An inlet model designed for high angle of attack capability, coupled to a .508 m tip diameter turbofan simulator, was tested in the NASA-Lewis Research Center's 9-by 15-ft low speed wind tunnel. The test variables were: tunnel velocity, 0 to 75 m/s; inlet angle of attack, 0 to 120 deg; and fan face corrected airflow per unit area, 75 to 200 kg/s sqm. The inlet flow separation boundaries, the fan face total pressure recovery and distortion characteristics, and the fan blade vibratory stresses were determined. The recovery, distortion, and stress levels showed no abrupt changes at the onset of separation, but became gradually more unfavorable as the size and intensity of the separation increased as induced by increasingly severe operating con...
Wind tunnel tests of subsonic aerodynamic characteristics of large scale tip turbine cruise fan with...
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
Evaluation of range and distortion tolerance for high Mach number transonic fan stages - Vol.
A low speed wind tunnel test of a fixed lip inlet with engine, was performed. The inlet was close co...
Test data were obtained with a 1/4 scale cold flow model of the inlet at freestream velocities from ...
Zero length, slotted lip inlet performance and associated fan blade stresses were determined during ...
The effects of high-angle-of-attack flight on aircraft inlet aerodynamic characteristics were invest...
NASA Lewis is currently engaged in a research effort as a team member of the High Alpha Technology P...
At a typical STOL aircraft takeoff and landing velocity, wind tunnel aerodynamic and acoustic measur...
A 51-cm-diameter turbofan with a tilt-nacelle VTOL inlet was tested in the Lewis Research Center's 9...
Concepts are investigated for obtaining both low cowl drag and good inlet performance at high angles...
A wind tunnel investigation was conducted at free-stream Mach numbers from 0.55 to 2.0 on a 1/5.2-sc...
An experimental, aerodynamic investigation was made of two 1.83 m diameter fan systems which are bei...
Computational fluid dynamic (CFD) simulations were performed on an N+2 commercial supersonic transpo...
An experimental research program was conducted in the Lewis Research Center's 9x15-foot (2.74x4.57 m...
Wind tunnel tests of subsonic aerodynamic characteristics of large scale tip turbine cruise fan with...
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
Evaluation of range and distortion tolerance for high Mach number transonic fan stages - Vol.
A low speed wind tunnel test of a fixed lip inlet with engine, was performed. The inlet was close co...
Test data were obtained with a 1/4 scale cold flow model of the inlet at freestream velocities from ...
Zero length, slotted lip inlet performance and associated fan blade stresses were determined during ...
The effects of high-angle-of-attack flight on aircraft inlet aerodynamic characteristics were invest...
NASA Lewis is currently engaged in a research effort as a team member of the High Alpha Technology P...
At a typical STOL aircraft takeoff and landing velocity, wind tunnel aerodynamic and acoustic measur...
A 51-cm-diameter turbofan with a tilt-nacelle VTOL inlet was tested in the Lewis Research Center's 9...
Concepts are investigated for obtaining both low cowl drag and good inlet performance at high angles...
A wind tunnel investigation was conducted at free-stream Mach numbers from 0.55 to 2.0 on a 1/5.2-sc...
An experimental, aerodynamic investigation was made of two 1.83 m diameter fan systems which are bei...
Computational fluid dynamic (CFD) simulations were performed on an N+2 commercial supersonic transpo...
An experimental research program was conducted in the Lewis Research Center's 9x15-foot (2.74x4.57 m...
Wind tunnel tests of subsonic aerodynamic characteristics of large scale tip turbine cruise fan with...
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
Evaluation of range and distortion tolerance for high Mach number transonic fan stages - Vol.