Turbine blade and vane heat flux sensor development, phase 1
Abstract
Heat flux sensors available for installation in the hot section airfoils of advanced aircraft gas turbine engines were developed. Two heat flux sensors were designed, fabricated, calibrated, and tested. Measurement techniques are compared in an atmospheric pressure combustor rig test. Sensors, embedded thermocouple and the Gordon gauge, were fabricated that met the geometric and fabricability requirements and could withstand the hot section environmental conditions. Calibration data indicate that these sensors yielded repeatable results and have the potential to meet the accuracy goal of measuring local heat flux to within 5%. Thermal cycle tests and thermal soak tests indicated that the sensors are capable of surviving extended periods of exposure to the environment conditions in the turbine. Problems in calibration of the sensors caused by severe non-one dimensional heat flow were encountered. Modifications to the calibration techniques are needed to minimize this problem and proof testing of the sensors in an engine is needed to verify the designs.
- Publication:
-
Final Report Pratt and Whitney Aircraft
- Pub Date:
- August 1984
- Bibcode:
- 1984pwa..rept.....A
- Keywords:
-
- Aircraft Design;
- Finite Difference Theory;
- Gas Turbine Engines;
- Heat Flux;
- Turbine Blades;
- Energy Conservation;
- Heat Resistant Alloys;
- Performance Tests;
- Thermal Cycling Tests;
- Thermal Protection;
- Thermocouples;
- Instrumentation and Photography