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[해외논문] A review of power converter topologies for wind generators 원문보기

Renewable energy, v.32 no.14, 2007년, pp.2369 - 2385  

Baroudi, J.A. (Department of Electrical and Computer Engineering, University of Alberta, Edmonton, AB., Canada) ,  Dinavahi, V. ,  Knight, A.M.

Abstract AI-Helper 아이콘AI-Helper

Wind energy conversion systems have become a focal point in the research of renewable energy sources. This is in no small part due to the rapid advances in the size of wind generators as well as the development of power electronics and their applicability in wind energy extraction. This paper provid...

Keyword

#Induction generators   #Power electronics   #Wind energy   #[abr] DFIG; doubly fed induction generators   #[abr] IG; induction generators   #[abr] MMF; magneto-motive force   #[abr] MPPT; maximum power point tracking   #[abr] MRAS; model reference adaptive system   #[abr] PI; proportional-integral   #[abr] PLL; phase lock loop   #[abr] PMSG; permanent magnet synchronous generator   #[abr] PWM; pulse width modulation   #[abr] RPS; rotary phase shifter   #[abr] RSH; rotor slot harmonics   #[abr] SCR; silicon controlled rectifier   #[abr] SG; synchronous generator   #[abr] SHE; selective harmonic elimination   #[abr] SVM; space vector modulation   #[abr] TSR; tip-speed to wind speed ratio   #[abr] VSC; voltage source converter   #[abr] VSI; voltage source inverter   #[abr] VSV; voltage space vectors   #[abr] WECS; wind energy conversion system  

참고문헌 (41)

  1. Danish Wind Industry Association, Information Available at: 〈http://www.windpower.org/en/news050214.htm〉 

  2. Johnson 1985 Wind energy systems 

  3. 10.1049/ip-gtd:20030304 Chen Z, Spooner E, Current source thyristor inverter and its active compensation system. In: Proceedings of IEE generation, transmission and distribution, vol. 150, July 2003. p. 447-54. 

    상세보기 crossref

  4. IEEE Trans Energy Convers Tan 19 392 2004 10.1109/TEC.2004.827038 Optimum control strategies in energy conversion of PMSG wind turbine system without mechanical sensors 

    상세보기 crossref

  5. IEEE Trans Energy Convers Chen 16 148 2001 10.1109/60.921466 Grid power quality with variable speed wind turbines 

    상세보기 crossref

  6. 10.1049/ip-epa:19981981 Chen Z, Spooner E, Grid interface options for variable-speed permanent-magnet generators. In: Proceedings of IEE electric power applications, vol. 145, July 1998. 

    상세보기 crossref

  7. 10.1049/cp:19980572 Chen Z, Spooner E, Wind turbine power converters: A comparative study. In: Proceedings of IEE seventh international conference on power electronics and variable speed drives, September 1998. p. 471-6. 

    crossref

  8. Song SH, Kang S, Hahm N, Implementation and control of grid connected AC-DC-AC power converter for variable speed wind energy conversion system. In: Proceedings of IEEE APEC’03, vol. 1, February 2003. p. 154-8. 

  9. Higuchi Y, Yamamura N, Ishida M, Hori T, An improvement of performance for small-scaled wind power generating system with permanent magnet type synchronous generator. In: Proceedings of IEEE IECON’00, vol. 2, October 2000. p. 1037-43. 

  10. Schiemenz I, Stiebler M, Control of a permanent magnet synchronous generator used in a variable speed wind energy system. In: Proceedings of IEEE IEMDC’01, 2001. p. 872-7. 

  11. Raju AB, Chatterjee K, Fernandes BG, A simple maximum power point tracker for grid connected variable speed wind energy conversion system with reduced switch count power converters. In: Proceedings of IEEE PESC’03, vol. 2, June 2003. p. 748-53. 

  12. Koyanagi A, Nakamura H, Kobayashi M, Suzuki Y, Shimada R, Study on maximum power point tracking of wind turbine generator using a flywheel. In: Proceedings of IEEE PCC’02, vol. 1, April 2002. p. 322-7. 

  13. Huang H, Chang L, A new DC link voltage boost scheme of IGBT inverters for wind energy extraction. In: Proceedings of IEEE canadian conference on electrical and computer engineering, vol. 1, March 2000. p. 540-4. 

  14. HuangH, Chang L, Energy-flow direction control of grid-connected IGBT inverters for wind energy extraction. In: Proceedings of IEEE canadian conference on electrical and computer engineering, vol. 1, March 2000. p. 535-9. 

  15. IEEE Trans. Power Systems De Battista 15 728 2000 10.1109/59.867166 Sliding mode control of wind energy systems with DOIG-power efficiency and torsional dynamics optimization 

    상세보기 crossref

  16. IEE Proc B Electric Power Applications Cadirci 139 429 1992 10.1049/ip-b.1992.0053 Double-output induction generator operating at sub-synchronous and super-synchronous speeds: steady-state optimization and wind-energy recovery 

    crossref

  17. IEE Proc Electric Power Applications Uctug 141 33 1994 10.1049/ip-epa:19949983 Modeling and output power optimization of a wind turbine driven double output induction generator 

    상세보기 crossref

  18. IEE Proc Electric Power Applications Pena 143 231 1996 10.1049/ip-epa:19960288 Doubly fed induction generator using back-to-back PWM converters and its application to variable-speed wind-energy generation 

    상세보기 crossref

  19. Rabelo B, Hofmann W. Optimal active and reactive power control with the doubly-fed induction generator in the MW-class wind-turbines. In: Proceedings of IEEE fourth international conference on power electronics and drive systems, vol. 1, October 2001. p. 53-8. 

  20. Abbey C, Joos G. A doubly-fed induction machine and energy storage system for wind power generation. In: Proceedings of IEEE canadian conference on electrical and computer engineering, vol. 2, May 2004. p. 1059-62. 

  21. IEEE Trans Energy Conver Datta 18 163 2003 10.1109/TEC.2002.808346 A method of tracking the peak power points for a variable speed wind energy conversion system 

    상세보기 crossref

  22. IEEE Trans Power Electron Datta 16 390 2001 10.1109/63.923772 Direct power control of grid-connected wound rotor induction machine without rotor position sensors 

    상세보기 crossref

  23. Bhowmik S, Spee R. Wind speed estimation based variable speed wind power generation. In: Proceedings of IEEE IECON’98, vol. 2, September 1998. p. 596-601. 

  24. Zhang L, Watthanasarn C. Shepherd W, Application of a matrix converter for the power control of a variable-speed wind-turbine driving a doubly-fed induction generator. In: Proceedings of IEEE IECON’97, vol. 2, November 1997. p. 906-11. 

  25. Keyuan H, Yikang H. Investigation of a matrix converter-excited brushless doubly-fed machine wind-power generation system. In: Proceedings IEEE PEDS’03, November 2003. vol. 1, p. 743-8. 

  26. Pena RS, Cardenas RJ, Clare JC, Asher GM. Control strategies for voltage control of a boost type PWM converter. In: Proceedings of IEEE PESC’01, vol. 2, June 2001. p. 730-5. 

  27. IEEE Trans Power Electron Simoes 12 87 1997 10.1109/63.554173 Fuzzy logic based intelligent control of a variable speed cage machine wind generation system 

    상세보기 crossref

  28. IEEE Trans Energy Conver Cardenas 19 196 2004 10.1109/TEC.2003.821863 Sensorless vector control of induction machines for variable-speed wind energy applications 

    상세보기 crossref

  29. IEEE Trans Energy Conver Abdin 15 91 2000 10.1109/60.849122 Control design and dynamic performance analysis of a wind turbine-induction generator unit 

    상세보기 crossref

  30. IEEE Trans Energy Conver Datta 17 414 2002 10.1109/TEC.2002.801993 Variable-speed wind power generation using doubly fed wound rotor induction machine-a comparison with alternative scheme 

    상세보기 crossref

  31. Svensson J. Simulation of power angle controlled voltage source converter using a linear quadratic method in a wind energy application. In: Proceedings of IEEE workshop on computers in power electronics, August 1996. p. 157-63. 

  32. Marques J, Pinheiro H, Grundling H, Pinheiro J, Hey H. A survey on variable-speed wind turbine system. In: Proceedings of Brazilian conference of electronics of power, vol. 1, 2003. p. 732-8. 

  33. Nicolas C, Lafoz M, Iglesias J. Guidelines for the design and control of electrical generator systems for new grid connected wind turbine generators. In: Proceedings of IEEE IECON’02, vol. 4, November 2002. p. 3317-25. 

  34. Advanced Energy, Information Available at: 〈http://www.advancedenergy.org/motors_and_drives/knowledge_library/resources/permanent_magnet_motors.html〉 

  35. High Technology Finland, Information Available at: 〈http://2003.hightechfinland.com/2003/2003/energyenvironment/energy/abbell.html〉 

  36. IEEE Industry applications magazine Muller 8 3 26 2002 10.1109/2943.999610 Doubly fed induction generator systems for wind turbines 

    상세보기 crossref

  37. Grabic S, Katic V. A comparison and trade-offs between induction generator control options for variable speed wind turbine applications. In: Procedings of IEEE international conference on industrial technology, vol. 1, December 2004. p. 564-8. 

  38. Chondrogiannis S, Barnes M, Aten M. Technologies for integrating wind farms to the grid. New and Renewable Energy Programme, Department of Trade and Industry, February 2006. 

  39. Meier S, Norrga S, Nee HP. New topology for more efficient offshore AC/DC converters for future offshore wind farms. KTH Research Project Database, February 2006. 

  40. Henderson G, Roding W. Synchronous and synchronized wind power generation. In: Proceedings of eighthth NZWEA conference, Palmerston North, July 2004. 

  41. Barry D. Increasing renewable energy accessibility in Ireland. In: 20th wind energy congress, September 2006. 

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