Add to ORKGAn experimental investigation was conducted to determine the off-design drag and pressure performance of three axisymmetric supersonic inlets in the transonic speed range. For typical engine airflows at Mach 0.8 the drag coefficient varied from 0.045 to 0.09; at Mach 1.2 the largest drag coefficient measured was 0.25. Below Mach 0.9 a lower drag resulted when all or at least part of the excess weight flow was spilled over the cowl rather than through the bypass doors; above Mach 1.1 the lowest drag was obtained by bypassing excess flow
The aerodynamic performance of a representative supersonic cruise inlet was investigated using a fan...
An investigation of the tolerances of two Mach 2.50 axisymmetric mixed-compression inlets to upstrea...
A computational design study was conducted to enhance the aerodynamic performance of streamline-trac...
An experimental investigation determined the drag and pressure performance of an axisymmetric supers...
An experimental investigation determined the drag and pressure performance of an axisymmetric supers...
A large scale, variable-geometry inlet system with a design Mach number of 3.0 was tested at Mach nu...
Design and performance testing of large scale mixed compression axisymmetric inlet at transonic and ...
Wind tunnel tests of mixed-compression axisymmetric inlet system to determine bleed mass flow ratio,...
A computational study was performed to explore the aerodynamic performance of a streamline-traced, e...
The experimental low-speed aerodynamic characteristics of an axisymmetric mixed-compression superson...
A mixed compression inlet designed for supersonic cruise has very demanding requirements for high to...
Two inlet performance tests and one inlet/airframe drag test were conducted in 1969 at the NASA-Ames...
Flight-testing of a channeled center-body axisymmetric supersonic inlet design concept was conducted...
A 15 percent scale lightweight fighter type inlet forebody was tested in the Ames 14 foot transonic ...
Design effects on performance of two dimensional mixed-compression supersonic inlets with low angle ...
The aerodynamic performance of a representative supersonic cruise inlet was investigated using a fan...
An investigation of the tolerances of two Mach 2.50 axisymmetric mixed-compression inlets to upstrea...
A computational design study was conducted to enhance the aerodynamic performance of streamline-trac...
An experimental investigation determined the drag and pressure performance of an axisymmetric supers...
An experimental investigation determined the drag and pressure performance of an axisymmetric supers...
A large scale, variable-geometry inlet system with a design Mach number of 3.0 was tested at Mach nu...
Design and performance testing of large scale mixed compression axisymmetric inlet at transonic and ...
Wind tunnel tests of mixed-compression axisymmetric inlet system to determine bleed mass flow ratio,...
A computational study was performed to explore the aerodynamic performance of a streamline-traced, e...
The experimental low-speed aerodynamic characteristics of an axisymmetric mixed-compression superson...
A mixed compression inlet designed for supersonic cruise has very demanding requirements for high to...
Two inlet performance tests and one inlet/airframe drag test were conducted in 1969 at the NASA-Ames...
Flight-testing of a channeled center-body axisymmetric supersonic inlet design concept was conducted...
A 15 percent scale lightweight fighter type inlet forebody was tested in the Ames 14 foot transonic ...
Design effects on performance of two dimensional mixed-compression supersonic inlets with low angle ...
The aerodynamic performance of a representative supersonic cruise inlet was investigated using a fan...
An investigation of the tolerances of two Mach 2.50 axisymmetric mixed-compression inlets to upstrea...
A computational design study was conducted to enhance the aerodynamic performance of streamline-trac...