Implementation of wall boundary conditions for transpiration in F3D thin-layer Navier-Stokes codeNumerical boundary conditions for mass injection/suction at the wall are incorporated in the thin-layer Navier-Stokes code, F3D. The accuracy of the boundary conditions and the code is assessed by a detailed comparison of the predictions of velocity distributions and skin-friction coefficients with exact similarity solutions for laminar flow over a flat plate with variable blowing/suction, and measurements for turbulent flow past a flat plate with uniform blowing. In laminar flow, F3D predictions for friction coefficient compare well with exact similarity solution with and without suction, but produces large errors at moderate-to-large values of blowing. A slight Mach number dependence of skin-friction coefficient due to blowing in turbulent flow is computed by F3D code. Predicted surface pressures for turbulent flow past an airfoil with mass injection are in qualitative agreement with measurements for a flat plate.
Document ID
19910069106
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Kandula, M. (Lockheed Engineering and Sciences Co. Houston, TX, United States)
Martin, F. W., Jr. (NASA Johnson Space Center Houston, TX, United States)