Open AccessAssessment of Turbulent CFD against STS-128 Hypersonic Flight Data
Author(s) -
William A. Wood,
William L. Kleb,
Andrew Hyatt
Publication year - 2010
Publication title -
9th aiaa/asme joint thermophysics and heat transfer conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2010-4889
Subject(s) - aerospace engineering , computational fluid dynamics , hypersonic speed , turbulence , aeronautics , hypersonic flight , environmental science , computer science , mechanics , physics , engineering
Turbulent CFD simulations are compared against surface temperature measurements of the space shuttle orbiter windward tiles at reentry flight conditions. Algebraic turbulence models are used within both the LAURA and DPLR CFD codes. The flight data are from temperature measurements obtained by seven thermocouples during the STS-128 mission (September 2009). The flight data indicate boundary layer transition onset over the Mach number range 13.5{15.5, depending upon the location on the vehicle. But the boundary layer flow appeared to be transitional down through Mach 12, based upon the flight data and CFD trends. At Mach 9 the simulations match the flight data on average within 20 F/11 C, where typical surface temperatures were approximately 1600 F/870 C.
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