Design and Optimization of PMSM by Using the Thermal Behaviour of Fluid Dynamics
DOI:
https://doi.org/10.51983/ajes-2015.4.2.1949Keywords:
Permanent magnet synchronous motor, Convective heat transfer coefficient, Computational fluid dynamics, air gap thickness, heat fluxAbstract
One of the efficient gadgets possessing magnificent scope for the enhancement of energy efficiency is the electrical motor. Amid, several kinds of electrical motors, Permanent magnet synchronous motors are widely employed in countless sophisticated applications. This phenomenon has enabled it to be shortlisted for our investigation, which predominantly centres on the thermal character of the Permanent Magnet Synchronous Motor (PMSM), which is designed and replicated in a Computational Fluid Dynamics Software ANSYS FLUENT-13. The heat transfer inside the motor is assessed for diverse functional constraints like inlet velocity, ambient temperature, air gap thickness, heat flux, and convective heat transfer coefficient. The optimum conditions to be preserved to perk up the heat dissipation pace and to dwindle down the highest temperature are forecast. It is pertinent to note that the forecasts from the analyses closely resemble those gathered from literary community, thereby authenticating the aptness of the assessment.
References
Yulia Alexandrova,Robert Scott Semken and Juha Pyrhönen, "Permanent magnet synchronous generator design solution for large direct-drive wind turbines: Thermal behavior of the LC DD-PMSG", Applied Thermal Engineering,Vol.65,No.2,pp.554-563,2014
Li Liu, Wenxin Liu, David A. Cartes ,"Particle swarm optimizationbased parameter identification applied to permanent magnet synchronous motors" ,Engineering Applications of Artificial Intelligence,Vol.21,No.7,pp.1092-1100,2008
Fabrizio Marignetti and Vincenzo Delli Colli, "Thermal Analysis of an Axial Flux Permanent-Magnet Synchronous Machine”, IEEE Transactions on Magnetics, Vol. 45, No. 7, pp.2970-2975, July 2009
Takashi Kosaka, Muthubabu Sridharbabu, Masayoshi Yamamoto, and Nobuyuki Matsui, "Design Studies on Hybrid Excitation Motor for Main Spindle Drive in Machine Tools" ,IEEE Transactions On Industrial Electronics, Vol. 57, No.11,pp.3807-3813 November 2010
Fabrizio Marignetti, Vincenzo Delli Colli and Yuri Coia,"Design of Axial Flux PM Synchronous Machines Through 3-D Coupled Electromagnetic Thermal and Fluid-Dynamical Finite-Element Analysis" ,IEEE Transactions On Industrial Electronics, Vol. 55, No. 10, pp.3591-3601 October 2008
Belakehal Benalla and Bentounsi, "Power maximization control of small wind system using permanent magnet synchronous generator”,Power maximization control of small wind system using permanent magnet synchronous generator,Vol.12, No.2, pp307-319, 2009
Marek Stulrajter, Valeria Hrabovcova and Marek Franko, "Permanent Magnets Synchronous Motor Control Theory", Journal of Electrical Engineering,Vol.58,No.2, pp.79-84,2007
Radovan dolecek, jaroslav novak, ondrej cerny, "Traction Permanent Magnet Synchronous Motor Torque Control with Flux Weakening ", Radio Engineering, Vol.18, No.4, pp.601-605, 2009
Souhil Seghir-Oualil, Souad Harmand and Daniel Laloy, "Study of the thermal behavior of a synchronous motor with permanent magnets ", International Journal of Engineering (IJE), Vol.3, No.3, pp.229- 256, 2010
Fabrizio Marignetti,Vincenzo Delli Colli and Yuri Coia, "Design of Axial Flux PM Synchronous Machines Through 3-D Coupled Electromagnetic Thermal and Fluid-Dynamical Finite-Element Analysis" ,IEEE Transactions On Industrial Electronics, Vol. 55, No. 10, pp.3591-3601, October 2008
Shenkman and Chertkov, “Experimental method for synthesis of generalized thermal circuit of polyphase induction motors,” IEEE Trans. Energy Convers., vol. 15, no. 3, pp. 264–268, Sep. 2000.
F. Marignetti, Delli Colli, and Coia, “Design of axial flux pm synchronous machine through 3-D coupled electromagnetic thermal and fluid –dynamical finite-element analysis”, IEEE Trans. Ind. Electron., vol.55, no.10.pp.3591-3601, oct-2008.
Christian Jungreuthmayer, Thomas Bauml, Oliver Winter, Hansjorg Kapeller, Anton Haumer, and Christian Kral, “A Detailed Heat and Fluid Flow Analysis of an Internal Permanent Magnet Synchronous Machine by means of Computational Fluid Dynamics,” IEEE Trans. Ind. Electron., vol.59,no.12, December 2012.
Yulia Alexandrova,Robert Scott Semken and Juha Pyrhönen, "Permanent magnet synchronous generator design solution for large direct-drive wind turbines: Thermal behavior of the LC DD-PMSG", Applied Thermal Engineering,Vol.65,No.2,pp.554-563,2014
Li Liu, Wenxin Liu, David A. Cartes ,"Particle swarm optimizationbased parameter identification applied to permanent magnet synchronous motors" ,Engineering Applications of Artificial Intelligence,Vol.21,No.7,pp.1092-1100,2008
Radhika. S, Marsalin Beno. M, Jaikumar. R.A ,“Intelligent Control Design of PMSM Servo Drive” in “National Journal on Computing and Management” Volume 4, Issue No.1, pp.32-40 April 2013.
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