Kulfan (1979) assumed that the angle of attack for initial vortex separation on a slender wing with rounded leading edges could be obtained by equating the leading-edge suction (LES) and nose drag coefficients. In the present study, this assumption is examined and is shown to predict reasonably well the initial angle of attack at which laminar separation occurs near the airfoil nose. However, the assumption is shown to be slightly less accurate for thick or cambered airfoils. Attainable LES estimated by Kulfan's method seemed to agree well with that obtained from an airfoil aerodynamics code and experimental data on a NACA 64A009 airfoil at M = 0.4 and Re = 0.86 x 10 to the 6th.
Effect of a round airfoil nose on leading-edge suction
Journal of Aircraft ; 24
1987-07-01
Sonstige
Keine Angabe
Englisch
Effect of a round airfoil nose on leading-edge suction
AIAA | 1987
|Section characteristics of NACA 0006 airfoil with area suction near leading edge
Engineering Index Backfile | 1954
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