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Response of a Panel Structure Forced by the Noise from a Nearly Sonic Jet (1996)

Maestrello, L. ; Fenno, C. C., Jr. ; Bayliss, A.

In: CASI

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Publication Date: 2019-06-28

Description: A model of a high subsonic jet with a nearby array of flexible, aircraft-type panels is studied numerically in two dimensions. The jet is excited by a limited duration, spatially localized starter pulse in the potential core. The long time evolution of unsteady disturbances in the jet, the responses of the panels, and the ensuing radiation are computed. The results show that the spectral response of both the jet and the panels is concentrated in a relatively narrow frequency band centered at a Strouhal number (based on jet exit velocity) of approximately 0.25 and associated harmonics. The loading on the panels generally increases with downstream distance. Panel radiation is weakest in upstream directions. Interior zones of silence, due to destructive interference of radiation from the panels, are observed.

Keywords: Fluid Mechanics and Heat Transfer

Type: NASA-CR-198282 , ICASE 96-11 , NAS 1.26:198282

Format: application/pdf

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Response of multi-panel assembly to noise from a jet in forward motion (1995)

Fenno, C. C., Jr. ; Bayliss, A. ; Maestrello, L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A model of the interaction of the noise from a spreading subsonic jet with a 4 panel assembly is studied numerically in two dimensions. The effect of forward motion of the jet is accounted for by considering a uniform flow field superimposed on a mean jet exit profile. The jet is initially excited by a pulse-like source inserted into the flow field. The pulse triggers instabilities associated with the inviscid instability of the jet shear layer. These instabilities generate sound which in turn serves to excite the panels. We compare the sound from the jet, the responses of the panels and the resulting acoustic radiation for the static jet and the jet in forward motion. The far field acoustic radiation, the panel response and sound radiated from the panels are all computed and compared to computations of a static jet. The results demonstrate that for a jet in forward motion there is a reduction in sound in downstream directions and an increase in sound in upstream directions in agreement with experiments. Furthermore, the panel response and radiation for a jet in forward motion exhibits a downstream attenuation as compared with the static case.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-198164 , NAS 1.26:198164 , ICASE-95-41

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Response of a Panel Structure Forced by the Noise from a Nearly Sonic Jet (2004)

Bayliss, A. ; Fenno, C. C., Jr. ; Maestrello, L.

In: CASI

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Publication Date: 2019-07-10

Description: A model of a high subsonic jet with a nearby array of exible, aircraft-type panels is studied numerically in two dimensions. The jet is excited by a limited duration, spatially localized starter pulse in the potential core. The long time evolution of unsteady disturbances in the jet, the responses of the panels and the ensuing radiation are computed. The results show that the spectral response of both the jet and the panels is concentrated in a relatively narrow frequency band centered at a Strouhal number (based on jet exit velocity) of approximately 0.25 and associated harmonics. The loading on the panels generally increases with downstream distance. Panel radiation is weakest in upstream directions. Interior zones of silence, due to destructive interference of radiation from the panels, are observed.

Keywords: Aircraft Design, Testing and Performance

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Interaction of Sound from Supersonic Jets with Nearby Structures (1997)

Fenno, C. C., Jr. ; Bayliss, A. ; Maestrello, L.

In: CASI

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Publication Date: 2019-07-13

Description: A model of sound generated in an ideally expanded supersonic (Mach 2) jet is solved numerically. Two configurations are considered: (1) a free jet and (2) an installed jet with a nearby array of flexible aircraft type panels. In the later case the panels vibrate in response to loading by sound from the jet and the full coupling between the panels and the jet is considered, accounting for panel response and radiation. The long time behavior of the jet is considered. Results for near field and far field disturbance, the far field pressure and the vibration of and radiation from the panels are presented. Panel response crucially depends on the location of the panels. Panels located upstream of the Mach cone are subject to a low level, nearly continuous spectral excitation and consequently exhibit a low level, relatively continuous spectral response. In contrast, panels located within the Mach cone are subject to a significant loading due to the intense Mach wave radiation of sound and exhibit a large, relatively peaked spectral response centered around the peak frequency of sound radiation. The panels radiate in a similar fashion to the sound in the jet, in particular exhibiting a relatively peaked spectral response at approximately the Mach angle from the bounding wall.

Keywords: Fluid Mechanics and Heat Transfer

Type: NASA-CR-201708 , NAS 1.26:201708 , ICASE-97-31 , AIAA Aerospace Sciences; Jan 01, 1997; Reno, NV; United States

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