Explicit formulas for forced convection in a shrouded longitudinal-fin heat sink with clearance
Explicit formulas for forced convection in a shrouded longitudinal-fin heat sink with clearance
We consider laminar forced convection in a shrouded longitudinal-fin heat sink (LFHS) with tip clearance, as described by the pioneering study of (Sparrow, Baliga & Patankar 1978 J. Heat Trans. 100). The base of the LFHS is isothermal but the fins, while thin, are not isothermal, i.e. the conjugate heat transfer problem is of interest. Whereas Sparrow et al. numerically solved the fully developed flow and thermal problems for a range of geometries and fin conductivities, we consider the physically realistic asymptotic limit where the fins are closely spaced, i.e. the spacing is small relative to their height and the clearance above them. The flow problem in this limit was considered by (Miyoshi et al. 2024, J. Fluid Mech. 991, A2), and we consider the corresponding thermal problem. Using
matched asymptotic expansions, we find explicit solutions for the temperature field (in both the fluid and fins) and conjugate Nusselt numbers (local and average). The structure of the asymptotic solutions provides further insight into the results of Sparrow et al.: the flow is highest in the gap above the fins, hence heat transfer predominantly occurs close to the fin tips. The new formulas are compared with numerical solutions and are found to be accurate for practical LFHSs. Significantly, existing analytical results for ducts are for boundaries that are either wholly isothermal, wholly isoflux or with one of these conditions on each wall. Consequently, this study provides the first analytical results for conjugate Nusselt numbers for flow through ducts.
convection, convection in cavities, microscale transport
Kirk, Toby
7bad334e-c216-4f4a-b6b3-cca90324b37c
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
1 August 2025
Kirk, Toby
7bad334e-c216-4f4a-b6b3-cca90324b37c
Hodes, Marc
31732b12-8b18-4b0e-9bc8-6dc690229ae9
Kirk, Toby and Hodes, Marc
(2025)
Explicit formulas for forced convection in a shrouded longitudinal-fin heat sink with clearance.
Journal of Fluid Mechanics, 1016, [A32].
(doi:10.48550/arXiv.2412.09288).
Abstract
We consider laminar forced convection in a shrouded longitudinal-fin heat sink (LFHS) with tip clearance, as described by the pioneering study of (Sparrow, Baliga & Patankar 1978 J. Heat Trans. 100). The base of the LFHS is isothermal but the fins, while thin, are not isothermal, i.e. the conjugate heat transfer problem is of interest. Whereas Sparrow et al. numerically solved the fully developed flow and thermal problems for a range of geometries and fin conductivities, we consider the physically realistic asymptotic limit where the fins are closely spaced, i.e. the spacing is small relative to their height and the clearance above them. The flow problem in this limit was considered by (Miyoshi et al. 2024, J. Fluid Mech. 991, A2), and we consider the corresponding thermal problem. Using
matched asymptotic expansions, we find explicit solutions for the temperature field (in both the fluid and fins) and conjugate Nusselt numbers (local and average). The structure of the asymptotic solutions provides further insight into the results of Sparrow et al.: the flow is highest in the gap above the fins, hence heat transfer predominantly occurs close to the fin tips. The new formulas are compared with numerical solutions and are found to be accurate for practical LFHSs. Significantly, existing analytical results for ducts are for boundaries that are either wholly isothermal, wholly isoflux or with one of these conditions on each wall. Consequently, this study provides the first analytical results for conjugate Nusselt numbers for flow through ducts.
Text
2412.09288v1
- Author's Original
Text
Kirk_Hodes_JFM_2025
- Version of Record
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Accepted/In Press date: 17 June 2025
Published date: 1 August 2025
Additional Information:
39 pages. Supplementary material in ancillary files
Keywords:
convection, convection in cavities, microscale transport
Identifiers
Local EPrints ID: 502441
URI: http://eprints.soton.ac.uk/id/eprint/502441
ISSN: 0022-1120
PURE UUID: b7d089c6-06f0-4e27-9ab3-bcce33fd356f
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Date deposited: 26 Jun 2025 16:58
Last modified: 20 Sep 2025 02:28
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Author:
Toby Kirk
Author:
Marc Hodes
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