Structuring laminar flows using annular magnetohydrodynamic actuation
Structuring laminar flows using annular magnetohydrodynamic actuation
Laminar flow behaviour is typically observed when transporting fluids in micron-scale channels. Here, cross channel mass transport occurs only by molecular diffusion and mixing adjacent fluid streams becomes problematic. A parabolic velocity profile is also observed with pressure-driven laminar flow in a conduit. This property can be exploited by circulating fluid in an annulus such that two initially separated liquids are forced to pass through each other resulting in massive increases in the interfacial area to promote conditions for mass transfer. Miniature machined and micromachined prototypes with an integrated magnetohydrodynamic (MHD) micropump for fluid circulation were fabricated and tested. Annular MHD micromixing was characterised using fluorescein, bromophenol blue and hydrogen ion solutes for a range of velocities and modelled to include both diffusive and convective components. Furthermore, a lateral partitioning mechanism was identified and examined.
microfluidics, laminar flow, magnetohydrodynamic (mhd micropump, annular micromixing, transverse partitioningfield
190-199
West, Jonathan
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Gleeson, James P.
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Alderman, John
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Collins, John K.
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Berney, Helen
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15 November 2003
West, Jonathan
f1c2e060-16c3-44c0-af70-242a1c58b968
Gleeson, James P.
a37968a8-0c14-495c-8e82-aab2e8d4dca0
Alderman, John
fde33a0a-4192-40cb-8246-13bf3e213f4a
Collins, John K.
9abadce2-a040-4f34-a91f-7a43a5deda7a
Berney, Helen
4bff1286-8f87-4999-a9db-a52b6a20def7
West, Jonathan, Gleeson, James P., Alderman, John, Collins, John K. and Berney, Helen
(2003)
Structuring laminar flows using annular magnetohydrodynamic actuation.
Sensors and Actuators B: Chemical, 96 (1-2), .
(doi:10.1016/S0925-4005(03)00525-2).
Abstract
Laminar flow behaviour is typically observed when transporting fluids in micron-scale channels. Here, cross channel mass transport occurs only by molecular diffusion and mixing adjacent fluid streams becomes problematic. A parabolic velocity profile is also observed with pressure-driven laminar flow in a conduit. This property can be exploited by circulating fluid in an annulus such that two initially separated liquids are forced to pass through each other resulting in massive increases in the interfacial area to promote conditions for mass transfer. Miniature machined and micromachined prototypes with an integrated magnetohydrodynamic (MHD) micropump for fluid circulation were fabricated and tested. Annular MHD micromixing was characterised using fluorescein, bromophenol blue and hydrogen ion solutes for a range of velocities and modelled to include both diffusive and convective components. Furthermore, a lateral partitioning mechanism was identified and examined.
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Published date: 15 November 2003
Keywords:
microfluidics, laminar flow, magnetohydrodynamic (mhd micropump, annular micromixing, transverse partitioningfield
Organisations:
Cancer Sciences
Identifiers
Local EPrints ID: 346429
URI: http://eprints.soton.ac.uk/id/eprint/346429
ISSN: 0925-4005
PURE UUID: 485a594e-36d8-4c7b-991a-d6a939001c57
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Date deposited: 26 Feb 2013 13:42
Last modified: 15 Mar 2024 03:43
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Contributors
Author:
James P. Gleeson
Author:
John Alderman
Author:
John K. Collins
Author:
Helen Berney
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