Mixing and mixing enhancement in supersonic reacting flowfields
Abstract
Propulsion systems planned for use late in this century and beyond will require appropriate physical models for describing supersonic combustion and numerical techniques for solving the model governing equations. A computer program to study these flows is reported which considers the multicomponent diffusion and convection of important chemical species, the finite-rate reaction of these species, and the resulting interaction of the field mechanics and the chemistry. The application of the program to a spatially developing and reacting mixing layer, which serves an an excellent physical model for the mixing and reaction processes that take place in a scramjet combustor, is reported. Several techniques to enhance the fuel-air mixing and growth of that layer and improve its overall combustion efficiency are considered.
- Publication:
-
AIAA Conference on High-Speed Flight Propulsion Systems
- Pub Date:
- 1991
- Bibcode:
- 1991aiaa.rept..383D
- Keywords:
-
- Combustion Chemistry;
- Combustion Efficiency;
- Mixing Layers (Fluids);
- Reacting Flow;
- Supersonic Flow;
- Chemical Reactions;
- Combustion Chambers;
- Flow Distribution;
- Fuel-Air Ratio;
- Fluid Mechanics and Heat Transfer