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Free surface length scale estimation in hydraulic jumps

Free surface length scale estimation in hydraulic jumps
Free surface length scale estimation in hydraulic jumps
In this paper we aim to document free surface elevations and free surface length scales in hydraulic jumps with Froude numbers between 1.98 and 4.82. Although information on bubble size, frequency, and velocities in hydraulic jumps is available in the literature, there is not much data on the features of the free surface, or on mixing layer thickness. In the present case, measurements at the free surface have been realized with two "homemade" miniature resistive wire gauges made of two parallel 50 mu m diameter wires 1 mm apart. These instruments were calibrated dynamically over a range of frequencies up to 20 Hz. The present results extend the range of Froude numbers for which two-phase measurements in hydraulic jumps are available. In most respects, it confirms earlier results obtained with different experimental techniques. Length scales at the free surface are deduced front a cross-correlation analysis of wire gauge measurements, and are compared with similar data obtained from images of the surface.
0098-2202
1191-1193
Mouaze, D.
ab27ac93-186d-4a43-870c-c5086936aa40
Murzyn, F.
69a5fe71-f091-4438-9e4c-85e0a8777fc1
Chaplin, J. R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f
Mouaze, D.
ab27ac93-186d-4a43-870c-c5086936aa40
Murzyn, F.
69a5fe71-f091-4438-9e4c-85e0a8777fc1
Chaplin, J. R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f

Mouaze, D., Murzyn, F. and Chaplin, J. R. (2005) Free surface length scale estimation in hydraulic jumps. Journal of Fluids Engineering, 127 (6), 1191-1193. (doi:10.1115/1.2060736).

Record type: Article

Abstract

In this paper we aim to document free surface elevations and free surface length scales in hydraulic jumps with Froude numbers between 1.98 and 4.82. Although information on bubble size, frequency, and velocities in hydraulic jumps is available in the literature, there is not much data on the features of the free surface, or on mixing layer thickness. In the present case, measurements at the free surface have been realized with two "homemade" miniature resistive wire gauges made of two parallel 50 mu m diameter wires 1 mm apart. These instruments were calibrated dynamically over a range of frequencies up to 20 Hz. The present results extend the range of Froude numbers for which two-phase measurements in hydraulic jumps are available. In most respects, it confirms earlier results obtained with different experimental techniques. Length scales at the free surface are deduced front a cross-correlation analysis of wire gauge measurements, and are compared with similar data obtained from images of the surface.

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More information

Published date: November 2005

Identifiers

Local EPrints ID: 53560
URI: http://eprints.soton.ac.uk/id/eprint/53560
DOI: doi:10.1115/1.2060736
ISSN: 0098-2202
PURE UUID: 56e78b1a-afe2-4cd0-b479-81080205ef55
ORCID for J. R. Chaplin: ORCID iD orcid.org/0000-0003-2814-747X

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Date deposited: 22 Jul 2008
Last modified: 16 Mar 2024 03:13

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Contributors

Author: D. Mouaze
Author: F. Murzyn
Author: J. R. Chaplin ORCID iD

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