Add to ORKGHigher operating temperatures increase the efficiency of aircraft gas turbine engines, but can also degrade internal components. High-pressure turbine blades just downstream of the combustor are particularly susceptible to overheating. Computational fluid dynamics (CFD) computer programs can predict the flow around the blades so that potential hot spots can be identified and appropriate cooling schemes can be designed. Various blade and cooling schemes can be examined computationally before any hardware is built, thus saving time and effort. Often though, the accuracy of these programs has been found to be inadequate for predicting heat transfer. Code and model developers need highly detailed aerodynamic and heat transfer data to validate a...
Estimates of the heat transfer from the gas to stationary (vanes) or rotating blades poses a major u...
An experimental study was made to obtain quantitative information on heat transfer, flow, and pressu...
Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2006.An experimental and numerical investiga...
Turbine blade endwall heat transfer measurements are given for a range of Reynolds and Mach numbers....
This work is motivated by the need to accurately predict heat transfer in turbomachinery. For effici...
Increased attention to fuel economy and increased thrust requirements have increased the demand for ...
The aim of this research project is to make use of NASA Glenn on-site computational facilities in or...
A program sponsored by NASA for the investigation of the heat transfer in the transition region of t...
The results of aerodynamic and heat transfer experimental investigations performed in a high Reynold...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
Visual and quantitative information was obtained on heat transfer and flow in a branched-duct test s...
Abstract. Results of numerical simulation of three-dimensional turbulent flow and endwall heat trans...
Abstract. Results of numerical simulation of three-dimensional turbulent flow and endwall heat trans...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
Experimental temperatures are presented for an air-cooled turbine rotor blade tested in an engine. T...
Estimates of the heat transfer from the gas to stationary (vanes) or rotating blades poses a major u...
An experimental study was made to obtain quantitative information on heat transfer, flow, and pressu...
Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2006.An experimental and numerical investiga...
Turbine blade endwall heat transfer measurements are given for a range of Reynolds and Mach numbers....
This work is motivated by the need to accurately predict heat transfer in turbomachinery. For effici...
Increased attention to fuel economy and increased thrust requirements have increased the demand for ...
The aim of this research project is to make use of NASA Glenn on-site computational facilities in or...
A program sponsored by NASA for the investigation of the heat transfer in the transition region of t...
The results of aerodynamic and heat transfer experimental investigations performed in a high Reynold...
Comparisons are shown between predictions and experimental data for blade and endwall heat transfer....
Visual and quantitative information was obtained on heat transfer and flow in a branched-duct test s...
Abstract. Results of numerical simulation of three-dimensional turbulent flow and endwall heat trans...
Abstract. Results of numerical simulation of three-dimensional turbulent flow and endwall heat trans...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
Experimental temperatures are presented for an air-cooled turbine rotor blade tested in an engine. T...
Estimates of the heat transfer from the gas to stationary (vanes) or rotating blades poses a major u...
An experimental study was made to obtain quantitative information on heat transfer, flow, and pressu...
Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2006.An experimental and numerical investiga...