Open AccessSimulation of Atmospheric-Entry Capsules in the Subsonic Regime
Author(s) -
Scott M. Murman,
Robert Childs,
Joseph A. Garcia
Publication year - 2015
Publication title -
53rd aiaa aerospace sciences meeting
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2015-1930
Subject(s) - aerodynamics , inviscid flow , aerospace engineering , mechanics , wake , curvature , computational fluid dynamics , large eddy simulation , physics , meteorology , computer science , turbulence , engineering , mathematics , geometry
The accuracy of Computational Fluid Dynamics predictions of subsonic capsule aerodynamics is examined by comparison against recent NASA wind-tunnel data at high-Reynolds-number flight conditions. Several aspects of numerical and physical modeling are considered, including inviscid numerical scheme, mesh adaptation, rough-wall modeling, rotation and curvature corrections for eddy-viscosity models, and Detached-Eddy Simulations of the unsteady wake. All of these are considered in isolation against relevant data where possible. The results indicate that an improved predictive capability is developed by considering physics-based approaches and validating the results against flight-relevant experimental data.
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