Statistics – Computation
Scientific paper
Jan 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981aiaa.meetw....m&link_type=abstract
American Institute of Aeronautics and Astronautics, Aerospace Sciences Meeting, 19th, St. Louis, Mo., Jan. 12-15, 1981, 15 p.
Statistics
Computation
Ablation, Atmospheric Entry, Fluid Injection, Jupiter Atmosphere, Radiative Heat Transfer, Transition Flow, Chemical Equilibrium, Computational Fluid Dynamics, Eddy Viscosity, Flow Distribution, Laminar Flow, Shock Layers, Stagnation Point, Turbulent Flow, Viscous Flow
Scientific paper
This paper presents forebody flowfield solutions for Jupiter entry conditions where the ablation injection rate is coupled with the surface heating rate. The calculations are made with a time-dependent viscous-shock-layer analysis where the flow is assumed to be in chemical equilibrium. Both laminar and turbulent solutions are presented to describe the impact of turbulence on surface mass loss rates for flow conditions where the heating is due primarily to radiation. Results are also presented where the transition location to turbulent flow is arbitrarily varied. Results show that the radiative heating rate values based on several downstream transition locations adjust quickly to the corresponding values based on transition near the stagnation point.
Kumar Alok
Moss James N.
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