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Auteurs principaux: Busuioc, Sergiu, Sofonea, Victor
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2308.15407
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author Busuioc, Sergiu
Sofonea, Victor
author_facet Busuioc, Sergiu
Sofonea, Victor
contents Numerical solutions of the Enskog equation obtained employing a Finite-Difference Lattice Boltzmann (FDLB) and a Direct Simulation Monte Carlo (DSMC)-like particle method (PM) are systematically compared to determine the range of applicability of the simplified Enskog collision operator implemented in the Lattice Boltzmann framework. Three types of bounded flows of dense gases - namely the Fourier, the Couette, and the Poiseuille flows - are investigated for a wide range of input parameters. For low to moderate reduced density, the proposed FDLB model exhibits commendable accuracy for all bounded flows tested in this study, with substantially lower computational cost than the PM method.
format Preprint
id arxiv_https___arxiv_org_abs_2308_15407
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Bounded flows of dense gases
Busuioc, Sergiu
Sofonea, Victor
Fluid Dynamics
Computational Physics
Numerical solutions of the Enskog equation obtained employing a Finite-Difference Lattice Boltzmann (FDLB) and a Direct Simulation Monte Carlo (DSMC)-like particle method (PM) are systematically compared to determine the range of applicability of the simplified Enskog collision operator implemented in the Lattice Boltzmann framework. Three types of bounded flows of dense gases - namely the Fourier, the Couette, and the Poiseuille flows - are investigated for a wide range of input parameters. For low to moderate reduced density, the proposed FDLB model exhibits commendable accuracy for all bounded flows tested in this study, with substantially lower computational cost than the PM method.
title Bounded flows of dense gases
topic Fluid Dynamics
Computational Physics
url https://arxiv.org/abs/2308.15407