Analysis for predicting adiabatic wall temperatures with single hole coolant injection into a low speed crossflow
Abstract
Assuming the local adiabatic wall temperature equals the local total temperature in a low speed coolant mixing layer, integral conservation equations with and without the boundary layer effects are formulated for the mixing layer downstream of a single coolant injection hole oriented at a 30 degree angle to the crossflow. These equations are solved numerically to determine the center-line local adiabatic wall temperature and the effective coolant coverage area. Comparison of the numerical results with an existing film cooling experiment indicates that the present analysis permits a simplified but reasonably accurate prediction of the centerline effectiveness and coolant coverage area downstream of a single hole crossflow streamwise injection at 30-deg inclination angle.
- Publication:
-
American Society of Mechanical Engineers
- Pub Date:
- March 1981
- Bibcode:
- 1981gatu.confS....W
- Keywords:
-
- Adiabatic Conditions;
- Cross Flow;
- Film Cooling;
- Fluid Injection;
- Prediction Analysis Techniques;
- Wall Temperature;
- Boundary Layer Flow;
- Conservation Equations;
- Coolants;
- Entrainment;
- Flat Plates;
- Flow Velocity;
- Inviscid Flow;
- Low Speed;
- Mixing Layers (Fluids);
- Separated Flow;
- Fluid Mechanics and Heat Transfer