论文信息 - Numerical solution of transonic wing flows using an Euler/Navier-Stokes zonal approach

Numerical solution of transonic wing flows using an Euler/Navier-Stokes zonal approach

Transonic flow fields about wing geometries are computed using an Euler/Navier-Stokes approach in which the flow field is divided into several zones. The grid zones immediately adjacent to the wing surface are suitably clustered and solved with the Navier-Stokes equations. Grid zones removed from the wing are less finely clustered and are solved with the Euler equations. Wind tunnel wall effects are easily and accurately modeled with the new grid-zoning algorithm because the wind tunnel grid is constructed as an exact subset of the corresponding free-air grid. Solutions are obtained that are in good agreement with experiment, including cases with significant wind tunnel wall effects and shock-induced separation on the upper wing surface.

[1] P. Buning,et al. Convair 990 transonic flow-field simulation about the forward fuselage , 1983 .

[2] T. Pulliam,et al. A diagonal form of an implicit approximate-factorization algorithm , 1981 .

[3] Scott D. Thomas,et al. Numerical solution of transonic wing flowfields , 1982 .

[4] R. F. Warming,et al. An implicit finite-difference algorithm for hyperbolic systems in conservation-law form. [application to Eulerian gasdynamic equations , 1976 .

[5] David L. Keese,et al. Zero-Pressure Balloon Design , 1979 .