Approximate model for analysis of equilibrium flows of chemically reacting gases

In this part, a theoretical model for high speed flow of chemically reacting gases out of thermal and chemical equilibrium is presented. The main features of the physical model are discussed together with details for a new form of the kinetic rate coefficients for non-equilibrium flows and presentat

In this part, a new hybrid numerical model for solving the two-dimensional axisymmetric Navier -Stokes equations for a multi-species reacting gas out of thermal and chemical equilibrium is constructed. The formulation is based on a mixed finite volume/finite element formulation for unstructured mesh

The application of multigrid methods is complicated if the set of governing equations contains strongly nonlinear source terms. This is the case for finite-rate chemistry as well as for turbulence conservation equations. In most cases strong nonlinearities within the chemical production rates preven

## Abstract The compressible Navier–Stokes equations for reacting gases are extremely complex. Simpler models have been considered, and for these completely non‐physical propagation speeds have been observed. These model problems are stiff, meaning that several different scales are present in the s