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Turbulent Taylor-Couette vortex flow between large radius ratio concentric cylinders

Turbulent Taylor-Couette vortex flow between large radius ratio concentric cylinders
Turbulent Taylor-Couette vortex flow between large radius ratio concentric cylinders
Turbulent Taylor vortices between two concentric cylinders have been studied at a very high radius ratio of 0.985, equivalent to that found in relatively small underwater thruster units (typically with gaps of 2 mm). In order to study the flow at this radius ratio, a 1.42-m diameter experimental apparatus (with a rotating inner cylinder and a stationary outer cylinder) was constructed possessing a gap of 10 mm. Consequently, air bubbles could be visualised translating in water. A method was developed for identifying Taylor vortex properties from filtered digital images of the air bubbles and summing intensities to produce bubble density distributions. Whereas individual instantaneous images can be misleading, averaged bubble density distributions make it possible to identify vortex separation sizes and the positions of vortex outflow boundaries.
0960-1481
419-421
Batten, W.M.J.
8a6a68c7-b614-4f62-9d56-54eb38a45a94
Turnock, S.R.
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Bressloff, N.W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Abu-Sharkh, S.M.
97666072-939a-4569-a7ff-76788db2da34
Batten, W.M.J.
8a6a68c7-b614-4f62-9d56-54eb38a45a94
Turnock, S.R.
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Bressloff, N.W.
4f531e64-dbb3-41e3-a5d3-e6a5a7a77c92
Abu-Sharkh, S.M.
97666072-939a-4569-a7ff-76788db2da34

Batten, W.M.J., Turnock, S.R., Bressloff, N.W. and Abu-Sharkh, S.M. (2004) Turbulent Taylor-Couette vortex flow between large radius ratio concentric cylinders. Renewable Energy, 36 (3), 419-421. (doi:10.1007/s00348-003-0739-1).

Record type: Article

Abstract

Turbulent Taylor vortices between two concentric cylinders have been studied at a very high radius ratio of 0.985, equivalent to that found in relatively small underwater thruster units (typically with gaps of 2 mm). In order to study the flow at this radius ratio, a 1.42-m diameter experimental apparatus (with a rotating inner cylinder and a stationary outer cylinder) was constructed possessing a gap of 10 mm. Consequently, air bubbles could be visualised translating in water. A method was developed for identifying Taylor vortex properties from filtered digital images of the air bubbles and summing intensities to produce bubble density distributions. Whereas individual instantaneous images can be misleading, averaged bubble density distributions make it possible to identify vortex separation sizes and the positions of vortex outflow boundaries.

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Published date: March 2004
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Identifiers

Local EPrints ID: 53584
URI: http://eprints.soton.ac.uk/id/eprint/53584
DOI: doi:10.1007/s00348-003-0739-1
ISSN: 0960-1481
PURE UUID: 2e9bc1c2-eb15-4b0d-8f5e-c31a1b13e6b6
ORCID for S.R. Turnock: ORCID iD orcid.org/0000-0001-6288-0400

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Date deposited: 22 Jul 2008
Last modified: 16 Mar 2024 02:37

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Contributors

Author: W.M.J. Batten
Author: S.R. Turnock ORCID iD
Author: N.W. Bressloff
Author: S.M. Abu-Sharkh

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