Excellent high-lift and cruise performance of a small, round, fixed circulation control wing (CCW) trailing edge fitted to a supercritical airfoil has been confirmed by subsonic wind tunnel investigations. This fixed-trailing-edge blown high-lift airfoil generates a negligible subsonic cruise drag penalty, but can generate a section lift coefficient near 7.0. This configuration is a significant improvement over the flight-proven A-6/CCW airfoil that had similar lift performance, but had a large trailing edge requiring mechanization for transition to cruise flight. Further, the large leading edge radius of the supercritical airfoil allows operating at high lift over a moderate angle-of-attack range. These results imply the feasibility of a mono-element airfoil with no moving components required for high lift; the transition from the cruise to the high-lift configuration is accomplished by blowing from a fixed slot. The favorable characteristics of both the cruise and high-lift airfoils are retained without compromise to either. (Author)
Low-Speed Aerodynamic Characteristics of a Small, Fixed-Trailing-Edge Circulation Control Wing Configuration Fitted to a Supercritical Airfoil
1981
54 pages
Report
No indication
English
Aircraft , Aerodynamics , Aerodynamic control surfaces , Supercritical airfoils , Boundary layer control , Circulation , Wings , Trailing edges , High lift , Augmentation , Bleed systems , Angle of attack , Coefficients , Plenum chambers , Level flight , Drag reduction , Short takeoff aircraft , Wind tunnel tests , Subsonic wind tunnels , CCW(Circulation Control Wings) , Round trailing edges , Blowing , Turbofan bypass engines , Fixed slots , Cruising flight , NTISDODXA
Aerodynamic Flow Control of an Airfoil with Small Trailing-Edge Strips
Online Contents | 2006
|