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Channel flow with large longitudinal ribs

Channel flow with large longitudinal ribs
Channel flow with large longitudinal ribs

We present data from direct numerical simulations of flow through channels containing large, longitudinal, surface-mounted, rectangular ribs at various spanwise spacings, which lead to secondary flows. It is shown that appropriate modifications to the classical log-law, predicated on a greater wetted surface area than in a plane channel, lead to a log-law-like region in the spanwise-averaged axial mean velocity profiles, even though local profiles may be very different. The secondary flows resulting from the presence of the ribs are examined and their effects discussed. Comparing our results with the literature we conclude that the sense of the secondary flows is largely independent of the particular rib spacing whether normalised by channel depth or rib width. The strength of the secondary flows, however, is shown to depend on the ratio of rib spacing to rib width and on Reynolds number. Topological features of the secondary flow structure are illustrated via a critical point analysis and shown to be characterised in all cases by a free stagnation point above the centre of the rib. Finally, we show that if the domain size is chosen as a 'minimal channel' size, rather than a size which allows adequate development of the usual outer layer flow structures, the secondary flows can be affected and this leads inevitably to differences in the near-rib flows so that for ribbed channels, unlike plain channels, it is unwise to use minimal domains to identify details of the near-wall flow.

0022-1120
Castro, Ian
66e6330d-d93a-439a-a69b-e061e660de61
Kim, Jae
fedabfc6-312c-40fd-b0c1-7b4a3ca80987
Stroh, Alex
77cc1bd7-308d-4d42-99ef-e226bb7349e3
Lim, Hee Chang
4642c6ce-8702-48ac-9a06-5dcbb7e43894
Castro, Ian
66e6330d-d93a-439a-a69b-e061e660de61
Kim, Jae
fedabfc6-312c-40fd-b0c1-7b4a3ca80987
Stroh, Alex
77cc1bd7-308d-4d42-99ef-e226bb7349e3
Lim, Hee Chang
4642c6ce-8702-48ac-9a06-5dcbb7e43894

Castro, Ian, Kim, Jae, Stroh, Alex and Lim, Hee Chang (2021) Channel flow with large longitudinal ribs. Journal of Fluid Mechanics, 915, [A92]. (doi:10.1017/jfm.2021.110).

Record type: Article

Abstract

We present data from direct numerical simulations of flow through channels containing large, longitudinal, surface-mounted, rectangular ribs at various spanwise spacings, which lead to secondary flows. It is shown that appropriate modifications to the classical log-law, predicated on a greater wetted surface area than in a plane channel, lead to a log-law-like region in the spanwise-averaged axial mean velocity profiles, even though local profiles may be very different. The secondary flows resulting from the presence of the ribs are examined and their effects discussed. Comparing our results with the literature we conclude that the sense of the secondary flows is largely independent of the particular rib spacing whether normalised by channel depth or rib width. The strength of the secondary flows, however, is shown to depend on the ratio of rib spacing to rib width and on Reynolds number. Topological features of the secondary flow structure are illustrated via a critical point analysis and shown to be characterised in all cases by a free stagnation point above the centre of the rib. Finally, we show that if the domain size is chosen as a 'minimal channel' size, rather than a size which allows adequate development of the usual outer layer flow structures, the secondary flows can be affected and this leads inevitably to differences in the near-rib flows so that for ribbed channels, unlike plain channels, it is unwise to use minimal domains to identify details of the near-wall flow.

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Accepted/In Press date: 1 February 2021
Published date: 24 March 2021
Additional Information: Publisher Copyright: © The Author(s), 2021. Published by Cambridge University Press.

Identifiers

Local EPrints ID: 447787
URI: http://eprints.soton.ac.uk/id/eprint/447787
DOI: doi:10.1017/jfm.2021.110
ISSN: 0022-1120
PURE UUID: 3f092df7-8709-4a34-8b2e-92c5006b93e3
ORCID for Jae Kim: ORCID iD orcid.org/0000-0003-0476-2574

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Date deposited: 22 Mar 2021 17:34
Last modified: 17 Mar 2024 03:00

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Contributors

Author: Ian Castro
Author: Jae Kim ORCID iD
Author: Alex Stroh
Author: Hee Chang Lim

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