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http://dx.doi.org/10.5370/KIEE.2013.62.7.1045

A Study on the Design of the Flywheel Energy Storage Device to Store the Regenerative Energy  

Lee, Jun-Ho (Advanced Traction and Noncontact Feeding System Research Team, Korea Railroad Research Team)
Park, Chan-Bae (Advanced Traction and Noncontact Feeding System Research Team, Korea Railroad Research Team)
Lee, Byeong-Song (Advanced Traction and Noncontact Feeding System Research Team, Korea Railroad Research Team)
Publication Information
The Transactions of The Korean Institute of Electrical Engineers / v.62, no.7, 2013 , pp. 1045-1052 More about this Journal
Abstract
In this study we deal with design procedures for the flywheel energy storage system that has the capacity to store the regenerative energy produced from the railway vehicles. The flywheel energy storage system (FESS) stores the regenerative electrical energy into the high speed rotational flywheel, by conversion the electrical energy into the mechanical rotational energy. Thus the FESS is composed of the energy conversion components, such as the motor and generator, mechanical support components, such as the rotational rotor, the magnetic bearings to support the rotor, and the digital controller to control the air gap between the rotor and the magnetic bearings. In this paper the design procedures for the rotor operating at the rigid mode and the magnetic bearings to support the rotational rotor without contact are presented.
Keywords
Flywheel; Energy storage; Magnetic bearings; Suspension;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 G. Schweitzer and E. H. Maslen, eds., Magnetic Bearings: Theory, Design, and Application to Rotating Machinery, Springer, 2010.
2 G. Schweitzer, H. Bleuler, A. Traxler, "Active Magnetic Bearings: Basics, Properties and Applications of Active Magnetic Bearings", vdf Houchschulverlag AG der ETH Zurich,1994
3 D. Dunn-Rankin, E. M. Leal, and D. C. Walther, "Personal power systems," Progress in Energy and Combustion Science, vol. 31, pp. 422-465, 2005.   DOI   ScienceOn
4 A. Ortiz Salazar, W. Dunford, R. Stephan, E. Watanabe, "A Magnetic Bearing System Using Capacitive Sensors for Position Measurement", IEEE Transactions on Magnetics, Vol. 26, No. 5, September 1990
5 J. Imlach, "Magnetic Bearing Design Optimization", IMechE, pp 53-60, 1988
6 Florian L., "Identification and Automated Controller Design for Active Magnetic Bearing Systems", Dissertation, ETH No. 14474, 2002
7 Tim Harris et al, "From product innovation to proven solutions", Evolution.skf.com, Feb. 2003
8 Tingshu Hu, et al, "Constrained Control Design for Magnetic Bearing Systems", Journal of Dynamic Systems, Measurement and Control, Vol. 127, pp. 601-616, 2005   DOI   ScienceOn
9 Mohammad A. Hossain, "High Temperature, Permanent Magnet Biased Homopolar Magnetic Bearing Actuator", Thesis, Texas A&M University, 2008
10 Dennis J. Eichenberg, et al, "Development and Testing of an Axial Halbach Magnetic Bearing", NASA/TM-2006-214357
11 Kenzo Nonami, "Recent Trend of Magnetic Bearing System and its Application for Energy Storage Flywheel System", Koyo Engineering Journal English Edition No. 164E, 2004
12 Jun-Ho Lee, et al, "A Study on the Open Loop Characteristics of a Magnetic Suspension System Including Magnetic Flux Feedback", The Korean Society for Railway", Vol. 9-4, pp. 1-6, 2006.   과학기술학회마을
13 Woo-Yeon Kim, et al, "Design of Low Power Consumption Hybrid Magnetic Bearing for Flywheel Energy Storage System", KSNVE, 20-8, pp. 717-726, 2010   과학기술학회마을   DOI   ScienceOn