Affiliation:
1. ASRC Aerospace NASA Kennedy Space Center, FL 32899, USA
Abstract
The radiation of sound from a perfectly expanded Mach 2.5 cold supersonic jet of 25.4 mm exit diameter flowing through a partially open rigid-walled duct with an upstream J-deflector has been experimentally studied. In the experiments, the nozzle is mounted vertically, with the nozzle exit plane at a height of 73 jet diameters above ground level. Relative to the nozzle exit plane (NEP), the location of the duct inlet is varied at 10, 5, and –1 jet diameters. Far-field sound pressure levels were obtained at 54 jet diameters above ground with the aid of acoustic sensors equally spaced around a circular arc of radius equal to 80 jet diameters from the jet axis. Data on the jet acoustic field for the partially open duct were obtained and compared with those with a free jet and with a closed duct. The results suggest that for the partially open duct the overall sound pressure level (OASPL) decreases as the distance between the NEP and the duct inlet plane decreases, while the opposite trend is observed for the closed duct. It is also concluded that the observed peak frequency in the partially open duct increases above the free jet value as the angle from the duct axis is increased, and as the duct inlet plane becomes closer to the NEP.
Reference23 articles.
1. “On the Scaling Laws and Similarity Spectra for Jet Noise in Subsonic and Supersonic Flow,”;Kandula;Int. J. Acoust. Vib.
2. “Near Field Acoustics of Clustered Rocket Engines,”;Kandula;J. Sound Vib.
3. “Fifty Years of Fluidic Injection for Jet Noise Reduction,”;Henderson;Int. J. Aeroacoust.
4. Norum, T. D. , “Reductions in Multi-Component Jet Noise by Water Injection,” AIAA Paper No. 98-2204, 1998.
5. “Turbulence and Noise Suppression of a High-Speed Jet by Water Injection,”;Krothapalli;J. Fluid Mech.
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