Effect of thermocapillary stress on slip length for a channel textured with parallel ridges
Effect of thermocapillary stress on slip length for a channel textured with parallel ridges
We compute the apparent hydrodynamic slip length for (laminar and fully developed) Poiseuille flow of liquid through a heated parallel-plate channel. One side of the channel is textured with parallel (streamwise) ridges and the opposite one is smooth. On the textured side of the channel, the liquid is in the Cassie state. No-slip and constant heat flux boundary conditions are imposed at the solid-liquid interfaces along the tips of the ridges, and the menisci between ridges are considered to be flat and adiabatic. The smooth side of the channel is subjected to no-slip and adiabatic boundary conditions. We account for the streamwise and transverse thermocapillary stresses along menisci. When the latter is sufficiently small, Stokes flow may be assumed. Then, our solution is based upon a conformal map. When, additionally, the ratio of channel height to half of the ridge pitch is of order 1 or larger, an accurate but less cumbersome solution follows from a matched asymptotic expansion. When inertial effects are relevant, the slip length is numerically computed. Setting the thermocapillary stress equal to zero yields the slip length for an adiabatic flow.
Drag reduction, Marangoni convection, microfluidics
301-324
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
Kirk, Toby L.
7bad334e-c216-4f4a-b6b3-cca90324b37c
Karamanis, Georgios
31be80ad-86e2-4bcc-b706-f6dfcab338a5
MacLachlan, Scott
a8e95deb-2006-4e15-9b05-fa2eb499461b
10 March 2017
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
Kirk, Toby L.
7bad334e-c216-4f4a-b6b3-cca90324b37c
Karamanis, Georgios
31be80ad-86e2-4bcc-b706-f6dfcab338a5
MacLachlan, Scott
a8e95deb-2006-4e15-9b05-fa2eb499461b
Hodes, Marc, Kirk, Toby L., Karamanis, Georgios and MacLachlan, Scott
(2017)
Effect of thermocapillary stress on slip length for a channel textured with parallel ridges.
Journal of Fluid Mechanics, 814, .
(doi:10.1017/jfm.2017.8).
Abstract
We compute the apparent hydrodynamic slip length for (laminar and fully developed) Poiseuille flow of liquid through a heated parallel-plate channel. One side of the channel is textured with parallel (streamwise) ridges and the opposite one is smooth. On the textured side of the channel, the liquid is in the Cassie state. No-slip and constant heat flux boundary conditions are imposed at the solid-liquid interfaces along the tips of the ridges, and the menisci between ridges are considered to be flat and adiabatic. The smooth side of the channel is subjected to no-slip and adiabatic boundary conditions. We account for the streamwise and transverse thermocapillary stresses along menisci. When the latter is sufficiently small, Stokes flow may be assumed. Then, our solution is based upon a conformal map. When, additionally, the ratio of channel height to half of the ridge pitch is of order 1 or larger, an accurate but less cumbersome solution follows from a matched asymptotic expansion. When inertial effects are relevant, the slip length is numerically computed. Setting the thermocapillary stress equal to zero yields the slip length for an adiabatic flow.
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Published date: 10 March 2017
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Publisher Copyright:
© 2017 Cambridge University Press.
Keywords:
Drag reduction, Marangoni convection, microfluidics
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Local EPrints ID: 495688
URI: http://eprints.soton.ac.uk/id/eprint/495688
ISSN: 0022-1120
PURE UUID: 78a8557b-445d-4148-ab12-6da1cc5fcada
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Date deposited: 20 Nov 2024 17:44
Last modified: 30 Nov 2024 03:17
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Contributors
Author:
Marc Hodes
Author:
Toby L. Kirk
Author:
Georgios Karamanis
Author:
Scott MacLachlan
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