Rarefied hypersonic flow simulations using the Navier-Stokes equations with non-equilibrium boundary conditions
Greenshields, Christopher and Reese, Jason (2012) Rarefied hypersonic flow simulations using the Navier-Stokes equations with non-equilibrium boundary conditions. Progress in Aerospace Sciences, 52 (1). pp. 80-87. ISSN 0376-0421 (https://doi.org/10.1016/j.paerosci.2011.08.001)
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Abstract
This paper investigates the use of Navier-Stokes-Fourier equations with non-equilibrium boundary conditions (BCs) for simulation of rarefied hypersonic flows. It revisits a largely forgotten derivation of velocity slip and temperature jump by Patterson, based on Grad’s moment method. Mach 10 flow around a cylinder and Mach 12.7 flow over a flat plate are simulated using both computational fluid dynamics using the temperature jump BCs of Patterson and Smoluchowski and the direct simulation Monte-Carlo (DMSC) method. These flow exhibit such strongly non-equilibrium behaviour that, following Patterson’s analysis, they are strictly beyond the range of applicability of the BCs. Nevertheless, the results using Patterson’s temperature jump BC compare quite well with the DSMC and are consistently better than those using the standard Smoluchowski temperature jump BC. One explanation for this better performance is that an assumption made by Patterson, based on the flow being only slightly non-equilibrium, introduces an additional constraint to the resulting BC model in the case of highly non-equilibrium flows.
ORCID iDs
Greenshields, Christopher and Reese, Jason ORCID: https://orcid.org/0000-0001-5188-1627;-
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Item type: Article ID code: 40383 Dates: DateEventJuly 2012PublishedSubjects: Technology > Mechanical engineering and machinery
Technology > Motor vehicles. Aeronautics. AstronauticsDepartment: Faculty of Engineering > Mechanical and Aerospace Engineering
Technology and Innovation Centre > Advanced Engineering and ManufacturingDepositing user: Pure Administrator Date deposited: 09 Jul 2012 13:43 Last modified: 20 Dec 2024 01:18 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/40383