Theory of two-layer hydraulic exchange flows with rotation
Theory of two-layer hydraulic exchange flows with rotation
Two-layer rotating exchange flows through channels of rectangular cross-section are modelled using semi-geostrophic, zero-potential-vorticity theory. For a given channel cross-section the full range of possible flow states is considered. The interface always has a uniform slope across the channel, but may separate from one or both of the sidewalls to attach to the upper or lower boundary. The flow may be subcritical, critical or supercritical. These different states are identified in a pseudo-Froude-number plane analogous to that developed by Armi (1986) for non-rotating flows. If the ratio of the channel width to the Rossby radius is constant along the length of the channel, then the solution may be traced along the entire channel using a single diagram. Several examples of maximal and submaximal exchanges are considered. This graphical method of solution is contrasted with the functional approach of Dalziel (1988, 1990).
The exchange flux is determined as a function of the channel geometry, the strength
of rotation and the difference in Bernoulli potential between the two layers.
373-395
Riemenschneider, U.
3b77a9e9-7c74-4e24-89e4-ba568c0a7a0f
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Killworth, P.D.
9fc0c4a0-e1fb-4073-8997-436b59c74bf2
2005
Riemenschneider, U.
3b77a9e9-7c74-4e24-89e4-ba568c0a7a0f
Smeed, D.A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Killworth, P.D.
9fc0c4a0-e1fb-4073-8997-436b59c74bf2
Riemenschneider, U., Smeed, D.A. and Killworth, P.D.
(2005)
Theory of two-layer hydraulic exchange flows with rotation.
Journal of Fluid Mechanics, 545, .
(doi:10.1017/S0022112005006890).
Abstract
Two-layer rotating exchange flows through channels of rectangular cross-section are modelled using semi-geostrophic, zero-potential-vorticity theory. For a given channel cross-section the full range of possible flow states is considered. The interface always has a uniform slope across the channel, but may separate from one or both of the sidewalls to attach to the upper or lower boundary. The flow may be subcritical, critical or supercritical. These different states are identified in a pseudo-Froude-number plane analogous to that developed by Armi (1986) for non-rotating flows. If the ratio of the channel width to the Rossby radius is constant along the length of the channel, then the solution may be traced along the entire channel using a single diagram. Several examples of maximal and submaximal exchanges are considered. This graphical method of solution is contrasted with the functional approach of Dalziel (1988, 1990).
The exchange flux is determined as a function of the channel geometry, the strength
of rotation and the difference in Bernoulli potential between the two layers.
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Published date: 2005
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Local EPrints ID: 19286
URI: http://eprints.soton.ac.uk/id/eprint/19286
ISSN: 0022-1120
PURE UUID: 961724a9-459c-40b6-a906-77ebdc935daf
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Date deposited: 30 Jan 2006
Last modified: 15 Mar 2024 06:13
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Author:
U. Riemenschneider
Author:
D.A. Smeed
Author:
P.D. Killworth
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