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      Modelling high-Mach-number rarefied crossflows past a flat plate using the maximum-entropy moment method

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          Abstract

          The 10 and 14-moment maximum-entropy methods are applied to the study of high-Mach-number non-reacting crossflows past a flat plate at large degrees of rarefaction. The moment solutions are compared to particle-based kinetic solutions, showing a varying degree of accuracy. At a Knudsen number of 0.1, the 10-moment method is able to reproduce the shock layer, while it fails to predict the low-density wake region, due to the lack of a heat flux. Conversely, the 14-moment method results in accurate predictions of both regions. At a Knudsen number of 1, the 10-moment method produces unphysical results in both the shock layer and in the wake. The 14-moment method also shows a reduced accuracy, but manages to predict a reasonable shock region, free of unphysical sub-shocks, and in qualitative agreement with the kinetic solution. Accuracy is partially lost in the wake, where the 14-moment method predicts a thin unphysical high-density layer, concentrated on the centreline. An analysis of the velocity distribution functions (VDF) indicates strongly non-Maxwellian shapes, and the presence of distinct particle populations, in the wake, crossing each other at the centreline. The particle-based and the 14-moment method VDFs are in qualitative agreement.

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          Author and article information

          Journal
          01 August 2023
          Article
          10.1063/5.0159432
          2308.00551
          f1c01b09-7a67-463a-bc37-53253af36430

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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          Custom metadata
          physics.flu-dyn math-ph math.MP

          Mathematical physics,Mathematical & Computational physics,Thermal physics & Statistical mechanics

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