2023
DOI: 10.1007/s10404-023-02681-0
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Viscous and thermal velocity slip coefficients via the linearized Boltzmann equation with ab initio potential

Thanasis Basdanis,
Dimitris Valougeorgis,
Felix Sharipov

Abstract: The viscous and thermal velocity slip coefficients of various monatomic gases are computed via the linearized classical Boltzmann equation, with ab initio potential, subject to Maxwell and Cercignani–Lampis boundary conditions. Both classical and quantum interatomic interactions are considered. Comparisons with hard sphere and Lennard–Jones potentials, as well as the linearized Shakhov model are performed. The produced database is dense, covers the whole range of the accommodation coefficients and is of high a… Show more

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Cited by 3 publications
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“…The system of the two kinetic Equations ( 4) and (5) in conjunction with the moments (6) and the boundary conditions ( 7)-( 9) is solved by applying the Discrete Velocity Method (DVM). The deterministic DVM method is nowadays considered the widely accepted numerical technique by the research community for solving kinetic equations and describing heat, mass, and momentum transfer phenomena in the whole range of gas rarefaction (e.g., [52][53][54][55][56][57][58][59][60]). The literature survey is very extensive, and for this reason, only a brief description of the method is provided here, focusing on the numerical details concerning the present flow problem.…”
Section: Complete 4d Kinetic Solutionmentioning
confidence: 99%
“…The system of the two kinetic Equations ( 4) and (5) in conjunction with the moments (6) and the boundary conditions ( 7)-( 9) is solved by applying the Discrete Velocity Method (DVM). The deterministic DVM method is nowadays considered the widely accepted numerical technique by the research community for solving kinetic equations and describing heat, mass, and momentum transfer phenomena in the whole range of gas rarefaction (e.g., [52][53][54][55][56][57][58][59][60]). The literature survey is very extensive, and for this reason, only a brief description of the method is provided here, focusing on the numerical details concerning the present flow problem.…”
Section: Complete 4d Kinetic Solutionmentioning
confidence: 99%