavrinovich, Magnetostatic analysis of surface-mounted permanent magnet motor with external rotor for use in electric hand planer. Electric Power Engineering (EPE) Conf., Kouty nad Desnou, Chech Republic, 2013.
N. Bianchi, Electrical Machine Analysis Using Finite Elements, CRC Press, Boca Raton, FL, Taylor & Francis, 2005.
V. O. Eglays, Aproximation of the tabular data by means of the polynomial functions regression, Problems of the dynamic and strength. Riga, 1981, Nr 36. (in Russian).
O. Onzevs, I. Tihenko, N. Povetkina and J. Dirba. Electronic Motors: Optimization Problems. Latvian Journal of Physics and Technical Science, Nr 3, Riga, Latvia: Prese, 1997, pp. 71-76.
O. Onzevs, J.Dirba, I. Tihenko, Methodology for Visual Estimation of Electronically Commutated Motors. Latvian Journal of Physics and Technical Science, Riga, Latvia, Nr 3., ISSN 0868-8257, 1998, pp. 32-37.
J. Dirba, Special mode of synchronous machines, Riga, Latvia: RTU, 1997 (in Latvian).
J. Dirba, L. Lavrinovicha, L. Levin, V. Pugachev, Application of Synchronous Brushless Motors in Electric Hand Tools, Latvia Journal of Physics and Technical Science, Volume 49, Issue 1, pp. 29-34, ISSN 0868-8257, Riga, Latvia, March 2012, [17] Introduction to optimization with the Excel Solver tool, Microsoft Home page. [Online]. Available: http://office.microsoft.com [Accessed: May. 12, 2013].
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2014-05-01
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Copyright (c) 2014 Ludmila Lavrinovicha, Roman Dobriyan, Oskars Onzevs (Author)
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How to Cite
Lavrinovicha, L., Dobriyan, R., & Onzevs, O. (2014). Metamodels for Optimum Design of Outer-Rotor Synchronous Reluctance Motor. Electrical, Control and Communication Engineering, 5(1), 34-39. https://doi.org/10.2478/ecce-2014-0005
