The vortex flow over a 65 degree cropped delta wing with round leading edge, at Minfinity = 0.85 and Reinfinity = 2.38 x 106, has been analyzed for 10 degree, 20 degree, and 30 degree angles of attack. A vertex based finite volume code, JUMBO3D, with an algebraic turbulence model has been used to solve the Reynolds Averaged Navier-Stokes (RANS) equations. An H-O type grid generated by a hybrid elliptic-algebraic method has been used here, and a significant improvement of the results over an O-O type grid has been obtained. The results are compared with available experimental data. The complex physical phenomena due to interactions among the primary, secondary, and tertiary vortices, cross-flow and terminating shocks, and turbulent boundary layer, as visualized from the numerical solutions obtained are presented and discussed here.
Navier-Stokes analysis of vortex flow over a cropped delta wing
Acta Mechanica ; 131 , 1-2 ; 69-87
1998
19 Seiten, 22 Quellen
Article (Journal)
English
Diamond, cropped, delta, and double-delta wing vortex breakdown during dynamic pitching
Tema Archive | 1997
|Diamond, Cropped, Delta, and Double-Delta Wing Vortex Breakdown During Dynamic Pitching (TN)
Online Contents | 1997
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