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Design of low noise airfoil with high aerodynamic performance for use on small wind turbines 被引量:7

Design of low noise airfoil with high aerodynamic performance for use on small wind turbines
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摘要 Wind power is one of the most reliable renewable energy sources and internationally installed capacity is increasing radically every year.Although wind power has been favored by the public in general,the problem with the impact of wind turbine noise on people living in the vicinity of the turbines has been increased.Low noise wind turbine design is becoming more and more important as noise is spreading more adverse effect of wind turbine to public.This paper demonstrates the design of 10 kW class wind turbines,each of three blades,a rotor diameter 6.4 m,a rated rotating speed 200 r/min and a rated wind speed 10 m/s.The optimized airfoil is dedicated for the 75% spanwise position because the dominant source of a wind turbine blade is trailing edge noise from the outer 25% of the blade.Numerical computations are performed for incompressible flow and for Mach number at 0.145 and for Reynolds numbers at 1.02×106 with a lift performance,which is resistant to surface contamination and turbulence intensity.The objectives in the design process are to reduce noise emission,while sustaining high aerodynamic efficiency.Dominant broadband noise sources are predicted by semi-empirical formulas composed of the groundwork by Brooks et al.and Lowson associated with typical wind turbine operation conditions.During the airfoil redesign process,the aerodynamic performance is analyzed to reduce the wind turbine power loss.The results obtained from the design process show that the design method is capable of designing airfoils with reduced noise using a commercial 10 kW class wind turbine blade airfoil as a basis.Therefore,the new optimized airfoil showing 2.9 dB reductions of total sound pressure level(SPL) and higher aerodynamic performance are achieved. Wind power is one of the most reliable renewable energy sources and internationally installed capacity is increasing radically every year.Although wind power has been favored by the public in general,the problem with the impact of wind turbine noise on people living in the vicinity of the turbines has been increased.Low noise wind turbine design is becoming more and more important as noise is spreading more adverse effect of wind turbine to public.This paper demonstrates the design of 10 kW class wind turbines,each of three blades,a rotor diameter 6.4 m,a rated rotating speed 200 r/min and a rated wind speed 10 m/s.The optimized airfoil is dedicated for the 75% spanwise position because the dominant source of a wind turbine blade is trailing edge noise from the outer 25% of the blade.Numerical computations are performed for incompressible flow and for Mach number at 0.145 and for Reynolds numbers at 1.02×106 with a lift performance,which is resistant to surface contamination and turbulence intensity.The objectives in the design process are to reduce noise emission,while sustaining high aerodynamic efficiency.Dominant broadband noise sources are predicted by semi-empirical formulas composed of the groundwork by Brooks et al.and Lowson associated with typical wind turbine operation conditions.During the airfoil redesign process,the aerodynamic performance is analyzed to reduce the wind turbine power loss.The results obtained from the design process show that the design method is capable of designing airfoils with reduced noise using a commercial 10 kW class wind turbine blade airfoil as a basis.Therefore,the new optimized airfoil showing 2.9 dB reductions of total sound pressure level(SPL) and higher aerodynamic performance are achieved.
出处 《Science China(Technological Sciences)》 SCIE EI CAS 2010年第1期75-79,共5页 中国科学(技术科学英文版)
基金 supported by New and Renewable Energy R&D Program (Grant No. 2009T100100231) under Ministry of Knowledge and Economy,Republic of Korea
关键词 WIND TURBINE aerodynamic noise AIRFOIL SELF noise low noise AIRFOIL DESIGN wind turbine aerodynamic noise airfoil self noise low noise airfoil design
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参考文献12

  • 1Bak C,Bertagnolio F,Madsen H A.Design of low noise airfoil with high aerodynamic performance. Proceedings of the Third Interna-tional Meeting on Wind Turbine Noise . 2009
  • 2Guidati G,Bareiss R,Wagner S,et al.Development of design tools for reduced aerodynamic noise wind turbine. Proc. of the European Union Wind Energy Conference and Exhibition . 1996
  • 3Brooks F T,Pope D S,Marcolini M A.Airfoil Self Noise and Predic-tion. . 1989
  • 4Lowson M V.Assessment and prediction model for wind turbine noise: 1. Basic aerodynamic and acoustic models. Flow Solution Re-port93/06 . 1993
  • 5Oerlemans S,,Fisher M,Maeder T,et al.Reduction of wind turbine noise using optimized airfoils and trailing-edge serrations. AIAA Journal . 2009
  • 6Frank B,SΦrensen N,Johansen J,et al.RisΦ-R-1280,wind turbine airfoil catalogue. . 2001
  • 7Paul Migliore,Stefan Oerlemans.Wind Tunnel Aeroacoustics Tests of Six Airfoils for Use on Small Wind Turbines. Journal of Energy . 2004
  • 8Wagner S,Bareib R,Guidati G.Wind Turbine Noise. . 1996
  • 9Drela M.XFOIL,an Analysis and Design System forLow Reynolds Number Airfoils. Conference onLow Reynolds Number Aerodynamics . 1989
  • 10Giguère P,Selig M S.Blade Design Trade-Offs Using Low-Lift Airfoils for Stall-Regulated HAWTs. NREL Technical Report CP–500–26091 . 1999

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