Add to ORKGTests of the Quiet, Clean Short-Haul Experimental Engine (QCSEE) were conducted to determine the effects of forward velocity and angle of attack on sonic and near-sonic inlet aerodynamic performance penalties and acoustic suppression characteristics. The tests demonstrate that translating centerbody and radial vane sonic inlets, and QCSEE high throat Mach number inlets, can be designed to operate effectively at forward speed and moderate angle of attack with good performance and noise suppression capability. The test equipment and procedures used in conducting the evaluation are described. Results of the tests are presented in tabular form
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
A low speed test program was conducted in a 9- by 15-foot V/STOL wind tunnel to investigate internal...
A computational study was performed to explore the aerodynamic performance of a streamline-traced, e...
A series of tests was conducted to determine the aerodynamic and acoustic performance of several son...
Low speed wind tunnel tests were conducted to determine the aeroacoustic performance of several mode...
A low speed wind tunnel was used to evaluate the inflight aeroacoustic performance of several single...
Results of a program for sonic inlet technology development are presented. This program includes con...
Two basic inlet concepts, a high throat Mach number (0.79) design and a low throat Mach number (0.60...
Experimental results were obtained for two types of high Mach number inlets, one with a translating ...
An experimental investigation was conducted to determine the effect of design changes on the aerodyn...
Experimental results were obtained for two types of high Mach number inlets, one with a translating ...
A static test program was conducted to investigate aerodynamic and acoustic performance of a sonic i...
Results of scale model tests of high-throat-Mach-number inlets designed to suppress inlet-emitted en...
Low-speed wind-tunnel tests were conducted to determine the effects of free-stream velocity and inci...
The results of an analytical study to investigate internal and external surface Mach numbers on seve...
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
A low speed test program was conducted in a 9- by 15-foot V/STOL wind tunnel to investigate internal...
A computational study was performed to explore the aerodynamic performance of a streamline-traced, e...
A series of tests was conducted to determine the aerodynamic and acoustic performance of several son...
Low speed wind tunnel tests were conducted to determine the aeroacoustic performance of several mode...
A low speed wind tunnel was used to evaluate the inflight aeroacoustic performance of several single...
Results of a program for sonic inlet technology development are presented. This program includes con...
Two basic inlet concepts, a high throat Mach number (0.79) design and a low throat Mach number (0.60...
Experimental results were obtained for two types of high Mach number inlets, one with a translating ...
An experimental investigation was conducted to determine the effect of design changes on the aerodyn...
Experimental results were obtained for two types of high Mach number inlets, one with a translating ...
A static test program was conducted to investigate aerodynamic and acoustic performance of a sonic i...
Results of scale model tests of high-throat-Mach-number inlets designed to suppress inlet-emitted en...
Low-speed wind-tunnel tests were conducted to determine the effects of free-stream velocity and inci...
The results of an analytical study to investigate internal and external surface Mach numbers on seve...
An anechoic wind tunnel experiment was conducted to determine the effects of simulated flight on the...
A low speed test program was conducted in a 9- by 15-foot V/STOL wind tunnel to investigate internal...
A computational study was performed to explore the aerodynamic performance of a streamline-traced, e...