Add to ORKGThe specially organized session offered an international forum to disseminate the results from a year long test that was conducted in 1999 in NASA Glenn Research Center s 9- by 15-Foot Low-Speed Wind Tunnel on a 22-in. scale-model turbofan bypass stage, which was designed to be representative of current aircraft engine technology. The test was a cooperative effort involving Glenn, the NASA Langley Research Center, GE Aircraft Engines, and the Boeing Company. The principal objective of the project was to study the source mechanisms of noise in a modern high-bypass-ratio turbofan engine through detailed aerodynamic and acoustic measurements
Far-field noise sound power level (PWL) spectra and overall sound pressure level (OASPL) directiviti...
The Advanced Noise Control Fan (ne Active Noise Control Fan - ANCF) was utilized in the design, test...
The overall aero and acoutic design features of eight 6-foot-diameter, single stage fans tested in a...
A comprehensive aeroacoustic research program called the Source Diagnostic Test was recently conclud...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on an unde...
The aerodynamic performance of an isolated fan or rotor alone model was measured in the NASA Glenn R...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on identif...
Results of recent NASA research to reduce aircraft turbofan noise are described. As the bypass ratio...
Acoustical tests of full scale fans for jet engines are presented. The fans are described and some a...
With the advent of new, more stringent noise regulations in the next century, aircraft engine manufa...
A significant effort within the NASA Quiet Engine Program has been devoted to acoustical evaluation ...
This investigation is part of a test series that was extremely comprehensive and included aerodynami...
Far-field noise sound power level (PWL) spectra and overall sound pressure level (OASPL) directiviti...
In February 2017, aerodynamic and acoustic testing was completed on a scale-model high bypass ratio ...
A family of fans designed with low noise features was acoustically evaluated, and noise results are ...
Far-field noise sound power level (PWL) spectra and overall sound pressure level (OASPL) directiviti...
The Advanced Noise Control Fan (ne Active Noise Control Fan - ANCF) was utilized in the design, test...
The overall aero and acoutic design features of eight 6-foot-diameter, single stage fans tested in a...
A comprehensive aeroacoustic research program called the Source Diagnostic Test was recently conclud...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on an unde...
The aerodynamic performance of an isolated fan or rotor alone model was measured in the NASA Glenn R...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on identif...
Results of recent NASA research to reduce aircraft turbofan noise are described. As the bypass ratio...
Acoustical tests of full scale fans for jet engines are presented. The fans are described and some a...
With the advent of new, more stringent noise regulations in the next century, aircraft engine manufa...
A significant effort within the NASA Quiet Engine Program has been devoted to acoustical evaluation ...
This investigation is part of a test series that was extremely comprehensive and included aerodynami...
Far-field noise sound power level (PWL) spectra and overall sound pressure level (OASPL) directiviti...
In February 2017, aerodynamic and acoustic testing was completed on a scale-model high bypass ratio ...
A family of fans designed with low noise features was acoustically evaluated, and noise results are ...
Far-field noise sound power level (PWL) spectra and overall sound pressure level (OASPL) directiviti...
The Advanced Noise Control Fan (ne Active Noise Control Fan - ANCF) was utilized in the design, test...
The overall aero and acoutic design features of eight 6-foot-diameter, single stage fans tested in a...