Transport Properties of Quadrupolar Gases

1 January 1967

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 46 (1) , 317-321
https://doi.org/10.1063/1.1840387

Abstract

Collision integrals for quadrupolar gases are computed on the assumption of fixed relative orientation per collision, with a 12–6−5 potential model, for a range of reduced temperatures and reduced quadrupole moments. The quadrupole effects on diffusion and viscosity are small, but not completely negligible if one wants accurate values for the parameters of the spherically symmetric component of the potential. These values are needed to obtain quadrupole moments from properties like second virial coefficients, which are more sensitive to quadrupole effects. Thermal‐diffusion factors are the most strongly affected of the transport coefficients; the presence of quadrupolar intermolecular forces can wipe out the thermal‐diffusion inversion temperatures.

Keywords

This publication has 7 references indexed in Scilit:

Transport Properties of Gaseous ${He}^{3}$ and ${He}^{4}$
Physical Review B, 1965
Automatic Calculation of the Transport Collision Integrals with Tables for the Morse Potential
The Journal of Chemical Physics, 1964
Thermal Diffusion in Mixtures Containing Carbon Dioxide
Physics of Fluids, 1964
Transport Properties of Polar Gases
The Journal of Chemical Physics, 1961
Thermal Diffusion in Some Mixtures of Inert Gases
Physics of Fluids, 1961
Molecular quadrupole moments
Quarterly Reviews, Chemical Society, 1959
Transport Properties of Gases Obeying a Modified Buckingham (Exp-Six) Potential
The Journal of Chemical Physics, 1954