A DISCHARGE CONTROL STRATEGY OF HIGH-SPEED FLYWHEEL ENERGY STORAGE SYSTEM

Jiaqiang Yang, Xiang Zhang, Minghui Zhang, and Dan Peng

References

  1. [1] R. Hebner, J. Beno, and A. Walls, Flywheel batteries come around Again, IEEE Spectrum, 39(4), 2002, 46–51.
  2. [2] Dai Xing-jian, Deng Zhan-feng, Liu Gang, et al., Reviewon advanced flywheel energy storage system with large scale,Transactions of China Electrotechnical Society, 26(7), 2011, 133–140.
  3. [3] S. Vazquez, S.M. Lukic, E. Galvan, et al., Energy storage systems for transport and grid applications, IEEE Transactions on Industrial Electronics, 57(12), 2010, 3881–3895.
  4. [4] R. Pena-Alzola, R. Sebastian, J. Quesada, et al., Review of flywheel based energy storage systems, Proc. 2011 International Conf. on Power Engineering, Energy and Electrical Drives, Torremolinos, Spain, 2011.
  5. [5] C. Huynh, P. Mcmullen, A. Filatov, et al., Flywheel energy storage system for naval applications, Proc. GT 2006 ASME Turbo Expo 2006: Power for Land, Sea & Air, Barcelona, Spain, 2006.
  6. [6] J. Jinhwan and N. Kwanghe, A dynamic decoupling controlscheme for high-speed operation of induction motors, IEEETransactions on Industrial Electronics, 46(1), 1999, 100–110.
  7. [7] Jae-Do Park, C. Kalev, and F. Hofmann, Control of high-speed solid-rotor synchronous reluctance motor/generator for flywheel-based uninterruptible power supplies, IEEE Transactions on Industrial Electronics, 55(8), 2008, 3038–3046.
  8. [8] P. Antoniewicz, M. Jasinski, and M.P. Kazmierkowski,AC/DC/AC converter with reduced DC side capacitor value,EUROCON 2005: Computer as a Tool, Belgrade, Yugoslavia,2005.
  9. [9] G. Bon-Gwan and N. Kwanghee, A DC-link capacitor min-imization method through direct capacitor current control,IEEE Transactions on Industry Applications, 42(2), 2006,573–581.
  10. [10] R. Wu, S.B. Dewan, and G.R. Slemon, A PWM AC-to-DCconverter with fixed switching frequency, IEEE Transactionson Industry Applications, 26(5), 1990, 880–885.
  11. [11] J.S. Kim and S.K. Sul, New control scheme for AC–DC–ACconverter without DC-link electrolytic capacitor, 24th Annual IEEE Power Electronics Specialists Conference, Seattle, WA, 1993.
  12. [12] C.T. Rim, D.Y. Hu, and G.H. Cho, Transformers as equivalent circuits for switches: General proofs and D–Q transformation-based analyses, IEEE Transactions on Industry Applications, 26(4), 1990, 777–785.
  13. [13] R. Krishnan, Permanent magnet synchronous and brushless DC motor drives (UK: CRC Press, Taylor & Francis, 2010).
  14. [14] Zhou Zhi-gang, A induction motor decouple control method, Processing of the CSEE, 23(2), 2003, 125–129.
  15. [15] N.-k. Hahm, Implementation and control of grid connected AC-DC-AC power converter for variable speed wind energy conversion system, Proc. 18th Annual IEEE Applied Power Electronics Conf. and Exposition, APEC-03, 2003.
  16. [16] H. Wang, The cooperated MPPT control of standalone PVpower generation system, Proc. 8th World Congress on Intel-ligent Control and Automation (WCICA), 2010, 2228–2231.
  17. [17] Z. Qian, Analysis and research of a multiple-loop control strategy for single-phase UPS inverters, Proc. Int. Conf. on Power Electronics and Drive Systems, 1, 2005, 628–632.
  18. [18] W.-J. Lee, S.-K. Sul, and Y.-S. Shim, A protection scheme against voltage sags for electrolytic capacitorless AC drives, IEEE Transactions on Industry Applications, 45(1), 2009, 186–193.
  19. [19] B. Yang, W. Li, Y. Zhao, and X. He, Design and analysis of a grid-connected photovoltaic power system, IEEE Transactions on Power Electronics, 25(4), 2010, 992–1000.

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