Estimation of Traction Drive Test Bench with Energy Storage System Operation in Regenerative Braking Mode
DOI:
https://doi.org/10.2478/v10314-012-0007-yKeywords:
Motor drives, computer simulation, energy storage, supercapacitorsAbstract
The paper presents configuration of the traction drive test bench with energy storage system, calculation of the scale factors, estimation of the energy storage system size and Matlab simulation results of the bench operation in a braking mode at different levels of the supercapacitor initial voltage.References
V. Brazis, G. Zaleskis, L. Latkovskis, L. Grigans, U. Sirmelis: Simulation of Light Railway Traction Drive with Energy Storage System. Proceedings of the 52st Annual International Scientific Conference of Riga Technical University, Section “Power and Electrical Engineering”, October 2011.
N. Cobanov: Capacitive Energy Storage Device from Tram Auxiliary Power Supplies. AUTOMATIKA 48(2007) 3-4, - pp. 113-120.
P. Drabek, L. Streit, M. Los: The Energy Storage System with Supercapacitor. 14th International Power Electronics and Motion Control Conference, EPE-PEMC, T9, 2010. - pp. 39-43.
D. Iannuzzi: Improvement of the Energy Recovery of Traction Electrical Drives using Supercapacitors. 13th International Power Electronics and Motion Control Conference, EPE-PEMC 2008. - pp. 1492-1497.
L. Latkovskis, V. Bražis: Application of supercapacitors for storage or regenerative energy in T3A tramcars. Latvian Journal of Physics and Technical Sciences, Rīga, N5-2007. - pp. 23-33.
Y. Cheng, J. Van Mierlo, P. Lataire: Research and test platform for hybrid electric vehicle with the supercapacitor based energy storage. International Review of Electrical Engineering (I.R.E.E.), Vol. 3, N3-2008. - pp. 466-478.
V.Brazis, G. Zaleskis, L. Latkovskis, L. Grigans: Traction Drive Load Simulator. Proceedings of the 52st Annual International Scientific Conference of Riga Technical University, Section “Power and Electrical Engineering”, October 2011.
Richard T.M. Smokers, Arjan J.J. Dijkhuizen and Rob G. Winkel: Annex VII: Hybrid Vehicles Overview Report 2000, Chapter 4: Components for hybrid vehicles. 2000, pp. 5-12.
Genadijs Zaleskis, Juris Kiploks, Viesturs Brazis: Hybrid Vehicle for Military Operations. Proceeding of the 11th International Symposium “Topical Problems in the Field of Electrical and Power Engineering * Doctoral School of Energy and Geotechnology II”, Faculty of Power Engineering, Tallin University of Technology, Parnu, 2012. - pp. 84-87.
L. Latkovskis, V. Brazis and L. Grigans: Simulation of On-Board Supercapacitor Energy Storage System for tatra T3A Type Tramcars. Chapter 14 in the In-tech book “Modeling, Simulation and optimization”, Vukovar, Chroatia, 2010, pp. 307-329.
R. Barrero, J. Van Mierlo and X. Tackoen: Enhanced Energy Storage Systems for Improved On-Board Light Rail Vehicle Efficiency. IEEE Vehicular Technology Magazine, 2008. - pp. 26-36.
R. Barrero, X. Tackoen, J. Van Mierlo: Analysis and configuration of supercapacitor based energy storage system on-board light rail vehicles. EPE-PEMC 2008 Conference Proceedings, Poznan, 2008. - pp. 1535-1540.
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Copyright (c) 2012 Genadijs Zaleskis, Viesturs Brazis, Leonards Latkovskis (Author)
This work is licensed under a Creative Commons Attribution 4.0 International License.
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