Time-resolved optical flow of supersonic bevelled nozzles
Time-resolved optical flow of supersonic bevelled nozzles
Time-resolved Schlieren photography-based image velocimetry using optical flow techniques (SIVOF) was applied to supersonic jet flows issued from a 30° bevelled nozzle. A modified Z-type Schlieren system and a high-speed camera was used to obtain the Schlieren images, before they were post-processed using an in-house optical flow code. Convective velocities are recovered at significantly high resolutions, where the corresponding vorticity maps are observed to offer reasonably accurate identification and velocimetry of supersonic jet shear layer structures. Results are subsequently compared to and showcased against particle image velocimetry (PIV) measurements of the same supersonic bevelled jet. Behaviour of the vortical structures, shear layer growth rate, shock wave location and potential core length obtained from SIVOF agrees well with historical findings and previous studies conducted with the same nozzle design and nozzle pressure ratio (NPR) value. Lastly, the present study also highlights both the potentials and limitations of SIVOF in supersonic flow studies.
337-344
Lim, Desmond
82a7e7e8-2ade-44f8-a342-a99c2b9339c4
New, T.H.
f35405df-ad65-4b96-9d6b-06afebdd43a8
Cui, Y D
eed2f6b6-0ac8-4e15-bd8e-1064a93713f4
Shi, Shengxian
527f8339-bfb5-44bd-bb28-aa3421282676
22 March 2019
Lim, Desmond
82a7e7e8-2ade-44f8-a342-a99c2b9339c4
New, T.H.
f35405df-ad65-4b96-9d6b-06afebdd43a8
Cui, Y D
eed2f6b6-0ac8-4e15-bd8e-1064a93713f4
Shi, Shengxian
527f8339-bfb5-44bd-bb28-aa3421282676
Lim, Desmond, New, T.H., Cui, Y D and Shi, Shengxian
(2019)
Time-resolved optical flow of supersonic bevelled nozzles.
In,
31st International Symposium on Shock Waves 1: Fundamentals.
31st International Symposium on Shock Waves (09/07/17 - 14/07/17)
Springer Cham, .
(doi:10.1007/978-3-319-91020-8_38).
Record type:
Book Section
Abstract
Time-resolved Schlieren photography-based image velocimetry using optical flow techniques (SIVOF) was applied to supersonic jet flows issued from a 30° bevelled nozzle. A modified Z-type Schlieren system and a high-speed camera was used to obtain the Schlieren images, before they were post-processed using an in-house optical flow code. Convective velocities are recovered at significantly high resolutions, where the corresponding vorticity maps are observed to offer reasonably accurate identification and velocimetry of supersonic jet shear layer structures. Results are subsequently compared to and showcased against particle image velocimetry (PIV) measurements of the same supersonic bevelled jet. Behaviour of the vortical structures, shear layer growth rate, shock wave location and potential core length obtained from SIVOF agrees well with historical findings and previous studies conducted with the same nozzle design and nozzle pressure ratio (NPR) value. Lastly, the present study also highlights both the potentials and limitations of SIVOF in supersonic flow studies.
This record has no associated files available for download.
More information
Published date: 22 March 2019
Additional Information:
© 2019 Springer International Publishing AG, part of Springer Nature
Venue - Dates:
31st International Symposium on Shock Waves, , Nagoya, Japan, 2017-07-09 - 2017-07-14
Identifiers
Local EPrints ID: 469327
URI: http://eprints.soton.ac.uk/id/eprint/469327
PURE UUID: ecc7e3f0-bdf7-46e3-85ff-47f6022d6975
Catalogue record
Date deposited: 13 Sep 2022 16:43
Last modified: 16 Mar 2024 21:04
Export record
Altmetrics
Contributors
Author:
T.H. New
Author:
Y D Cui
Author:
Shengxian Shi
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
