Experimental investigation into the turbulence flow field of in-flight jets
Experimental investigation into the turbulence flow field of in-flight jets
In this paper, the velocity field of jets under flight condition is investigated. The aim is to provide insight into the modelling of single-point statistics (e.g. mean velocity, turbulence intensity and other central moments) and two-point statistics (e.g. cross-correlation and coherence coefficients) of subsonic jets discharged into a moving medium. An experimental campaign was performed in a recently built facility comprising an open jet wind tunnel and a jet rig. Hot-wire anemometry was used to measure the velocity fluctuations in the jet turbulence field. A moderate subsonic jet (nozzle exit Mach number equals to 0.6) was discharged into an ambient medium of speeds ranging from 0 to 100 m/s. Experimental data shows that the stretching of the jet with increasing flight-stream velocity can be calculated from the mean velocity decay downstream of the end of the jet potential core. The stretching factor is used to predict the changes in the jet turbulence statistics with the flight-stream speed. Additionally, in the region of high turbulence kinetic energy, the two-point statistics can be recovered accurately from information of the single-point statistics and the local mean velocity. Empirical models for the shear-stress, cross-correlation, and coherence functions are presented and compared to static jet data. Finally, the changes due to forward flight seen in the jet turbulence agrees well with experimental data in the near field and far field of model-scale in-flight jets. This result suggests open jet wind tunnels are capable of reproducing the full-scale problem, that is, the noise from the exhausted jet of a moving engine/nozzle.
American Institute of Aeronautics and Astronautics
Proença, Anderson R.
575c4921-cf19-4301-bc7a-70a4432ea0df
Lawrence, Jack L.T.
59a5a96a-8824-4bae-a22a-739ad4ce9144
Self, Rod H.
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
Proença, Anderson R.
575c4921-cf19-4301-bc7a-70a4432ea0df
Lawrence, Jack L.T.
59a5a96a-8824-4bae-a22a-739ad4ce9144
Self, Rod H.
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
Proença, Anderson R., Lawrence, Jack L.T. and Self, Rod H.
(2019)
Experimental investigation into the turbulence flow field of in-flight jets.
In 25th AIAA/CEAS Aeroacoustics Conference, 2019.
American Institute of Aeronautics and Astronautics..
(doi:10.2514/6.2019-2545).
Record type:
Conference or Workshop Item
(Paper)
Abstract
In this paper, the velocity field of jets under flight condition is investigated. The aim is to provide insight into the modelling of single-point statistics (e.g. mean velocity, turbulence intensity and other central moments) and two-point statistics (e.g. cross-correlation and coherence coefficients) of subsonic jets discharged into a moving medium. An experimental campaign was performed in a recently built facility comprising an open jet wind tunnel and a jet rig. Hot-wire anemometry was used to measure the velocity fluctuations in the jet turbulence field. A moderate subsonic jet (nozzle exit Mach number equals to 0.6) was discharged into an ambient medium of speeds ranging from 0 to 100 m/s. Experimental data shows that the stretching of the jet with increasing flight-stream velocity can be calculated from the mean velocity decay downstream of the end of the jet potential core. The stretching factor is used to predict the changes in the jet turbulence statistics with the flight-stream speed. Additionally, in the region of high turbulence kinetic energy, the two-point statistics can be recovered accurately from information of the single-point statistics and the local mean velocity. Empirical models for the shear-stress, cross-correlation, and coherence functions are presented and compared to static jet data. Finally, the changes due to forward flight seen in the jet turbulence agrees well with experimental data in the near field and far field of model-scale in-flight jets. This result suggests open jet wind tunnels are capable of reproducing the full-scale problem, that is, the noise from the exhausted jet of a moving engine/nozzle.
This record has no associated files available for download.
More information
e-pub ahead of print date: 18 May 2019
Venue - Dates:
25th AIAA/CEAS Aeroacoustics Conference, 2019, , Delft, Netherlands, 2019-05-20 - 2019-05-23
Identifiers
Local EPrints ID: 439562
URI: http://eprints.soton.ac.uk/id/eprint/439562
PURE UUID: a5b2b092-c26b-46e6-b77a-4c720fd3cb1d
Catalogue record
Date deposited: 27 Apr 2020 16:30
Last modified: 17 Mar 2024 12:39
Export record
Altmetrics
Contributors
Author:
Anderson R. Proença
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics