2008
DOI: 10.1016/j.powtec.2007.08.002
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The classical granular temperature and slightly beyond

Abstract: One goal of this paper is to discuss the classical definition of granular temperature as an extension of its thermodynamic equivalent and a useful concept which provides an important characterization of fluidized granular matter. Following a review of some basic concepts and techniques (with emphasis on fundamental issues) we present new results for a system that can exhibit strong violations of equipartition, yet is amenable to description by classical granular hydrodynamics, namely a binary granular gas mixt… Show more

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Cited by 26 publications
(23 citation statements)
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“…A continuous mean velocity field v is computed using the definition by Serero et al [44] for polydisperse systems, and averaged over time:…”
Section: Mean Velocity and Fluctuationsmentioning
confidence: 99%
“…A continuous mean velocity field v is computed using the definition by Serero et al [44] for polydisperse systems, and averaged over time:…”
Section: Mean Velocity and Fluctuationsmentioning
confidence: 99%
“…To obtain continuous fields from the discrete particle data of the simulated granular system, we apply the coarse-graining method by Goldenberg & Goldhirsch (2006), Serero et al (2008) and Goldhirsch (2010) and some slight generalizations, detailed in the following section.…”
Section: Granular Dynamics Versus Ideal Fluid Flow Ii: Contour Of Thementioning
confidence: 99%
“…More involved hydrodynamic models incorporate higher-order terms in the gradients expansion (Goldhirsch 2003), and more accurate expressions for the kinetic coefficients which include extra terms for moderately dense gases and/or finite inelasticity corrections (Garzó & Dufty 1999;Lutsko 2005;Serero et al 2007). In principle, any kind of constitutive relations can be easily implemented.…”
Section: Granular Kinetic Theory and Hydrodynamicsmentioning
confidence: 99%