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TVT, 2017 Volume 55, Issue 2, Pages 216–222 (Mi tvt8726)

Thermophysical Properties of Materials

Calculation of the transport properties of dilute gas mixtures on the basis model potentials. Mercury–argon system

V. N. Popov, L. R. Fokin

Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow

Abstract: Interatomic potentials $V(\rm Hg$$\rm Hg)$, $V(\rm Ar$$\rm Ar)$, and $V(\rm Hg$$\rm Ar)$ of atoms in their ground electronic state are analyzed for the technically important mercury–argon dilute gas mixture. The collision integrals are calculated for these potentials, and the transport properties of mercury, argon, and their mixture, such as, viscosity, heat conductivity, and self-diffusion and mutual diffusion coefficients of compounds, are determined using the molecular-kinetic theory relationships. Detailed tables of properties on five isotherms within a range of $300$$2000$ K and mixture concentrations of $0.001$$0.999$ are given. Tables of the properties also contain thermal diffusion factors and Prandtl $(\rm Pr)$ and Schmidt $(\rm Sc)$ numbers. Some specific features in the behavior of properties depending on the composition are considered.

UDC: 546.212 + 533.16

Received: 20.04.2015
Accepted: 13.10.2015

DOI: 10.7868/S0040364417020132


 English version:
High Temperature, 2017, 55:2, 209–215

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