On the linear stability of boundary-layer flows induced by the translation of a wavy surface

J. Ferguson; P.M.J. Trevelyan; S.O. Stephen; P.T. Griffiths

doi:10.1098/rspa.2024.0916

On the linear stability of boundary-layer flows induced by the translation of a wavy surface

J. Ferguson, P.M.J. Trevelyan, S.O. Stephen, P.T. Griffiths^*

^*Corresponding author for this work

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Abstract

We consider the linear stability of steady boundary-layer flows induced by the translation of a moving wavy surface. The wavy surface has a sinusoidal profile and is considered here as a model for surface roughness. Previous studies have used similar surface-roughness models when analysing roughness effects on three-dimensional axisymmetric boundary-layer flows. In these instances, surface roughness has been shown to stabilize convective modes of instability. The motivation for this study is to ascertain if qualitatively similar results are predicted for two-dimensional boundary-layer flows where Tollmien–Schlichting (TS) waves are the dominant mode of instability. Combining results from two separate numerical analyses with a large Reynolds number asymptotic analysis, we show that these types of flow configurations are indeed stabilized by the presence of surface roughness.

Original language	English
Number of pages	25
Journal	Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
Volume	481
Issue number	2318
Early online date	30 Jul 2025
DOIs	https://doi.org/10.1098/rspa.2024.0916
Publication status	Published - 30 Jul 2025

Bibliographical note

Copyright © 2025 The Authors. Published by the Royal Society. This accepted manuscript version is made available under the Creative Commons CC BY license. The final published version can be found:
Ferguson J., Trevelyan P. M. J., Stephen S. O. and Griffiths P. T. 2025 On the linear stability of boundary-layer flows induced by the translation of a wavy surfaceProc. R. Soc. A.48120240916
https://doi.org/10.1098/rspa.2024.0916

Keywords

boundary layer
instability
roughness
wavy surface

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10.1098/rspa.2024.0916

On_the_linear_stability_of_boundary_layer_flows_induced_by_the_translation_of_a_wavy_surface_AAM
Copyright © 2025 The Authors. Published by the Royal Society. This accepted manuscript version is made available under the Creative Commons CC BY license. The final published version can be found: Ferguson J., Trevelyan P. M. J., Stephen S. O. and Griffiths P. T. 2025 On the linear stability of boundary-layer flows induced by the translation of a wavy surfaceProc. R. Soc. A.48120240916 https://doi.org/10.1098/rspa.2024.0916
Accepted author manuscript, 0.99 MBLicence: CC BY 4.0

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title = "On the linear stability of boundary-layer flows induced by the translation of a wavy surface",

abstract = "We consider the linear stability of steady boundary-layer flows induced by the translation of a moving wavy surface. The wavy surface has a sinusoidal profile and is considered here as a model for surface roughness. Previous studies have used similar surface-roughness models when analysing roughness effects on three-dimensional axisymmetric boundary-layer flows. In these instances, surface roughness has been shown to stabilize convective modes of instability. The motivation for this study is to ascertain if qualitatively similar results are predicted for two-dimensional boundary-layer flows where Tollmien–Schlichting (TS) waves are the dominant mode of instability. Combining results from two separate numerical analyses with a large Reynolds number asymptotic analysis, we show that these types of flow configurations are indeed stabilized by the presence of surface roughness.",

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AU - Griffiths, P.T.

N1 - Copyright © 2025 The Authors. Published by the Royal Society. This accepted manuscript version is made available under the Creative Commons CC BY license. The final published version can be found: Ferguson J., Trevelyan P. M. J., Stephen S. O. and Griffiths P. T. 2025 On the linear stability of boundary-layer flows induced by the translation of a wavy surfaceProc. R. Soc. A.48120240916 https://doi.org/10.1098/rspa.2024.0916

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N2 - We consider the linear stability of steady boundary-layer flows induced by the translation of a moving wavy surface. The wavy surface has a sinusoidal profile and is considered here as a model for surface roughness. Previous studies have used similar surface-roughness models when analysing roughness effects on three-dimensional axisymmetric boundary-layer flows. In these instances, surface roughness has been shown to stabilize convective modes of instability. The motivation for this study is to ascertain if qualitatively similar results are predicted for two-dimensional boundary-layer flows where Tollmien–Schlichting (TS) waves are the dominant mode of instability. Combining results from two separate numerical analyses with a large Reynolds number asymptotic analysis, we show that these types of flow configurations are indeed stabilized by the presence of surface roughness.

AB - We consider the linear stability of steady boundary-layer flows induced by the translation of a moving wavy surface. The wavy surface has a sinusoidal profile and is considered here as a model for surface roughness. Previous studies have used similar surface-roughness models when analysing roughness effects on three-dimensional axisymmetric boundary-layer flows. In these instances, surface roughness has been shown to stabilize convective modes of instability. The motivation for this study is to ascertain if qualitatively similar results are predicted for two-dimensional boundary-layer flows where Tollmien–Schlichting (TS) waves are the dominant mode of instability. Combining results from two separate numerical analyses with a large Reynolds number asymptotic analysis, we show that these types of flow configurations are indeed stabilized by the presence of surface roughness.

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KW - instability

KW - roughness

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JO - Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences

JF - Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences

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ER -

On the linear stability of boundary-layer flows induced by the translation of a wavy surface

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