A computational study focused on leading-edge radius effects and associated Reynolds number sensitivity for a High Speed Civil Transport configuration at transonic conditions was conducted as part of NASA's High Speed Research Program. The primary purposes were to assess the capabilities of computational fluid dynamics to predict Reynolds number effects for a range of leading-edge radius distributions on a second-generation supersonic transport configuration, and to evaluate the potential performance benefits of each at the transonic cruise condition. Five leading-edge radius distributions are described, and the potential performance benefit including the Reynolds number sensitivity for each is presented. Computational results for two leading-edge radius distributions are compared with experimental results acquired in the National Transonic Facility over a broad Reynolds number range.
Reynolds Number Effects on Leading Edge Radius Variations of a Supersonic Transport at Transonic Conditions
19th AIAA Applied Aerodynamics Conference ; 2001 ; Anaheim, CA, United States
2001-01-01
Preprint
Keine Angabe
Englisch
Reynolds Number Effects on a Supersonic Transport at Transonic Conditions (Invited)
British Library Conference Proceedings | 2001
|