Add to ORKGA convectively cooled plug nozzle, using 4 percent of the engine air as the coolant, was tested in 1967 K (3540 R) temperature exhaust gas. No significant differences in cooling characteristics existed between flight and static results. At flight speeds above Mach 1.1, nozzle performance was improved by extending the outer shroud. Increasing engine power improved nozzle efficiency considerably more at Mach 1.2 than at 0.9. The effect of nozzle pressure ratio and secondary weight flow on nozzle performance are also presented
Experimental film cooling data obtained during exploratory testing with an axisymmetric plug nozzle ...
Preliminary investigation was made of conical cooling air ejector at primary pressure ratios from 1 ...
Effects of shroud geometry on performance of collapsible plug nozzle at Mach numbers from 0 to 2.
Experimental data were obtained with a 21.59 cm (8.5 in.) diameter cold-flow model in a static altit...
Coolant flow effects on performance of conical plug nozzle at Mach numbers from 0 to 2.
Cooling, coking, construction, and structural characteristics of jet fuel-cooled plug nozzle for aft...
Plug nozzle film cooling data were obtained downstream of a slot located at 42 percent of the total ...
Static tests of nozzle efficiency and pumping characteristics of conical turbojet plug nozzle with t...
An investigation was conducted in the 8- by 6-foot supersonic wind tunnel on the external and intern...
Cold flow tests of aerodynamic characteristics of plug nozzle configuration for turbojet engines ope...
Several methods of pumping air to an annular cooling passage surrounding a typical axial-flow turboj...
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
Performance characteristics of truncated, conical plug nozzle with cylindrical outer shrou
A calculational procedure is presented to analyze the heat-transfer and fluid-flow characteristics o...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Experimental film cooling data obtained during exploratory testing with an axisymmetric plug nozzle ...
Preliminary investigation was made of conical cooling air ejector at primary pressure ratios from 1 ...
Effects of shroud geometry on performance of collapsible plug nozzle at Mach numbers from 0 to 2.
Experimental data were obtained with a 21.59 cm (8.5 in.) diameter cold-flow model in a static altit...
Coolant flow effects on performance of conical plug nozzle at Mach numbers from 0 to 2.
Cooling, coking, construction, and structural characteristics of jet fuel-cooled plug nozzle for aft...
Plug nozzle film cooling data were obtained downstream of a slot located at 42 percent of the total ...
Static tests of nozzle efficiency and pumping characteristics of conical turbojet plug nozzle with t...
An investigation was conducted in the 8- by 6-foot supersonic wind tunnel on the external and intern...
Cold flow tests of aerodynamic characteristics of plug nozzle configuration for turbojet engines ope...
Several methods of pumping air to an annular cooling passage surrounding a typical axial-flow turboj...
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
Performance characteristics of truncated, conical plug nozzle with cylindrical outer shrou
A calculational procedure is presented to analyze the heat-transfer and fluid-flow characteristics o...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Experimental film cooling data obtained during exploratory testing with an axisymmetric plug nozzle ...
Preliminary investigation was made of conical cooling air ejector at primary pressure ratios from 1 ...
Effects of shroud geometry on performance of collapsible plug nozzle at Mach numbers from 0 to 2.