Add to ORKGThis report describes the work performed by General Electric Aircraft Engines (GEAE) and Allison Engine Company (AEC) on NASA Contract NAS3-27720 AoI 14.3. The objective of this contract was to generate quality jet noise acoustic data for separate-flow nozzle models and to design and verify new jet-noise-reduction concepts over a range of simulated engine cycles and flight conditions. Five baseline axisymmetric separate-flow nozzle models having bypass ratios of five and eight with internal and external plugs and 11 different mixing-enhancer model nozzles (including chevrons, vortex-generator doublets, and a tongue mixer) were designed and tested in model scale. Using available core and fan nozzle hardware in various combinations, 28 GEAE/A...
Modern military aircraft jet engines are designed with variable geometry nozzles to provide optimum ...
The exhaust nozzle is an integral part of a jet engine and critical to its overall system performanc...
Task Order 33 had four primary objectives as follows: (1) Identify and prioritize the airframe noise...
Typical installed separate-flow exhaust nozzle system. The jet noise from modern turbofan engines is...
The NASA Glenn Research Center recently completed an experimental study to reduce the jet noise from...
The research described in this report has been funded by NASA Glenn Research Center as part of the A...
NASA Glenn Research Center supported a three year effort to develop the technology for reducing jet ...
NASA's previous Advanced Subsonic Technology (AST) Noise Reduction Program delivered the initial tec...
The topics covered include the following: 20 dB jet noise suppression; ejector nozzle technology pro...
The Aircraft Noise Reduction (ANR) sub-project is focused on the generation, development, and testin...
This paper summarizes on-going experimental research associated with efforts to achieve aero-perform...
Acoustic and flow-field experiments were conducted on exhaust concepts for the next generation super...
GE and the USN continue to work together to find and develop practical techniques to reduce jet nois...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on an unde...
The static aerodynamic and acoustic characteristics of duct-burning turbofan (DBTF) exhaust nozzles ...
Modern military aircraft jet engines are designed with variable geometry nozzles to provide optimum ...
The exhaust nozzle is an integral part of a jet engine and critical to its overall system performanc...
Task Order 33 had four primary objectives as follows: (1) Identify and prioritize the airframe noise...
Typical installed separate-flow exhaust nozzle system. The jet noise from modern turbofan engines is...
The NASA Glenn Research Center recently completed an experimental study to reduce the jet noise from...
The research described in this report has been funded by NASA Glenn Research Center as part of the A...
NASA Glenn Research Center supported a three year effort to develop the technology for reducing jet ...
NASA's previous Advanced Subsonic Technology (AST) Noise Reduction Program delivered the initial tec...
The topics covered include the following: 20 dB jet noise suppression; ejector nozzle technology pro...
The Aircraft Noise Reduction (ANR) sub-project is focused on the generation, development, and testin...
This paper summarizes on-going experimental research associated with efforts to achieve aero-perform...
Acoustic and flow-field experiments were conducted on exhaust concepts for the next generation super...
GE and the USN continue to work together to find and develop practical techniques to reduce jet nois...
The design of effective new technologies to reduce aircraft propulsion noise is dependent on an unde...
The static aerodynamic and acoustic characteristics of duct-burning turbofan (DBTF) exhaust nozzles ...
Modern military aircraft jet engines are designed with variable geometry nozzles to provide optimum ...
The exhaust nozzle is an integral part of a jet engine and critical to its overall system performanc...
Task Order 33 had four primary objectives as follows: (1) Identify and prioritize the airframe noise...