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风力机叶片二元翼段静气动弹性机理 被引量:3

Static aeroelastic mechanism of two dimensional airfoil section for wind turbine blade
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摘要 针对风力机叶片翼型静气动弹性的发散速度、载荷重新分布等问题,在线弹性范围内,基于气动弹性力学理论,推导出适用于风力机叶片二元翼段静气动弹性的基本方程.以攻角为输入量,压力为输出量,翼型的弹性扭角为系统的反馈量,建立了风力机叶片弹性翼型的气动弹性反馈模型.在危险风速工况下,对3种典型翼型的风力机叶片二元翼段进行了计算分析,得到了扭转刚度、刚心与气动中心距离对风力机叶片二元翼段的发散速度、附加扭角和升力分布的影响.研究了不同翼型对风力机叶片二元翼段附加扭角和升力分布的影响,结果表明,当扭转刚度较小时,附加扭角的增加在一定程度上提高了翼型的气动性能;当扭转刚度较大时,附加扭角增加较小,对翼型的气动性能影响较小. In order to solve the problems in the static aeroelastic divergence speed and load redistribution of airfoils for wind turbine blades,the static aeroelastic basic equations suitable for the two dimensional(2D) airfoil sections of wind turbine blades were derived based on the aeroelastic theory within the linear elastic range.Through taking the attack angle as the input,pressure as the output and elastic twist angle of airfoils as the feedback of system,an aeroelastic feedback model for elastic airfoils of wind turbine blades was established.In the operating condition with dangerous wind speed,the computation and analysis for the 2D airfoil sections of wind turbine blades with three kinds of typical airfoils were performed.In addition,the effect of torsion stiffness and distance from stiffness center to aerodynamic center on the divergence speed,additional twist angle and lift force distribution of 2D airfoil sections of wind turbine blades was determined.And the influence of different airfoils on the additional twist angle and lift force distribution of 2D airfoil sections of wind turbine blades was studied.The results show that under the smaller torsion stiffness,the aerodynamic performance of airfoils gets improved to a certain extent with increasing the additional twist angle.When the torsion stiffness is larger,the additional twist angle slightly increases,and has little effect on the aerodynamic performance of airfoils.
作者 汪泉 陈进 程江涛 陆群峰
机构地区 重庆大学机械传动国家重点实验室
出处 《沈阳工业大学学报》 EI CAS 北大核心 2012年第6期623-628,共6页 Journal of Shenyang University of Technology
基金 国家自然科学基金资助项目(51175526)
关键词 风力机叶片 二元翼段 气动弹性 气动中心 翼型 发散速度 附加扭角 升力分布 wind turbine blade two dimensional airfoil section aeroelasticity aerodynamic center airfoil divergence speed additional twist angle lift force distribution
分类号 TK83 [动力工程及工程热物理—流体机械及工程] TH12 [机械工程—机械设计及理论]
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参考文献8

  • 1Newman J C, Newman P A, Taylor A C, et al. Effi- cient nonlinear static aeroelastic wing analysis [ J ]. Computers and Fluids, 1999,28 (4/5) :615 - 628.
  • 2Joseph P H. Static aeroelastic analysis of the ARW-2 wing including correlation with experiment D ]. Dur- ham: Duke University,2005 : 15 - 19.
  • 3Puterbaughd M, Beyene A. Parametric dependence of a morphing wind turbine blade on material elasticity [ J ]. Energy,2011,36 ( 1 ) :466 - 474.
  • 4Hoogedoom E, Jacobs G B, Beyene A. Aero-elastic behavior of a flexible blade for wind turbine applica- tion: a 2D computational study [ J ]. Energy, 2010,35 (2) :778 -785.
  • 5李德源,方军,吕文阁,骆少明.水平轴风力机叶片非定常气动特性分析[J].沈阳工业大学学报,2011,33(1):36-40. 被引量:4
  • 6Gladwell G M L. A modem course in aeroelasticity M 1. New York: Kluwer Academic Publishers, 2004 : 5 - 16.
  • 7Fung Y C. An introduction to the theory of aeroelas- ticity E M 1. New York: Dover Publications, 1993:92 - 94.
  • 8Franck B,Niels S,Jeppe J,et al. Wind turbine airfoil catalogue R 1. Roskilde: RISO National Laboratory, 2001.

二级参考文献9

  • 1Leishman J G,Martin G L. Challenges in modeling the unsteady aerodynamics of wind turbines [ J]. Wind Energy,2002,5(2/3) :85 - 132.
  • 2Theodorsen T. General theory of aerodynamic instability and the mechanism of flutter [C]//Jones R T. Classical Aerodynamic Theory. Washington DC, USA: National Aeronautics and Space Administration, 1979: 291 -311.
  • 3Leishrnan J G, Aerodynmicist S, Beddoes T S. A semi- empirical model for dynamic stall [ J ]. Journal of the American Helicopter Society, 1989,34 (3) : 3 - 17.
  • 4Leishman J G, Nguyen K Q. State-space representation of unsteady airfoil behavior [ J]. AIAA Journal, 1990, 28(5) :836 -844.
  • 5Leishman J G, Crouse G L. State-Space model for un- steady airfoil behavior and dynamic stall [C ]//Proceedings of the 30th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Confer- ence. Alabama, USA, 1989 : 1372 - 1383.
  • 6Leishman J G. Two-dimensional model for airfoil unsteady drag below stall [J]. Journal of Aircraft, 1988, 25 (7) :665 - 666.
  • 7Leishman J G. A near wake dynamic model [C]// Proceedings of American Helicopter Society National Specialists Meeting on Aerodynamics and Aeroacous- tics. Arlington, USA, 1987 : 1 - 9.
  • 8Hansen M H. Aeroelastic stability analysis of wind turbines using an eigenvalue approach [ J ]. Wind Energy, 2004,7(2) : 133 - 143.
  • 9Hansen M H, Gaunaa M, Madsen H A. A beddoes-leishman type dynamic stall model in state-space and indicial formulations [ R]. Roskilde :RisФ National Laboratory, 2004.

共引文献3

同被引文献23

  • 1石琴,陈朝阳.任意形状薄壁截面的几何特性参数的计算[J].机械工程学报,2004,40(10):144-148. 被引量:15
  • 2张建平,李志能.悬臂导电薄板磁弹性耦合作用下的动力失稳[J].浙江大学学报(工学版),2006,40(3):414-418. 被引量:5
  • 3郭金琼,房贞政,郑振.箱梁设计理论[M].北京:人民交通出版社,2008.
  • 4马丁·汉森.风力机空气动力学[M].肖劲松译.北京:中国电力出版社,2009.
  • 5Cheboxarov V.Vertical air circulation in a low-speed lateral flow wind turbine with rotary blades[J].Technical Physics Letters,2008,34(1):52-55.
  • 6Sun X J,Huang D G,Wu G Q.The current state of offshore wind energy technology development[J].Energy,2012,41(1):298-312.
  • 7Liu X,Zhang X M.Dynamic response analysis of the rotating blade of horizontal axis wind turbine[J].Wind Engineering,2010,34(5):543-559.
  • 8Hsu M H.Dynamic behavior of wind turbine blades[J].Mechanical Engineering Science,2008,222:1453-1464.
  • 9Rajadurai J,Christopher T,Thanigaiyarasu G,et al.Finite element analysis with an improved failure criterion for composite wind turbine blades[J].Forsch Ingenieurwes,2008,72(4):132-141.
  • 10Chen S Z,Li L P.3D modeling and finite element analysis of dynamic characteristics for blades of wind turbine[C]//Power and Energy Engineering Confe-rence(APPEEC).Chengdu,China,2010:1-4.

引证文献3

二级引证文献11

沈阳工业大学学报
2012年 第6期

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