Ground impingement of supersonic jets from nozzles with various exit geometries
Abstract
Aerodynamc and acoustic measurements of single and twin free and impinging jets were made for circular convergent and CD nozzles, rectangular CD nozzles, and D-shaped convergent nozzles. Measured shock cell lengths and screech tone frequencies compare well with existing theory. Noise due to jet impingement correlates on the basis of the nozzle-to-ground distance relative to the free jet shock structure, with the highest sound pressure levels generally due to jet impingement tones. All nozzle types experienced near-field OASPL of 160 dB at some nozzle-to-ground distances, including the CD nozzles operating at their design pressure. The effect of the second jet was to sometimes increase levels due to twin jet resonance and at other times reduce levels due either to suppression of the screech/impingement feedback process or more simply by acoustic interference of the noise produced by the two jets.
- Publication:
-
AIAA, Space Programs and Technologies Conference
- Pub Date:
- October 1990
- Bibcode:
- 1990aiaa.confR....N
- Keywords:
-
- Acoustic Measurement;
- Jet Impingement;
- Nozzle Geometry;
- Supersonic Jet Flow;
- Mach Number;
- Sound Pressure;
- Strouhal Number;
- Acoustics