Takes account of the greatly increased capacity in computer technology for solving complex reactive flow problems.
Inhaltsverzeichnis
1. An overview of numerical simulation; 2. The reactive flow modeling program; 3. Models and simulation; 4. Some general numerical considerations; 5. Ordinary differential equations: reaction mechanisms and other local phenomena; 6. Representations, resolution, and grids; 7. Diffusive transport processes; 8. Computational fluid dynamics: continuity equations; 9. Computational fluid dynamics: using more flow physics; 10. Boundaries, interfaces, and implicit algorithms; 11. Coupling models of reactive flow processes; 12. Turbulence and reactive flows; 13. Radiation transport and reactive flows.