Open AccessDownstream Effects on Orbiter Leeside Flow Separation for Hypersonic Flows
Author(s) -
Gregory M. Buck,
Maria Pulsonetti,
K. James Weilmuenster
Publication year - 2005
Publication title -
36th aiaa fluid dynamics conference and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2005-5138
Subject(s) - orbiter , hypersonic flow , separation (statistics) , hypersonic speed , aerospace engineering , downstream (manufacturing) , flow (mathematics) , environmental science , materials science , aeronautics , mechanics , physics , engineering , computer science , machine learning , operations management
†Discrepancies between experiment and computation for shuttle leeside flow separation, which came to light in the Columbia accident investigation, are resolved. Tests were run in the Langley Research Center 20-Inch Hypersonic CF 4 Tunnel with a baseline orbiter model and two extended trailing edge models. The extended trailing edges altered the wing leeside separation lines, moving the lines toward the fuselage, proving that wing trailing edge modeling does affect the orbiter leeside flow. Computations were then made with a wake grid. These calculations more closely matched baseline experiments. Thus, the present findings demonstrate that it is imperative to include the wake flow domain in CFD calculations in order to accurately predict leeside flow separation for hypersonic vehicles at high angles of attack.
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