Application ofWireless Power Transfer in Pitch Angle Control in Wind Turbines

Publish Year: 1391
نوع سند: مقاله کنفرانسی
زبان: English
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CLEANENERGY02_127

تاریخ نمایه سازی: 1 آذر 1391

Abstract:

This paper investigates the use of Wireless Power Transfer (WPT) technology as a substitute for mechanical slip rings in pitch angle control for windturbines. Due to wear and tear problems and high maintenance costs of slip rings, contactless slip rings can be used instead of conventional mechanical sliprings. Contactless slip ring is a maintenance-free alternative and doesn’t have the friction and heating problem that conventional slip rings have. In this paperafter explaining the importance of pitch angle control, wireless power transfer technology is introduced and implementing WPT in pitch angle control system isinvestigated. For a better understanding of wireless power transfer, simulation of a WPT electronic circuitis performed and maximum efficiency condition is studied. Finally, it is concluded that implementing contactless slip ring instead of common slip ring inwind turbine is feasible

Authors

f Rezaei

BSc student in Electrical Engineering- Power Systems, University of Kerman

s Esmaeili

Assistant professor of Electrical Engineering- Power Systems, University of Kerman

m Rezaei

PhD student in Applied Mathematics- Control Systems, University of Kerman

a Patrick Hu

Associate professor of Electrical Engineering- Power Systems, the University of Auckland

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  • Global Wind Energy Council (GWEC). 2012. :Globl Wind Statistics 201 ...
  • ACEC2012, 11-12 July, 2012 ...
  • Do-Hyun Kang, Dae-Hyun Koo, Ion Vadan. 2005. "Contactless Excitation System ...
  • Jeff D. Koenitzer, P.E. 2008. The Effect of Spring Pressure ...
  • Schunk Group. Schunk Group catalogue, Technical also ...
  • Morgan AM&T. Technical Bulletin .Slip Rings-Carbon Dust Removal ...
  • Nathan Schachter. 2006. Cimentic Engineering LTD presentation, Slip Ring Induction ...
  • J.P.C. Smeets, D.C. Krop, J.W. Jansen and E.A. Lomonova. 2010. ...
  • Ali Abdolkhani, Aiguo Patrick Hu, Nirmal C.-. Nair. 2012. "Modelling ...
  • Sliprings". Scientific Research Publishing, Engineering Journal, pp. 272-283. ...
  • Ali Abdolkhani, Aiguo Patrick Hu. 2011. _ Structure for ...
  • ACEC2012, 11-12 July, 2012 ...
  • European Wind Energy Association. 2011. "EU Energy Policy to 2050. ...
  • Pitchء [3] Ramakrishnan V, Subramaniam Ganesan. 2009. Control of Wind ...
  • Tony Burton. 2001. Wind Energy Handbook. John Wiley & Sons, ...
  • Aristeidis Karalis, J.D. Joannopoulos, and Marin Soljacic. 2008. "Efficient wireless ...
  • Eberhard Waffen schmidt, Fachhoch schule Koln. 1994. "Inductive Wireless Power ...
  • UEA Proxi (United Equipment Acces sories, INC) _ UEA Proxi-Ring ...
  • J. F. Manwell and , G. McGowa. 2009. Wind Energy ...
  • Thomas Ackermann. 2005. Wind Power in Power Systems. John Wiley ...
  • Gurit. Wind Energy Handbook-2- Aerodynamics and http ://www _ gurit. ...
  • Ghazi Ben Hmida, Hamadi Ghariani, Mounir Samet. 2007. "Design of ...
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