Magnetic gear generator for wind energy

• Autorzy: Belkhir K. S. , Khenfer N.

Warianty tytułu

PL

Generator z przekładnią magnetyczną do elektrowni wiatrowych

• Języki publikacji: EN

Abstrakty

EN

For high power generation of future offshore wind turbine application, size and cost were the big challenge . To overcome these problems, this paper presents a new topology approach for wind power generation without mechanical gear. Using magnetic gear coupled mechanically and magnetically with permanent magnet synchronous generator, even under low wind conditions often found inland, and without mechanical gear, the high speed can be reached with this topology. Computer simulation results are given to verify the validity of the proposed machine.

PL

Generatory używane w morskich turbinach powinny być tanie i niezbyt duże. W artykule zaproponowano nową konstrukcję takiego generatora bez mechanicznej przekładni. Wykorzystano sprzężenie magnetyczne i uzyskano generator pracujący sprawnie nawet przy słabych wiatrach.

Słowa kluczowe

EN

magnetic gear; permanent magnet synchronous generator; vector control; wind turbine

PL

elektrownia wiatrowa; turbina; generator; przekładnia

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2013
• Tom: R. 89, nr 5
• Strony: 72--75
• Opis fizyczny: Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Belkhir K. S.

• Algeria, University of Setif -1

autor

Khenfer N.

• Algeria, University of Setif -1

Bibliografia

• [1] Z. Hameed, J. Vatn, Important Challenges for 10 MW Reference Wind Turbine from RAMS, Energy Procedia, 24 (2012), 263-270.
• [2] O. Keyzan, M.A. Mueller, A Transverse Flux High-Temperature Superconducting Generator Topology for Large Direct Drive Wind Turbines, Physics Procedia, 36 (2012), 759-764.
• [3] K. Atallah, D. How, A Novel High-Performance Magnetic Gear, IEEE Trans. on Magn., 37 (2001), No. 4, 2844-2846.
• [4] K. Atallah. S.D. Calverley, D. How, Design, Analysis and Realisation of a High-Performance Magnetic Gear, IEE Electric Power Applications, 151 (2004), No. 2, 135-143.
• [5] S. Kikuchi, K. Tsurumoto, Design and Characteristics of a New Magnetic Worm Gear Using Permanent Magnet, IEEE Trans. on Magn., 29 (1993), No.6, 2923-2925.
• [6] P.O. Rasmussen, T.O. Andersen, F.T. Jorgensen, O. Nielsen, Development of a High-Performance Magnetic Gear, IEEE Trans. on Industry Applications, 41 (2005), No.3, 764-770.
• [7] M.H. Nagrial, J. Rizk and A. Hellany, Design and development of magnetic torque couplers and magnetic gears, in Proc. ICEE '07 Int. Conf. on Electrical Engineering, Lahore, Pakistan, April 11-12, (2007), 1-5.
• [8] C. Huang , M. Tsai, D.G. Dorrell, B. J. Lin, Development of a Magnetic Planetary Gearbox, IEEE Trans. on Magn., 44 (2008), No. 3, 403-412.
• [9] K. Atallah, J. Rens, S. Mezani and D. Howe, A Novel 'Pseudo' Direct-Drive Brushless Permanent Magnetic Machine, IEEE Trans. on Magn., 44 (2008), No.11, 4349-4352.
• [10] N.A. Orlando, R.A. Mastromauro, M. Liserre, and A. Dell'Aquila, Grid voltage support by means of a small wind turbine system, In Proc. IECON 2008 34th Int. Conf. on Industrial Electronics, Orlando, FL., Nov. 10-13, (2008), 2178–2183.
• [11] O. Anaya-Lara, N. Jenkins, J. Ekanayake, P. Cartwright, M. Hughes, Wind energy generation Modeling and Control, 1st. ed., Wiley, UK, 2009.
• [12] W. M. Lin., C. M. Hong, F. S. Cheng, Design of intelligent controllers for wind generation system with sensorless maximum wind energy control, Energy Conversion and Management, 52 (2011), No. 2, 1086-1096.
• [13] R. Esmaili, L. Xu, D.K. Nichols, A new control method of permanent magnet generator for maximum power tracking in wind turbine application, In Proc. IEEE Int. Conf. on Power Engineering Society, June 12-16, (2005), 2090–2095.
• [14] H. Camblong, I. Martinez de Alegria, M. Rodriguez, G. Abad, Experimental Evaluation of Wind Turbines Maximum Power Point Tracking Controllers, Energy Conversion and Management, 47, No. 18-19 (2006), 2846-2858.
• [15] Y.Y. Hong. S.D. Lu. C.S. Chiou, MPPT for PM wind generator using gradient approximation, Energy Conversion and Management, 50 (2009), No. 1, 82-89.
• [16] Z. Qi, E. Lin, Integrated Power Control for Small Wind Power System, Journal of Power Sources, 217 (2012), No.1, 322-328.
• [17] S.M. Muyeen, Ahmed Al-Durra and J. Tamura, Variable Speed Wind Turbine Generator System with Current Controlled Voltage Source Inverter, Energy Conversion and Management, 52 (2011), No. 7, 2688-2694.