Host turbine heat transfer overview
Abstract
Improved methods of predicting airfoil local metal temperatures require advances in the understanding of the physics and methods of analytically predicting the following four aerothermal loads: hot gas flow over airfoils, heat transfer rates on the gas-side of airfoils, cooling air flow inside airfoils, and heat transfer rates on the coolant-side of airfoils. A systematic building block research approach is being pursued to investigate these four areas of concern from both the experimental and analytical sides. Experimental approaches being pursued start with fundamental experiments using simple shapes and flat plates in wind tunnels, progress to more realistic cold and hot cascade tests using airfoils, continue to progress in large low-speed rigs and turbines and warm turbines, and finally, combine all the interactive effects in tests using real engines or real engine type turbine rigs. Analytical approaches being pursued also build from relatively simple steady two dimensional inviscid flow and boundary layer heat transfer codes to more advanced steady two and three dimensional viscous flow and heat transfer codes. These advanced codes provide more physics to model better the interactive effects and the true real-engine environment.
- Publication:
-
Turbine Engine Hot Section Technology
- Pub Date:
- October 1984
- Bibcode:
- 1984tehs.nasaQ....R
- Keywords:
-
- Aerothermodynamics;
- Airfoils;
- Flow Distribution;
- Heat Transfer;
- Prediction Analysis Techniques;
- Turbine Engines;
- Boundary Value Problems;
- Metals;
- Temperature Measurement;
- Transfer Functions;
- Two Dimensional Flow;
- Viscous Flow;
- Wind Tunnel Tests;
- Fluid Mechanics and Heat Transfer