Effect of surface roughness on local film cooling effectiveness and heat transfer coefficients
Abstract
In high temperature gas turbine engines, the life cycle of the hot section is extremely dependent on accurate design prediction of component temperature distribution. Particular attention must be paid to the film cooling performance of the first stage turbine stator vanes where the highest heat loads are encountered. Recent investigations have determined during operation the smooth surface of high pressure turbine vanes become rough due to corrosion, oxidation and particulate impact. A transient experimental method has been developed to obtain both local heat transfer and cooling effectiveness information downstream of a row of film cooling holes on a rough flat plate. This investigation provides information on the effects of roughness on film cooling heat transfer for a Reynolds number and dimensionless boundary layer momentum thickness which match conditions applicable to the pressure side of the first stage turbine vane of the Pratt and Whitney F-100-PW229 engine. Data for film cooling on rough surfaces are extremely limited in the literature. However, comparison with the available data is made.
- Publication:
-
Ph.D. Thesis
- Pub Date:
- August 1994
- Bibcode:
- 1994PhDT........13B
- Keywords:
-
- Corrosion;
- Film Cooling;
- Gas Turbine Engines;
- Heat Transfer Coefficients;
- High Pressure;
- Life (Durability);
- Oxidation;
- Stators;
- Surface Roughness Effects;
- Temperature Distribution;
- Turbine Engines;
- Turbines;
- Vanes;
- Boundary Layers;
- Cooling;
- Dimensionless Numbers;
- Flat Plates;
- Heat Transfer;
- Hole Distribution (Mechanics);
- Holes (Mechanics);
- Reynolds Number;
- Surface Roughness;
- Fluid Mechanics and Heat Transfer