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Performance Comparison of Two Wind Turbine Generator Systems Having Two Types of Control Methods

Saito, Sumio    (Department of Mechanical Engineering, Tokyo National College of Technology   ); Sekizuka, Satoshi    (Regional Business Management Division, Engineering Department, Technical Section 2, Ebara Yoshikura Hydrotech Co., Ltd.  );
  • 초록

    The purpose of this paper is to gain a greater understanding of the performance of practical wind turbine generating systems with differing output power controllers and controlling means for wind turbine speed. Subjected wind turbines, both equipped with an asynchronous power generator, are located at two sites and are defined as wind turbine A and wind turbine B in this study, respectively. Their performance differences are examined by measuring wind speed and electric parameters. The study suggests that both wind turbines have a clear linkage between current and output power fluctuations. Comparison of the fluctuations to wind speed fluctuation, although they are triggered primarily by wind speed fluctuation, clearly indicates the specific behaviors inherent to the respective turbine control mechanisms.


  • 주제어

    Wind turbine .   Wind speed .   Induction generator .   Asynchronous generator .   Power curve .   Acoustic noise.  

  • 참고문헌 (9)

    1. Imamura, H., Matsumiya, H., Tsuchiya, K., Yamada, S., “Study on the Wind Measurements and Performance Evaluation of aWTGS in Complex Terrain (1st Report, Evaluation of NEDO-500kW WTGS at Tappi Wind Park),” Transactions of the JapanSociety of Mechanical Engineers. Vol. 64, No. 626, B (1998), pp. 3323-3329. 
    2. Muller, S., Deicke, M., Doncker, R. W. De., “Doubly Fed Induction Generator Systems for Wind Turbines,” IEEE IndustryApplications Magazine, May/June 2002, pp. 26-33. 
    3. Hofmann., W., Okafor, F., “Doubly-Fed Full-Controlled Induction Wind Generator for Optimal Power Utilisation,” PEDS '01Conference Proceedings, (2001), pp. 1-7. 
    4. Imamura, H., Numajiri, T., Kurokawa, J.,Study on Flow Patterns around Horizontal Axis Wind Turbines under Yawed InflowConditions, Proceedings of the 50th General Assembly of the Turbomachinery Society of Japan, 2003-5, pp. 79-84. 
    5. Hasegawa, Y., Kikuyama, K., Karikomi, K., Kato, C., Effects of Turbulence Characteristics on Aerodynamic Behavior ofHAWT Rotor, Wind Energy, Vol. 25, No.4, (2001), pp. 73-76. 
    6. JIS C 1400-12: 2002, “Wind turbine generator systems - Part 12: Wind turbine power performance testing,” JapaneseStandards Association. 
    7. JIS C 1400-1: 2001, “Wind turbine generator systems - Part 1: Safety requirements,” Japanese Standards Association. 
    8. JIS C 1400-11: 2001, “Wind turbine generator systems - Part 11: Acoustic noise measurement techniques,” Japanese StandardsAssociation. 
    9. Nii, T., Result of Noise Measurement for Wind Turbines, Result Report of Research and Study of Standardization of NewPower Generation Systems, Part 3, Wind Energy, 2003-3, The Japan Electrical Manufacturers' Association, pp. 652-660. 

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