Progress in predictive design capabilities for external heat transfer to turbine vanes was summarized. A two dimensional linear cascade (previously used to obtain vane surface heat transfer distributions on nonfilm cooled airfoils) was used to examine the effect of leading edge shower head film cooling on downstream heat transfer. The data were used to develop and evaluate analytical models. Modifications to the two dimensional boundary layer model are described. The results were used to formulate and test an effective viscosity model capable of predicting heat transfer phenomena downstream of the leading edge film cooling array on both the suction and pressure surfaces, with and without mass injection
Improvements in methods for predicting heat transfer rates on the hot gas side of turbine airfoils a...
Gas turbines are a major contributor to world power generation with applications ranging from electr...
An accurate estimation of gas turbine nozzle guide vane metal temperature locally on its surface is ...
The progress under contract NAS3-24619 toward the goal of establishing a relevant data base for use ...
ABSTRACT This paper presents the effects of downstream film cooling, with and without leading edge s...
The impact of film cooling on heat transfer is investigated for the high-pressure vane of a one-and-...
The impact of film cooling on heat transfer is investigated for the high-pressure vane of a 1-1/2 st...
Emphasis is placed on developing more accurate analytical models for predicting turbine airfoil exte...
A wide set of experimental data has been used to validate numerical simulations of leading edge film...
This paper investigates the vane airfoil and inner endwall heat transfer for a full-scale turbine st...
This paper investigates the vane airfoil and inner endwall heat transfer for a full-scale turbine st...
An experimental study was conducted in a simulated three vane linear cascade to determine the effect...
The turbine components of a gas turbine need extensive cooling to withstand the high heat loads gene...
The first part of this dissertation experimentally studies the effect of transonic flow velocity on ...
An existing three dimensional Navier-Stokes code, modified to include film cooling considerations, h...
Improvements in methods for predicting heat transfer rates on the hot gas side of turbine airfoils a...
Gas turbines are a major contributor to world power generation with applications ranging from electr...
An accurate estimation of gas turbine nozzle guide vane metal temperature locally on its surface is ...
The progress under contract NAS3-24619 toward the goal of establishing a relevant data base for use ...
ABSTRACT This paper presents the effects of downstream film cooling, with and without leading edge s...
The impact of film cooling on heat transfer is investigated for the high-pressure vane of a one-and-...
The impact of film cooling on heat transfer is investigated for the high-pressure vane of a 1-1/2 st...
Emphasis is placed on developing more accurate analytical models for predicting turbine airfoil exte...
A wide set of experimental data has been used to validate numerical simulations of leading edge film...
This paper investigates the vane airfoil and inner endwall heat transfer for a full-scale turbine st...
This paper investigates the vane airfoil and inner endwall heat transfer for a full-scale turbine st...
An experimental study was conducted in a simulated three vane linear cascade to determine the effect...
The turbine components of a gas turbine need extensive cooling to withstand the high heat loads gene...
The first part of this dissertation experimentally studies the effect of transonic flow velocity on ...
An existing three dimensional Navier-Stokes code, modified to include film cooling considerations, h...
Improvements in methods for predicting heat transfer rates on the hot gas side of turbine airfoils a...
Gas turbines are a major contributor to world power generation with applications ranging from electr...
An accurate estimation of gas turbine nozzle guide vane metal temperature locally on its surface is ...