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      The aerodynamics of revolving wings I. Model hawkmoth wings.

      The Journal of Experimental Biology
      Animals, Biomechanical Phenomena, Flight, Animal, physiology, Mathematics, Models, Biological, Moths, anatomy & histology, Movement, Wing

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          Abstract

          Recent work on flapping hawkmoth models has demonstrated the importance of a spiral 'leading-edge vortex' created by dynamic stall, and maintained by some aspect of spanwise flow, for creating the lift required during flight. This study uses propeller models to investigate further the forces acting on model hawkmoth wings in 'propeller-like' rotation ('revolution'). Steadily revolving model hawkmoth wings produce high vertical ( approximately lift) and horizontal ( approximately profile drag) force coefficients because of the presence of a leading-edge vortex. Both horizontal and vertical forces, at relevant angles of attack, are dominated by the pressure difference between the upper and lower surfaces; separation at the leading edge prevents 'leading-edge suction'. This allows a simple geometric relationship between vertical and horizontal forces and the geometric angle of attack to be derived for thin, flat wings. Force coefficients are remarkably unaffected by considerable variations in leading-edge detail, twist and camber. Traditional accounts of the adaptive functions of twist and camber are based on conventional attached-flow aerodynamics and are not supported. Attempts to derive conventional profile drag and lift coefficients from 'steady' propeller coefficients are relatively successful for angles of incidence up to 50 degrees and, hence, for the angles normally applicable to insect flight.

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          Author and article information

          Journal
          12000800
          10.1242/jeb.205.11.1547

          Chemistry
          Animals,Biomechanical Phenomena,Flight, Animal,physiology,Mathematics,Models, Biological,Moths,anatomy & histology,Movement,Wing

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