Three-Dimensional Navier-Stokes Simulations with Two-Equation Turbulence Models of Intersecting Shock-Waves/Turbulent Boundary Layer at Mach 8.3.

Author:: Bardina, J. E.
Published:: Jun. 23, 1994.
Physical Description:: 1 electronic document
Additional Creators:: Coakley, T. J.

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Summary:

An investigation of the numerical simulation with two-equation turbulence models of a three-dimensional hypersonic intersecting (SWTBL) shock-wave/turbulent boundary layer interaction flow is presented. The flows are solved with an efficient implicit upwind flux-difference split Reynolds-averaged Navier-Stokes code. Numerical results are compared with experimental data for a flow at Mach 8.28 and Reynolds number 5.3x10(exp 6) with crossing shock-waves and expansion fans generated by two lateral 15 fins located on top of a cold-wall plate. This experiment belongs to the hypersonic database for modeling validation. Simulations show the development of two primary counter-rotating cross-flow vortices and secondary turbulent structures under the main vortices and in each corner singularity inside the turbulent boundary layer. A significant loss of total pressure is produced by the complex interaction between the main vortices and the uplifted jet stream of the boundary layer. The overall agreement between computational and experimental data is generally good. The turbulence modeling corrections show improvements in the predictions of surface heat transfer distribution and an increase in the strength of the cross-flow vortices. Accurate predictions of the outflow flowfield is found to require accurate modeling of the laminar/turbulent boundary layers on the fin walls.

Other Subject(s):

Fluid Mechanics and Heat Transfer

Collection:

NASA Technical Reports Server (NTRS) Collection.

Note:

Document ID: 19960047570.
Accession ID: 96N33216.
AIAA Paper 94-1905.
NASA-CR-201979.
NAS 1.26:201979.
Applied Aerodynamics Conference; 20-23 Jun. 1994; Colorado Springs, CO; United States.

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