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Vortex motion in shallow water with varying bottom topography and zero Froude number

Vortex motion in shallow water with varying bottom topography and zero Froude number
Vortex motion in shallow water with varying bottom topography and zero Froude number
The methods of formal matched asymptotics are used to investigate the motion of a vortex in shallow inviscid fluid of varying depth and zero Froude number in the limit as the vortex core radius tends to zero. To leading order the vortex is driven by local gradients in the logarithm of the depth along an isobath (or depth contour). A further term in the vortex velocity is calculated in which effects arising from the global bottom topography, other vortices and the vortex core structure appear. The evolution of the vortex core structure is then calculated. A point-vortex model is formulated which describes the motion of a number of small vortices in terms of the bottom topography, the inviscid flows around the vortices and their evolving core structure. A numerical method for solving this model is discussed and finally some numerical simulations of the motion of vortex pairs over a varying bottom topography are presented
0022-1120
351-374
Richardson, Giles
3fd8e08f-e615-42bb-a1ff-3346c5847b91
Richardson, Giles
3fd8e08f-e615-42bb-a1ff-3346c5847b91

Richardson, Giles (2000) Vortex motion in shallow water with varying bottom topography and zero Froude number. Journal of Fluid Mechanics, 411, 351-374. (doi:10.1017/S0022112099008393).

Record type: Article

Abstract

The methods of formal matched asymptotics are used to investigate the motion of a vortex in shallow inviscid fluid of varying depth and zero Froude number in the limit as the vortex core radius tends to zero. To leading order the vortex is driven by local gradients in the logarithm of the depth along an isobath (or depth contour). A further term in the vortex velocity is calculated in which effects arising from the global bottom topography, other vortices and the vortex core structure appear. The evolution of the vortex core structure is then calculated. A point-vortex model is formulated which describes the motion of a number of small vortices in terms of the bottom topography, the inviscid flows around the vortices and their evolving core structure. A numerical method for solving this model is discussed and finally some numerical simulations of the motion of vortex pairs over a varying bottom topography are presented

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More information

Accepted/In Press date: 29 July 1999
Published date: 1 May 2000
Organisations: Applied Mathematics

Identifiers

Local EPrints ID: 404026
URI: http://eprints.soton.ac.uk/id/eprint/404026
DOI: doi:10.1017/S0022112099008393
ISSN: 0022-1120
PURE UUID: a03c5980-b685-4aa5-9648-17504bb281ee
ORCID for Giles Richardson: ORCID iD orcid.org/0000-0001-6225-8590

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Date deposited: 22 Dec 2016 11:14
Last modified: 16 Mar 2024 04:00

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Author: Giles Richardson ORCID iD

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