Add to ORKGA flight research program was conducted using a modified F-106B aircraft with an underwing-nacelle - engine installation to investigate installation effects on a wedge nozzle with retracted shrouds from Mach 0.70 to 1.10. These configurations simulated the subsonic flight geometries of a variable-geometry wedge nozzle design for Mach 2.70 operation. The nozzle was tested with a J85-GE-13 turbojet engine, and data were compared with that of 0.34-scale isolated wind tunnel model. Data are also compared with the flight results of a boattail plug nozzle and a cylindrical nacelle plug nozzle. A favorable installation effect occurred from Mach 0.82 to 0.96 with a nominal 4-percent corrected secondary weight-flow ratio. This favorable effect resul...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The Langley 16 foot transonic tunnel was used to investigate the afterbody/nozzle longitudinal aerod...
A wind-tunnel investigation was conducted to determine the effects of F101 DFE (derivative fighter e...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
A modified F-106B aircraft with underwing engine nacelles was flight tested to investigate airframe ...
Airframe installation effects on variable flap ejector nozzle of underwing engine nacell
Wind tunnel tests of airframe installation effects on F-106B scale model with simulated underwing en...
Two aft underwing nacelles housing afterburning J85 engines were added to an F106 to study exhaust n...
Four configurations of rounded shoulder boattail nozzles were tested on an underwing nacelle mounted...
Thrust measurement system and aerodynamic drag effects of underwing J-85 engine nacelles on F-106 ai...
A wind tunnel investigation has been conducted to determine the aeropropulsion performance (thrust m...
The aeropropulsive characteristics of an advanced twin engine fighter designed for supersonic cruise...
A contoured boattail nozzle typical of those used on a twin-engine fighter was tested on an underwin...
Flap and nacelle geometry effects on conical plug nozzle performance at subsonic and supersonic velo...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The Langley 16 foot transonic tunnel was used to investigate the afterbody/nozzle longitudinal aerod...
A wind-tunnel investigation was conducted to determine the effects of F101 DFE (derivative fighter e...
Flight test investigation of effects of variable geometry plug nozzles installed on f-106b aircraf
Several variations of a boattailed shroud for a 10 deg conical plug nozzle were tested using an F-10...
A modified F-106B aircraft with underwing engine nacelles was flight tested to investigate airframe ...
Airframe installation effects on variable flap ejector nozzle of underwing engine nacell
Wind tunnel tests of airframe installation effects on F-106B scale model with simulated underwing en...
Two aft underwing nacelles housing afterburning J85 engines were added to an F106 to study exhaust n...
Four configurations of rounded shoulder boattail nozzles were tested on an underwing nacelle mounted...
Thrust measurement system and aerodynamic drag effects of underwing J-85 engine nacelles on F-106 ai...
A wind tunnel investigation has been conducted to determine the aeropropulsion performance (thrust m...
The aeropropulsive characteristics of an advanced twin engine fighter designed for supersonic cruise...
A contoured boattail nozzle typical of those used on a twin-engine fighter was tested on an underwin...
Flap and nacelle geometry effects on conical plug nozzle performance at subsonic and supersonic velo...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The Langley 16 foot transonic tunnel was used to investigate the afterbody/nozzle longitudinal aerod...
A wind-tunnel investigation was conducted to determine the effects of F101 DFE (derivative fighter e...