Air–water interface dynamic and free surface features in hydraulic jumps
Air–water interface dynamic and free surface features in hydraulic jumps
Following previous experimental works (Mouaze et al., J. Fluids Engng. ASME 127(6) (2005) 1191–1193; Murzyn et al., Int. J. Multiphase Flow,
31(1) (2005) 141–154) on gas fraction characterisation in hydraulic jumps, the present paper aims to investigate free surface properties developing
in these flows. Indeed, air–water interface exhibits a wide range of frequencies that free surface probes are not always enough accurate to follow. As
a solution, two new free surface wire gauges (thin wires, ? = 0.05 mm, 1mm apart) have been built and calibrated. Accurate measurements of free
surface fluctuations have been obtained with frequency resolution up to 12 Hz. Two sets of experiments have been made depending on Froude (Fr) and
Weber (We) numbers. Experimental results showthat free surface mean and turbulent profiles exhibit discontinuities at the front of the toe characterized
by a sudden high level of turbulence downstream followed by a zone of dissipation. Furthermore, free surface length scales have been estimated from
correlation measurements. Similar features are found according to Fr andWe. Good agreement is shown with results deduced from a video analysis
technique (Mouaze et al., J. Fulids Engng. ASME 127(6) (2005) 1191–1193). Lastly, comparison is made with Brocchini and Peregrine (Brocchini
and Peregrine, J. Fluid Mech. 449 (2001a) 225–254; 449 (2001b) 255–290) depicting similar shapes for behaviour of vertical velocity fluctuations
(??) as a function of longitudinal free surface length scale
679-685
Murzyn, F.
69a5fe71-f091-4438-9e4c-85e0a8777fc1
Mouaze, D.
ab27ac93-186d-4a43-870c-c5086936aa40
Chaplin, J.R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f
September 2007
Murzyn, F.
69a5fe71-f091-4438-9e4c-85e0a8777fc1
Mouaze, D.
ab27ac93-186d-4a43-870c-c5086936aa40
Chaplin, J.R.
d5ed2ba9-df16-4a19-ab9d-32da7883309f
Murzyn, F., Mouaze, D. and Chaplin, J.R.
(2007)
Air–water interface dynamic and free surface features in hydraulic jumps.
Journal of Hydraulic Research, 45 (5), .
Abstract
Following previous experimental works (Mouaze et al., J. Fluids Engng. ASME 127(6) (2005) 1191–1193; Murzyn et al., Int. J. Multiphase Flow,
31(1) (2005) 141–154) on gas fraction characterisation in hydraulic jumps, the present paper aims to investigate free surface properties developing
in these flows. Indeed, air–water interface exhibits a wide range of frequencies that free surface probes are not always enough accurate to follow. As
a solution, two new free surface wire gauges (thin wires, ? = 0.05 mm, 1mm apart) have been built and calibrated. Accurate measurements of free
surface fluctuations have been obtained with frequency resolution up to 12 Hz. Two sets of experiments have been made depending on Froude (Fr) and
Weber (We) numbers. Experimental results showthat free surface mean and turbulent profiles exhibit discontinuities at the front of the toe characterized
by a sudden high level of turbulence downstream followed by a zone of dissipation. Furthermore, free surface length scales have been estimated from
correlation measurements. Similar features are found according to Fr andWe. Good agreement is shown with results deduced from a video analysis
technique (Mouaze et al., J. Fulids Engng. ASME 127(6) (2005) 1191–1193). Lastly, comparison is made with Brocchini and Peregrine (Brocchini
and Peregrine, J. Fluid Mech. 449 (2001a) 225–254; 449 (2001b) 255–290) depicting similar shapes for behaviour of vertical velocity fluctuations
(??) as a function of longitudinal free surface length scale
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Published date: September 2007
Identifiers
Local EPrints ID: 52978
URI: http://eprints.soton.ac.uk/id/eprint/52978
ISSN: 0022-1686
PURE UUID: ce34a1a0-66c3-40ae-b564-e27d0d6f2411
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Date deposited: 17 Jul 2008
Last modified: 22 Feb 2024 02:35
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Contributors
Author:
F. Murzyn
Author:
D. Mouaze
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