Effect of meniscus curvature on apparent thermal slip
Effect of meniscus curvature on apparent thermal slip
We analytically consider the effect of meniscus curvature on heat transfer to laminar flow across structured surfaces. The surfaces considered are composed of ridges. Curvature of the menisci, which separates liquid in the Cassie state and gas trapped in cavities between the ridges, results from the pressure difference between the liquid and the gas. A boundary perturbation approach is used to develop expressions that account for the change in the temperature field in the limit of small curvature of a meniscus. The meniscus is considered adiabatic and a constant heat flux boundary condition is prescribed at the tips of the ridges in a semi-infinite and periodic domain. A solution for a constant temperature ridge is also presented using existing results from a mathematically equivalent hydrodynamic problem. We provide approximate expressions for the apparent thermal slip length as function of solid fraction over a range of small meniscus protrusion angles. Numerical results show good agreement with the perturbation results for protrusion angles up to ± 20 deg.
Lam, Lisa Steigerwalt
bd1ab006-ac73-4b5f-98b0-aaf9bb1ec4fd
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
Karamanis, Georgios
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Kirk, Toby
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MacLachlan, Scott
a8e95deb-2006-4e15-9b05-fa2eb499461b
1 December 2016
Lam, Lisa Steigerwalt
bd1ab006-ac73-4b5f-98b0-aaf9bb1ec4fd
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
Karamanis, Georgios
31be80ad-86e2-4bcc-b706-f6dfcab338a5
Kirk, Toby
7bad334e-c216-4f4a-b6b3-cca90324b37c
MacLachlan, Scott
a8e95deb-2006-4e15-9b05-fa2eb499461b
Lam, Lisa Steigerwalt, Hodes, Marc, Karamanis, Georgios, Kirk, Toby and MacLachlan, Scott
(2016)
Effect of meniscus curvature on apparent thermal slip.
Journal of Heat Transfer, 138 (12), [122004].
(doi:10.1115/1.4034189).
Abstract
We analytically consider the effect of meniscus curvature on heat transfer to laminar flow across structured surfaces. The surfaces considered are composed of ridges. Curvature of the menisci, which separates liquid in the Cassie state and gas trapped in cavities between the ridges, results from the pressure difference between the liquid and the gas. A boundary perturbation approach is used to develop expressions that account for the change in the temperature field in the limit of small curvature of a meniscus. The meniscus is considered adiabatic and a constant heat flux boundary condition is prescribed at the tips of the ridges in a semi-infinite and periodic domain. A solution for a constant temperature ridge is also presented using existing results from a mathematically equivalent hydrodynamic problem. We provide approximate expressions for the apparent thermal slip length as function of solid fraction over a range of small meniscus protrusion angles. Numerical results show good agreement with the perturbation results for protrusion angles up to ± 20 deg.
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Published date: 1 December 2016
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© 2016 by ASME.
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Local EPrints ID: 495689
URI: http://eprints.soton.ac.uk/id/eprint/495689
ISSN: 0022-1481
PURE UUID: 1729b169-eacb-4b7a-9e41-fb2f5516953f
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Date deposited: 20 Nov 2024 17:44
Last modified: 30 Nov 2024 03:17
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Contributors
Author:
Lisa Steigerwalt Lam
Author:
Marc Hodes
Author:
Georgios Karamanis
Author:
Toby Kirk
Author:
Scott MacLachlan
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