论文信息 - Computational aerodynamics of low Reynolds number plunging, pitching and flexible wings for MAV applications - 字舞流文

Computational aerodynamics of low Reynolds number plunging, pitching and flexible wings for MAV applications

Wei Shyy | Peretz P. Friedmann | Carlos E. S. Cesnik | Yongsheng Lian | Hao Liu | Jian Tang | Wei Shyy | Peter Ifju | Bret Stanford | Luis P. Bernal | Pat Trizila | Jian Tang | Hao Liu | W. Shyy | Y. Lian | Jian Tang | Hao Liu | P. Ifju | B. Stanford | P. Friedmann | C. Cesnik | L. Bernal | Pat Trizila

[1] Wei Shyy,et al. Aerodynamics of Low Reynolds Number Flyers: Flapping-Wing Aerodynamics , 2010 .

[2] Hao Liu,et al. Flapping Wings and Aerodynamic Lift: The Role of Leading-Edge Vortices , 2007 .

[3] W. Shyy,et al. Aerodynamics of Low Reynolds Number Flyers , 2007 .

[4] Dragos Viieru,et al. A Study of Aerodynamics of Low Reynolds Number Flexible Airfoils , 2007 .

[5] Yongsheng Lian,et al. Aerodynamics of Low Reynolds Number Plunging Airfoil under Gusty Environment , 2007 .

[6] Dragos Viieru,et al. Static Aeroelastic Model Validation of Membrane Micro Air Vehicle Wings , 2007 .

[7] Wei Shyy,et al. Laminar-Turbulent Transition of a Low Reynolds Number Rigid or Flexible Airfoil , 2006 .

[8] Dragos Viieru,et al. Flapping and flexible wing aerodynamics of low reynolds number flight vehicles , 2006 .

[9] M. Platzer,et al. Flapping Wing Aerodynamics - Progress and Challenges , 2006 .

[10] R. Radespiel,et al. Numerical and Experimental Flow Analysis of Moving Airfoils with Laminar Separation Bubbles , 2006 .

[11] Dragos Viieru,et al. Membrane Wing-Based Micro Air Vehicles , 2005 .

[12] Weixing Yuan,et al. An Investigation of Low-Reynolds-number Flows past Airfoils , 2005 .

[13] Michael Ol,et al. Comparison of Laminar Separation Bubble Measurements on a Low Reynolds Number Airfoil in Three Facilities , 2005 .

[14] L. Mahadevan,et al. Fluid-flow-induced flutter of a flag. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[15] Sam Heathcote,et al. Flexible flapping airfoil propulsion at low Reynolds numbers , 2005 .

[16] Adrian L. R. Thomas,et al. Dragonfly flight: free-flight and tethered flow visualizations reveal a diverse array of unsteady lift-generating mechanisms, controlled primarily via angle of attack , 2004, Journal of Experimental Biology.

[17] Tang Jian,et al. Numerical and experimental study of flow structure of low-aspect-ratio wing , 2004 .

[18] Miguel R. Visbal,et al. Numerical simulation of the interaction of a transitional boundary layer with a 2-D flexible panel in the subsonic regime , 2004 .

[19] F. Lehmann. The mechanisms of lift enhancement in insect flight , 2004, Naturwissenschaften.

[20] Yongsheng Lian,et al. Membrane Wing Model for Micro Air Vehicles , 2003 .

[21] T. Daniel,et al. The Journal of Experimental Biology 206, 2979-2987 © 2003 The Company of Biologists Ltd , 2022 .

[22] Wei Shyy,et al. Membrane wing aerodynamics for micro air vehicles , 2003 .

[23] R. B. Srygley,et al. Unconventional lift-generating mechanisms in free-flying butterflies , 2002, Nature.

[24] R. Ramamurti,et al. A three-dimensional computational study of the aerodynamic mechanisms of insect flight. , 2002, The Journal of experimental biology.

[25] R. Zbikowski. On aerodynamic modelling of an insect–like flapping wing in hover for micro air vehicles , 2002, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[26] M. Dickinson,et al. Spanwise flow and the attachment of the leading-edge vortex on insect wings , 2001, Nature.

[27] Wei Shyy,et al. Flapping and flexible wings for biological and micro air vehicles , 1999 .

[28] K. Kawachi,et al. A Numerical Study of Insect Flight , 1998 .

[29] C. Ellington,et al. The three–dimensional leading–edge vortex of a ‘hovering’ model hawkmoth , 1997 .

[30] J. Wakeling,et al. Dragonfly flight. I. Gliding flight and steady-state aerodynamic forces. , 1997, The Journal of experimental biology.

[31] Adrian L. R. Thomas,et al. Leading-edge vortices in insect flight , 1996, Nature.

[32] W. J. Mccroskey,et al. An Experimental Study of Dynamic Stall on Advanced Airfoil Sections. Volume 1. Summary of the Experiment. , 1982 .

[33] Robert A. Ormiston,et al. Theoretical and experimental aerodynamics of the sailwing , 1971 .

[34] Guillermo Rein,et al. 44th AIAA Aerospace Sciences Meeting and Exhibit , 2006 .

[35] Yongsheng Lian,et al. Membrane and adaptively-shaped wings for micro air vehicles , 2003 .

[36] M. Dickinson,et al. UNSTEADY AERODYNAMIC PERFORMANCE OF MODEL WINGS AT LOW REYNOLDS NUMBERS , 1993 .

[37] O. D. Vries. On the Theory of the Horizontal-Axis Wind Turbine , 1983 .

[38] W. Mccroskey,et al. Dynamic Stall Experiments on Oscillating Airfoils , 1975 .

[39] HighWire Press. Philosophical Transactions of the Royal Society of London , 1781, The London Medical Journal.