A concept of propulsion and power supply systems for PRT vehicles

Authors

  • Bartłomiej Kamiński Warsaw University of Technology, Warsaw, Poland Author
  • Marcin Nikoniuk Warsaw University of Technology, Warsaw, Poland Author
  • Łukasz Drązikowski Warsaw University of Technology, Warsaw, Poland Author

DOI:

https://doi.org/10.5604/01.3001.0004.0110

Keywords:

power supply systems, PRT, linear induction motor

Abstract

An innovative propulsion and power supply topology for Personal Rapid Transit is presented. The concept is based on application of linear induction motor for propulsion and hybrid power supply using Contactless Energy Transfer supported by a supercapacitor energy storage. Proposed solution is based on the application of linear induction motor as a propulsion and inductive contactless energy transfer.

References

S. A. Nasar, I. Boldea. The Induction Machine Handbook, 2nd Edition. Chapter 20. Linear Induction Motors. CRC Press, 2010, pp.589–637.

S. A. Nasar, "Electromagnetic fields and forces in a linear induction motor, taking into account edge effects", Proc. IEE(London), 1969 116, pp. 605-609.

J. Duncan, C.Eng., “Linear induction motor – equivalent-circuit model”, IEEE PROC, Vol. 130, Pt.B, No.1, January 1983.

Jianqiang Liu and Fei Lin and Zhongping Yang and Zheng, T.Q.," Field Oriented Control of Linear Induction Motor Considering Attraction Force & End-Effects" , CES/IEEE 5th International Power Electronics and Motion Control Conference, 2006. IPEMC 2006.

K. Nam, J. H Sung, “A new approach to vector control for linear induction motor considering end effects,” IEEE IAS annual meeting, 3-7 Oct, in Phoenix, Arizona, 1999, pp.2284-2289.

0. H. Stielau, G. A. Covic, “Design of loosely coupled inductive power transfer systems,’’ IEEE-PES/lEE/CSEE International Conference on Power System Technology, POWERCON 2000,4-7 December 2000.

C. Wang, O. H. Stielau, G. A. Covic, “Load models and their application in the design of loosely coupled inductive power transfer systems,” IEEE-PES/IEE/CSEE International Conference on Power System Technology, POWERCON 2000,4-7 December 2000.

C. Wang, G.A. Covic, O.H. Stielau: Power Transfer Capability and Bifurcation Phenomena of Loosely Coupled Inductive Power Transfer Systems, IEEE Trans. on Industrial Electronics, Vol. 51, No. 1, February 2004, pp. 148-157.

O.H. Stielau, J.T. Boys, G.A. Covic, G. Elliot. “Battery charging using loosely coupled inductive power transfer.” 8th European Conference on Power Electronics and Applications, EPE’99, 7-9 September 1999.

A.W. Kelly, W.R. Owens. “Connectorless power supply for an aircraft passenger entertainment system.’’ IEEE Transactions on power electronics, Vol. 4, No. 3, July 1989, pp 348-354.

A.J. MORADEWICZ, M.P. KAZMIERKOWSKI “High efficiency contactless energy transfer system with power electronic resonant converter” BULLETIN OF THE POLISH ACADEMY OF SCIENCES, TECHNICAL SCIENCES, Vol. 57, No. 4, 2009.

D. A. G Pedder, A. D. Brown, J. A. Skinner: A contactless electrical energy transmission system. Industrial Electronics, IEEE Transactions on Volume 46, Issue 1, Feb. 1999 Page(s): 23 – 30

J. de Boeij, E. Lomonova, J. Duarte,A. Vandenput, “Contactless Energy Transfer to a Moving Actuator”Industry Applications Conference, 2006. 41st IAS Annual Meeting. Conference Record of the 2006 IEEE, Volume 4, 2006, pages: 2020-2025

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Published

2013-12-31

Issue

Section

Original articles

How to Cite

Kamiński, B., Nikoniuk, M., & Drązikowski, Łukasz. (2013). A concept of propulsion and power supply systems for PRT vehicles. Archives of Transport, 27(3-4), 81-93. https://doi.org/10.5604/01.3001.0004.0110

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