The Primary basis for heat transfer analysis of turbine airfoils is experimental data obtained in linear cascades. These data were very valuable in identifying the major heat transfer and fluid flow features of a turbine airfoil. The first program objective is to obtain a detailed set of heat transfer coefficients along the midspan of a stator and a rotor in a rotating turbine stage. The data are to be compared to some standard analysis of blade boundary layer heat transfer which is in use today. A second program objective is to obtain a detailed set of heat transfer coefficients along the midspan of a stator located in the wake of an upstream turbine stage
The heat transfer to an uncooled transonic singlestage turbine has been measured in a short-duration...
Turbine blade endwall heat transfer measurements are given for a range of Reynolds and Mach numbers....
A combined experimental and computational program was conducted to examine the heat transfer distrib...
The primary basis for heat transfer analysis of turbine airfoils is experimental data obtained in li...
A combined experimental and analytical program was conducted to examine the effects of inlet turbule...
This is Volume 3 - Heat Transfer Data Tabulation (65 percent Axial Spacing) of a combined experiment...
A combined experimental and analytical program was conducted to examine the effects of inlet turbule...
Improvements in methods for predicting heat transfer rates on the hot gas side of turbine airfoils a...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
Results are shown for a three-dimensional Navier-Stokes analysis of both the flow and the surface he...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
The taxonomy of flow phenomena affecting turbine blade heat transfer has been widely researched and ...
The experimental part of the turbine heat transfer subproject consists of six large experiments, whi...
A combined computational and experimental study has been performed to investigate the detailed distr...
Experimental data on pressure distribution and heat transfer on a turbine airfoil were obtained over...
The heat transfer to an uncooled transonic singlestage turbine has been measured in a short-duration...
Turbine blade endwall heat transfer measurements are given for a range of Reynolds and Mach numbers....
A combined experimental and computational program was conducted to examine the heat transfer distrib...
The primary basis for heat transfer analysis of turbine airfoils is experimental data obtained in li...
A combined experimental and analytical program was conducted to examine the effects of inlet turbule...
This is Volume 3 - Heat Transfer Data Tabulation (65 percent Axial Spacing) of a combined experiment...
A combined experimental and analytical program was conducted to examine the effects of inlet turbule...
Improvements in methods for predicting heat transfer rates on the hot gas side of turbine airfoils a...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
Results are shown for a three-dimensional Navier-Stokes analysis of both the flow and the surface he...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
The taxonomy of flow phenomena affecting turbine blade heat transfer has been widely researched and ...
The experimental part of the turbine heat transfer subproject consists of six large experiments, whi...
A combined computational and experimental study has been performed to investigate the detailed distr...
Experimental data on pressure distribution and heat transfer on a turbine airfoil were obtained over...
The heat transfer to an uncooled transonic singlestage turbine has been measured in a short-duration...
Turbine blade endwall heat transfer measurements are given for a range of Reynolds and Mach numbers....
A combined experimental and computational program was conducted to examine the heat transfer distrib...