Aircraft engines must meet current and future FAR regulations and noise 'footprint' criteria. A way of reducing noise is to use negatively scarfed inlets. The extended lower lip acts as an acoustic 'barrier.' We need to understand the aerodynamic implications of inlet scarfing at low and transonic speeds. The subsonic aerodynamic performance (incidence, side-slip, and ground effects) of a conventional (+6 degree scarf) inlet has been assessed. A range of negative scarf angles was applied to the geometry and the subsonic performance of the resulting inlets assessed. A staged, iterative design process was carried out on a -20 degree scarfed inlet from this series. This led to modified lip geometry that gave attached flow capability equivalent to the datum 'conventional' inlet. An additional advantage for negative scarf was the weakening of the ground vortex at 'zero forward speed.' This is important for 'large' intakes with high by-pass ratios, set closer to the ground. The transonic performance of the conventional (+6 degree scarf) and negatively scarfed inlet (-20 degree scarf) was assessed. A limited design study was carried out on the -20 degree inlet to understand the effects of lip shaping at high speed (Mach 0.8). An encouraging equivalence has been achieved between the datum and scarfed inlet and further detailed work (internal surfaces) leading to experiments has been recommended. Work is needed on scarf angle choice.
Application of Negative Scarf to Inlet Design for Acoustic Reduction, Aerodynamic Assessment at Subsonic and Transonic Speeds
2000
14 pages
Report
No indication
English
Aircraft , Aerodynamics , Fluid Mechanics , Noise Pollution & Control , Aircraft engines , Aircraft design , Inlets , Noise reduction , Airframes , Aerodynamic characteristics , Structural response , Sideslip , Transonic flight , Flow separation , Subsonic flight , Mach number , Performance(Engineering) , United kingdom , Symposia , Negatively scarfed inlets , Inlet design , Inlet scarfing , Inlet geometry , Scarf angle , Conventional inlets , Foreign reports