Volume viscosity and internal energy relaxation: Symmetrization and Chapman-Enskog expansion

We analyze a mathematical model for the relaxation of translational and internal temperatures in a nonequilibrium gas. The system of partial differential equations-derived from the kinetic theory of gases-is recast in its natural entropic symmetric form as well as in a convenient hyperbolicparabolic symmetric form. We investigate the Chapman-Enskog expansion in the fast relaxation limit and establish that the temperature difference becomes asymptotically proportional to the divergence of the velocity field. This asymptotic behavior yields the volume viscosity term of the limiting one-temperature fluid model.