Add to ORKGAn algorithm is presented for calculating both the quantity of compressor bleed flow required to cool the turbine and the decrease in turbine efficiency caused by the injection of cooling air into the gas stream. The algorithm, which is intended for an axial flow, air routine in a properly written thermodynamic cycle code. Ten different cooling configurations are available for each row of cooled airfoils in the turbine. Results from the algorithm are substantiated by comparison with flows predicted by major engine manufacturers for given bulk metal temperatures and given cooling configurations. A list of definitions for the terms in the subroutine is presented
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
Modern gas turbines require an active cooling system with fluid taken from the compres- sor to with...
Suggested formula are given for determining air-cooled turbine-performance characteristics, such as ...
Heat transfer correlations of data on flat plates are used to explore the parameters in the Coolit p...
Flow analysis to determine turbine efficiency as function of inlet temperature for two stage turbin
A computer code was developed to analyze any turbomachinery coolant flow path geometry that consist ...
The effects of turbine-blade cooling on engine performance were analytically investigated for a turb...
Computer program to generate turbine aerodynamic requirements, approximate external blade geometries...
Effects of air-cooling turbine rotor blades on performance of a turbojet engine were calculated for ...
Turbine inlet temperature is limited by metallurgical considerations and many modern engines make us...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
Higher operating temperatures increase the efficiency of aircraft gas turbine engines, but can also ...
The results of an analytical study to determine the effect of changes in the amount, velocity, injec...
The operational performance is decribed of a shaft-mounted system for measuring the air mass flow ra...
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
Modern gas turbines require an active cooling system with fluid taken from the compres- sor to with...
Suggested formula are given for determining air-cooled turbine-performance characteristics, such as ...
Heat transfer correlations of data on flat plates are used to explore the parameters in the Coolit p...
Flow analysis to determine turbine efficiency as function of inlet temperature for two stage turbin
A computer code was developed to analyze any turbomachinery coolant flow path geometry that consist ...
The effects of turbine-blade cooling on engine performance were analytically investigated for a turb...
Computer program to generate turbine aerodynamic requirements, approximate external blade geometries...
Effects of air-cooling turbine rotor blades on performance of a turbojet engine were calculated for ...
Turbine inlet temperature is limited by metallurgical considerations and many modern engines make us...
In current and advanced gas turbine engines, increased speeds, pressures and temperatures are used t...
Higher operating temperatures increase the efficiency of aircraft gas turbine engines, but can also ...
The results of an analytical study to determine the effect of changes in the amount, velocity, injec...
The operational performance is decribed of a shaft-mounted system for measuring the air mass flow ra...
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
The turbine blade cooling has been considered to be a unique solution to increase the efficiency of ...
Modern gas turbines require an active cooling system with fluid taken from the compres- sor to with...