论文信息 - Experiments on Swept-Wing Boundary Layers

Experiments on Swept-Wing Boundary Layers

Three-dimensional boundary-layer experiments are currently being conducted on a 45° swept wing in the Arizona State University Unsteady Wind Tunnel. Crossflow-dominated transition is produced via a model with contoured end liners to simulate infinite swept-wing flow. Fixed-wavelength stationary and travelling crossflow vortices are observed. The stationary vortex wavelengths vary with Reynolds number as predicted by linear-stability theory but with observed wavelengths which are about 25 percent smaller than theoretically predicted. The frequencies of the most amplified moving waves are in agreement with linear-stability theory; however, travelling waves at higher frequencies than predicted are also observed. These higher-frequency waves may be harmonics of the primary crossflow waves generated by a parametric resonance phenomena. Boundary-layer profiles measured at several spanwise locations show streamwise disturbance profiles characteristic of the crossflow instability. Near the transition location severe distortions of the laminar boundary-layer profiles are observed. Both mean and disturbance-profile measurements are compared to theoretical predictions.

William S. Saric | Marc C. Mousseux | Jon A. Hoos | J. Ray Dagenhart

[1] Tuncer Cebeci,et al. Numerical and Physical Aspects of Aerodynamic Flows , 1986 .

[2] J. Dagenhart,et al. Amplified crossflow disturbances in the laminar boundary layer on swept wings with suction , 1981 .

[3] M. R. Malik,et al. COSAL: A black-box compressible stability analysis code for transition prediction in three-dimensional boundary layers , 1982 .

[4] W. Saric,et al. Experiments in Swept-Wing Transition , 1990 .

[5] William S. Saric,et al. Stability of three-dimensional boundary layers , 1989 .

[6] William S. Saric,et al. The ASU unsteady wind tunnel and fundamental requirements for freestream turbulence measurements , 1988 .

[7] D. Arnal,et al. Three-dimensional transition studies at ONERA/CERT , 1987 .

[8] A. Srokowski,et al. Mass flow requirements for LFC wing design , 1977 .

[9] H. L. Morgan,et al. Mathematical model for two-dimensional multi-component airfoils in viscous flow. , 1972 .

[10] H. Bippes,et al. Experimental Study of Instability Modes in a Three-dimensional Boundary Layer. , 1987 .

[11] W. Saric,et al. Crossflow-vortex instability and transition on a 45 deg swept wing , 1989 .

[12] H. Reed. Wave interactions in swept-wing flows , 1987 .

[13] William S. Saric,et al. Experiments on the stability of crossflow vortices in swept-wing flows , 1985 .