Add to ORKGA study was made of an advanced technology airplane using supercritical aerodynamics. Cruise Mach number was 0.98 at 40,000 feet altitude with a payload of 60,000 pounds and a range of 3000 nautical miles. Separate-flow turbofans were examined parametrically to determine the effect of sea-level-static design turbine-inlet-temperature and noise on takeoff gross weight (TOGW) assuming full-film turbine cooling. The optimum turbine inlet temperature was 2650 F. Two-stage-fan engines, with cruise fan pressure ratio of 2.25, achieved a noise goal of 103.5 EPNdB with todays noise technology while one-stage-fan engines, achieved a noise goal of 98 EPNdB. The take-off gross weight penalty to use the one-stage fan was 6.2 percent
Influence of high turbine inlet temperature and take off jet noise on methane fueled supersonic tran...
The effect of turbofan engine overall pressure ratio, fan pressure ratio, and ductburner temperature...
Turbine aerodynamic and cooling requirements for turbojet powered Mach 3 transport using methane fue
Parametric turbofan engine study for Mach 0.98 transport with low takeoff and approach noise levels ...
Cost estimations, noise constraints, and supercritical wing compatibility in optimization of turbofa...
A simplified mission analysis was performed to determine an optimum engine cycle for a 100-passenger...
Propulsion system characteristics for a long range, high subsonic (Mach 0.90 - 0.98), jet commercial...
A study was made of the effects of turbofan cycle parameters and the use of acoustic noise suppressi...
The analytical study presented examines the effects of varying turbine cooling assumptions on the pe...
Full-scale low-tip-speed fans, a full-scale high-tip-speed fan, scale model versions of fans, and tw...
Engine performance and mission studies were performed for turbofan engines with supersonic through-f...
A study of high bypass turbofan engines in heavily sound-suppressed nacelles based on the TF-34 engi...
The impact of advanced supersonic technologies on the performance and characteristics of a supersoni...
A study was conducted to determine the promising propulsion systems for advanced supersonic transpor...
The results of four years research on technology are synthesized in an advanced supersonic cruise ai...
Influence of high turbine inlet temperature and take off jet noise on methane fueled supersonic tran...
The effect of turbofan engine overall pressure ratio, fan pressure ratio, and ductburner temperature...
Turbine aerodynamic and cooling requirements for turbojet powered Mach 3 transport using methane fue
Parametric turbofan engine study for Mach 0.98 transport with low takeoff and approach noise levels ...
Cost estimations, noise constraints, and supercritical wing compatibility in optimization of turbofa...
A simplified mission analysis was performed to determine an optimum engine cycle for a 100-passenger...
Propulsion system characteristics for a long range, high subsonic (Mach 0.90 - 0.98), jet commercial...
A study was made of the effects of turbofan cycle parameters and the use of acoustic noise suppressi...
The analytical study presented examines the effects of varying turbine cooling assumptions on the pe...
Full-scale low-tip-speed fans, a full-scale high-tip-speed fan, scale model versions of fans, and tw...
Engine performance and mission studies were performed for turbofan engines with supersonic through-f...
A study of high bypass turbofan engines in heavily sound-suppressed nacelles based on the TF-34 engi...
The impact of advanced supersonic technologies on the performance and characteristics of a supersoni...
A study was conducted to determine the promising propulsion systems for advanced supersonic transpor...
The results of four years research on technology are synthesized in an advanced supersonic cruise ai...
Influence of high turbine inlet temperature and take off jet noise on methane fueled supersonic tran...
The effect of turbofan engine overall pressure ratio, fan pressure ratio, and ductburner temperature...
Turbine aerodynamic and cooling requirements for turbojet powered Mach 3 transport using methane fue