Vortex generating flow passage design for increased film-cooling effectiveness and surface coverage
Abstract
The fluid mechanics of the basic discrete hole film cooling process is described as an inclined jet in crossflow and a cusp shaped coolant flow channel contour that increases the efficiency of the film cooling process is hypothesized. The design concept requires the channel to generate a counter rotating vortex pair secondary flow within the jet stream by virture of flow passage geometry. The interaction of the vortex structures generated by both geometry and crossflow was examined in terms of film cooling effectiveness and surface coverage. Comparative data obtained with this vortex generating coolant passage showed up to factors of four increases in both effectiveness and surface coverage over that obtained with a standard round cross section flow passage. A streakline flow visualization technique was used to support the concept of the counter rotating vortex pair generating capability of the flow passage design.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- 1984
- Bibcode:
- 1984STIN...8422909P
- Keywords:
-
- Aircraft Engines;
- Cooling Systems;
- Engine Coolants;
- Film Cooling;
- Flow Characteristics;
- Fluid Mechanics;
- Vortices;
- Counter Rotation;
- Cross Flow;
- Efficiency;
- Flow Visualization;
- Jet Flow;
- Paths;
- Secondary Flow;
- Turbine Blades;
- Fluid Mechanics and Heat Transfer