Add to ORKGPlug nozzle film cooling data were obtained downstream of a slot located at 42 percent of the total plug length on a J-85 engine. Film cooling reduced the aft end wall temperature as much as 150 K, reduced total pressure loss in the upstream convection cooling passages by 50 percent, and reduced estimated compressor bleed flow requirement by 14 percent compared to an all convectively cooled nozzle. Shock waves along the plug surface strongly influenced temperature distributions on both convection and film cooled portions. The effect was most severe at nozzle pressure ratios below 10 where adverse pressure gradients were most severe
Cooling, coking, construction, and structural characteristics of jet fuel-cooled plug nozzle for aft...
A comparison was made of the heat transfer characteristics of three air cooled vanes. The vanes inco...
A gas turbine is a rotating engine that generates its power through the flow of combustion gases. Wi...
Plug nozzle film cooling data were obtained downstream of a slot located at 42 percent of the total ...
A convectively cooled plug nozzle, using 4 percent of the engine air as the coolant, was tested in 1...
Experimental film cooling data obtained during exploratory testing with an axisymmetric plug nozzle ...
Coolant flow effects on performance of conical plug nozzle at Mach numbers from 0 to 2.
A calculational procedure is presented to analyze the heat-transfer and fluid-flow characteristics o...
The experimental temperature characteristics of two spanwise-finned, impingement-cooled vanes, one w...
Film-cooling-air ejection from the pressure surface of a turbine vane was investigated, and experime...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
The recent advancement of cooling methodologies for critical components such as turbine blades, comb...
A specific designed film-cooled nozzle guide vane cascade was tested in a high speed facility to det...
Cooling, coking, construction, and structural characteristics of jet fuel-cooled plug nozzle for aft...
A comparison was made of the heat transfer characteristics of three air cooled vanes. The vanes inco...
A gas turbine is a rotating engine that generates its power through the flow of combustion gases. Wi...
Plug nozzle film cooling data were obtained downstream of a slot located at 42 percent of the total ...
A convectively cooled plug nozzle, using 4 percent of the engine air as the coolant, was tested in 1...
Experimental film cooling data obtained during exploratory testing with an axisymmetric plug nozzle ...
Coolant flow effects on performance of conical plug nozzle at Mach numbers from 0 to 2.
A calculational procedure is presented to analyze the heat-transfer and fluid-flow characteristics o...
The experimental temperature characteristics of two spanwise-finned, impingement-cooled vanes, one w...
Film-cooling-air ejection from the pressure surface of a turbine vane was investigated, and experime...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
Modern turbine engines require high turbine inlet temperatures and pressures to maximize thermal eff...
The recent advancement of cooling methodologies for critical components such as turbine blades, comb...
A specific designed film-cooled nozzle guide vane cascade was tested in a high speed facility to det...
Cooling, coking, construction, and structural characteristics of jet fuel-cooled plug nozzle for aft...
A comparison was made of the heat transfer characteristics of three air cooled vanes. The vanes inco...
A gas turbine is a rotating engine that generates its power through the flow of combustion gases. Wi...