The effects of turbine-blade cooling on engine performance were analytically investigated for a turbojet engine in which cooling air is bled from the engine compressor. The analysis was made for a constant turbine-inlet temperature and a range of altitudes to determine the minimum cooling requirements to permit substitution of nonstrategic materials in turbine blading. The results indicate that, for a constant inlet temperature, air cooling of the turbine blades increases the specific fuel consumption and decreases the thrust of the engine. The highest possible cooling effectiveness is desirable to minimize coolant weight flow and its effects on engine performance
In determining the experimental performance of an air-cooled turbine, the heat-transfer characterist...
The analytical study presented examines the effects of varying turbine cooling assumptions on the pe...
DVL experimental and analytical work on the cooling of turbine blades by using ram air as the workin...
Effects of air-cooling turbine rotor blades on performance of a turbojet engine were calculated for ...
The effects of turbine-blade cooling on engine performance were analytically investigated for a turb...
An air-cooled turbine blade with a capped leading edge was investigated in a modified commercial tur...
Cascade investigation of cooling characteristics of air-cooled turbine blade for use in turboprop en...
An experimental investigation was conducted to determine the cooling effectiveness of a wide variety...
Two air-cooled blades were tested to gas temperatures of 2568 F with coolant temperatures to 764 F. ...
An analytical evaluation of a new typ An analytical evaluation of a new type of air-cooled turbine-r...
In gas turbines, a way to improve the engine performance is by increasing the Turbine Inlet Temperat...
Suggested formula are given for determining air-cooled turbine-performance characteristics, such as ...
An analytical and experimental investigation was made with a J33-A-9 engine to determine the effecti...
Cold air study of high temperature gas turbine - blade feature effects on stator performanc
Experimental temperatures are presented for an air-cooled turbine rotor blade tested in an engine. T...
In determining the experimental performance of an air-cooled turbine, the heat-transfer characterist...
The analytical study presented examines the effects of varying turbine cooling assumptions on the pe...
DVL experimental and analytical work on the cooling of turbine blades by using ram air as the workin...
Effects of air-cooling turbine rotor blades on performance of a turbojet engine were calculated for ...
The effects of turbine-blade cooling on engine performance were analytically investigated for a turb...
An air-cooled turbine blade with a capped leading edge was investigated in a modified commercial tur...
Cascade investigation of cooling characteristics of air-cooled turbine blade for use in turboprop en...
An experimental investigation was conducted to determine the cooling effectiveness of a wide variety...
Two air-cooled blades were tested to gas temperatures of 2568 F with coolant temperatures to 764 F. ...
An analytical evaluation of a new typ An analytical evaluation of a new type of air-cooled turbine-r...
In gas turbines, a way to improve the engine performance is by increasing the Turbine Inlet Temperat...
Suggested formula are given for determining air-cooled turbine-performance characteristics, such as ...
An analytical and experimental investigation was made with a J33-A-9 engine to determine the effecti...
Cold air study of high temperature gas turbine - blade feature effects on stator performanc
Experimental temperatures are presented for an air-cooled turbine rotor blade tested in an engine. T...
In determining the experimental performance of an air-cooled turbine, the heat-transfer characterist...
The analytical study presented examines the effects of varying turbine cooling assumptions on the pe...
DVL experimental and analytical work on the cooling of turbine blades by using ram air as the workin...