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Analysis of anisotropically permeable surfaces for turbulent drag reduction

Published version
Peer-reviewed

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Abstract

The present work proposes the use of anisotropically permeable substrates as a means to reduce turbulent skin friction. We conduct an a priori analysis to assess the potential of these surfaces, based on the effect of small-scale surface manipulations on near-wall turbulence. The analysis, valid for small permeability, predicts a monotonic decrease in friction as the streamwise permeability increases. Empirical results suggest that the drag-reducing mechanism is however bound to fail beyond a certain permeability. We investigate the development of Kelvin-Helmholtz-like rollers at the surface as a potential mechanism for this failure. These rollers, which are a typical feature of turbulent flows over permeable walls, are known to increase drag and their appearance is known to limit the drag-reducing effect. We propose a model, based on linear stability analysis, that predicts the onset of these rollers for sufficiently large permeability and allows us to bound the maximum drag reduction that these surfaces can achieve.

Description

Journal Title

Physical Review Fluids

Conference Name

Journal ISSN

2469-9918
2469-990X

Volume Title

2

Publisher

American Physical Society (APS)

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Sponsorship
Engineering and Physical Sciences Research Council (EP/M506485/1)