Experimental investigation of reactive turbulent recirculating jet mixing in a dump combustor flowfield
Abstract
A ducted, subsonic, hydrogen-air turbulent jet mixing flowfield was experimentally investigated, both with and without combustion. The geometric configuration was representative of a sudden expansion or 'dump' combustor, with a central air jet surrounded by a low velocity hydrogen stream at an overall equivalence ratio of 0.12. The ratio of the duct to inner nozzle diameter was 2.5. Radial distributions of mean axial and radial velocity, axial and radial turbulent intensity, velocity cross-correlation, gas composition, static temperature and total pressure, as well as axial distributions of wall static pressure, were obtained for axial stations from zero to six duct diameters from the combustor entrance. The data indicate that mixing is slower in the chemically reactive flow field than in the nonreactive flow field, and that the presence of combustion has a significant effect on the size and location of the recirculation zone within the mixing duct.
- Publication:
-
AIAA, 16th Thermophysics Conference
- Pub Date:
- June 1981
- Bibcode:
- 1981thph.confU....S
- Keywords:
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- Computational Fluid Dynamics;
- Dump Combustors;
- Flow Distribution;
- Jet Mixing Flow;
- Radial Distribution;
- Subsonic Flow;
- Turbulent Mixing;
- Axial Flow;
- Ducted Flow;
- Flow Geometry;
- Hydrogen Oxygen Engines;
- Laser Applications;
- Radial Velocity;
- Wall Flow;
- Fluid Mechanics and Heat Transfer