2005
DOI: 10.1103/physreve.72.031309
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Uniform shear flow in dissipative gases: Computer simulations of inelastic hard spheres and frictional elastic hard spheres

Abstract: In the preceding paper (cond-mat/0405252), we have conjectured that the main transport properties of a dilute gas of inelastic hard spheres (IHS) can be satisfactorily captured by an equivalent gas of elastic hard spheres (EHS), provided that the latter are under the action of an effective drag force and their collision rate is reduced by a factor (1 + α)/2 (where α is the constant coefficient of normal restitution). In this paper we test the above expectation in a paradigmatic nonequilibrium state, namely the… Show more

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Cited by 24 publications
(38 citation statements)
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“…We also notice the stability of the scheme with respect of the space grid. The short time behavior of this quantity is close to the one presented in [3] using DSMC simulations on the more realistic 2d x × 2d v geometry. Indeed, we can see that the thermalized walls heat the system at the boundary and the collisions cool it inside the domain.…”
Section: Interpretation Of the Resultssupporting
confidence: 56%
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“…We also notice the stability of the scheme with respect of the space grid. The short time behavior of this quantity is close to the one presented in [3] using DSMC simulations on the more realistic 2d x × 2d v geometry. Indeed, we can see that the thermalized walls heat the system at the boundary and the collisions cool it inside the domain.…”
Section: Interpretation Of the Resultssupporting
confidence: 56%
“…When time evolves, the temperature will eventually become uniform inside the domain with bigger and bigger gradients near the boundary. This large time behavior is different of the one described in [3] where the temperature reaches a space uniform steady state. This might be due to the use of a simplified geometry.…”
Section: Interpretation Of the Resultsmentioning
confidence: 62%
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