Open AccessRole of Turbulent Prandtl Number on Heat Flux at Hypersonic Mach Numbers
Author(s) -
Xudong Xiao,
Jack R. Edwards,
Hassan Hassan,
Richard Gaffney
Publication year - 2005
Publication title -
43rd aiaa aerospace sciences meeting and exhibit
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2005-1098
Subject(s) - turbulent prandtl number , mach number , hypersonic speed , prandtl number , heat flux , physics , mechanics , magnetic prandtl number , turbulence , flux (metallurgy) , hypersonic flight , aerospace engineering , reynolds number , materials science , heat transfer , nusselt number , engineering , metallurgy
A new turbulence model suited for calculating the turbulent Prandtl number as part of the solution is presented. The model is based on a set of two equations: one governing the variance of the enthalpy and the other governing its dissipation rate. These equations were derived from the exact energy equation and thus take into consideration compressibility and dissipation terms. The model is used to study two cases involving shock wave/boundary layer interaction at Mach 9.22 and Mach 5.0. In general, heat transfer prediction showed great improvement over traditional turbulence models where the turbulent Prandtl number is assumed constant. It is concluded that using a model that calculates the turbulent Prandtl number as part of the solution is the key to bridging the gap between theory and experiment for flows dominated by shock wave/boundary layer interactions.
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