Analysis of twin supersonic plume resonance
Abstract
Recent experiments conducted at NASA Langley show that twin supersonic jets separating by a distance of approximately two nozzle diameters (center to center) exhibit resonant oscillations under a wide range of operating conditions. In this paper the mechanism responsible for the synchronized resonant oscillations is investigated. A vortex sheet jet model is used in the analysis. The model shows that kinematically two modes of twin jet resonance can occur. One mode involves flapping motion of both jets symmetric with respect to the mid-plane separating the two jets. The other mode involves antisymmetric flapping motion. The symmetric mode is consistent with experimental observations. The vortex sheet jet model is, however, unable to provide quantitative estimates of the shift in screech frequency (as compared to a single jet) due to the resonance phenomenon. The reason for this is discussed. Possible improvement of the model and directions for future work are indicated.
- Publication:
-
American Institute of Aeronautics and Astronautics Conference
- Pub Date:
- October 1987
- Bibcode:
- 1987aiaa.confQ....T
- Keywords:
-
- F-15 Aircraft;
- Oscillating Flow;
- Plumes;
- Resonance;
- Supersonic Jet Flow;
- Parallel Flow;
- Scale Models;
- Vortex Sheets;
- Acoustics