A class of exact solution for NavierStokes equations for a compressible viscous gas
Abstract
Steady flows of a compressible viscous gas produced by a linear source are investigated analytically assuming constant diffusion coefficients. The problem is stated in the form of a system of ordinary differential equations which is then reduced to a system of four algebraic equations relating velocity, density, temperature, and selfsimilarity parameter. These equations make it possible to determine the above parameters as a function of the Reynolds number.
 Publication:

Akademiia Nauk SSSR Doklady
 Pub Date:
 1990
 Bibcode:
 1990DoSSR.313.1403A
 Keywords:

 Compressible Fluids;
 Diffusion Coefficient;
 Gas Viscosity;
 NavierStokes Equation;
 Steady Flow;
 Computational Fluid Dynamics;
 Flow Velocity;
 Gas Density;
 Gas Flow;
 Gas Temperature;
 Reynolds Number;
 Fluid Mechanics and Heat Transfer