Computational investigations into heat transfer over a double wedge in hypersonic flows
Date published
2019-07-12
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Supervisor/s
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Department
Type
Article
ISSN
1270-9638
Format
Citation
Exposito D, Rana ZA. (2019) Computational investigations into heat transfer over a double wedge in hypersonic flows. Aerospace Science and Technology, Volume 92, September 2019, pp. 839-846
Abstract
Recently developed OpenFOAM application hy2FOAM is employed to predict the aerodynamic heat transfer numerically and compared with the experimental data from the University of Illinois. Mach 7 nitrogen flow at 2.1 MJ/kg stagnation enthalpy, and Mach 7 nitrogen and air flows at 8 MJ/kg stagnation enthalpy over a double wedge geometry have been reproduced numerically assuming chemical and thermal non-equilibrium. Good agreement of mean heat transfer profiles has been observed, although none of the simulations achieved a steady-state. The reattachment heat transfer peak in the high enthalpy air case showed an improved agreement with the experimental data, which is due to the non-equilibrium in the flow field.
Description
Software Description
Software Language
Github
Keywords
Heat transfer, Hypersonic flow, Double wedge, CFD, Boundary layer interactions, High enthalpy flow
DOI
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Attribution-NonCommercial-NoDerivatives 4.0 International