Solitary wave fission of a large disturbance in a viscous fluid conduit

Maiden, Michelle D., Franco, Nevil A., Webb, Emily, El, Gennady and Hoefer, Mark (2020) Solitary wave fission of a large disturbance in a viscous fluid conduit. Journal of Fluid Mechanics, 883. A10. ISSN 0022-1120

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Official URL: https://doi.org/10.1017/jfm.2019.830

Abstract

This paper presents a theoretical and experimental study of the long-standing fluid mechanics problem involving the temporal resolution of a large localised initial disturbance into a sequence of solitary waves. This problem is of fundamental importance in a range of applications, including tsunami and internal ocean wave modelling. This study is performed in the context of the viscous fluid conduit system – the driven, cylindrical, free interface between two miscible Stokes fluids with high viscosity contrast. Owing to buoyancy-induced nonlinear self-steepening balanced by stress-induced interfacial dispersion, the disturbance evolves into a slowly modulated wavetrain and further into a sequence of solitary waves. An extension of Whitham modulation theory, termed the solitary wave resolution method, is used to resolve the fission of an initial disturbance into solitary waves. The developed theory predicts the relationship between the initial disturbance’s profile, the number of emergent solitary waves and their amplitude distribution, quantifying an extension of the well-known soliton resolution conjecture from integrable systems to non-integrable systems that often provide a more accurate modelling of physical systems. The theoretical predictions for the fluid conduit system are confirmed both numerically and experimentally. The number of observed solitary waves is consistently within one to two waves of the prediction, and the amplitude distribution shows remarkable agreement. Universal properties of solitary wave fission in other fluid dynamics problems are identified.

Item Type: Article
Uncontrolled Keywords: solitary waves
Subjects: F300 Physics
Department: Faculties > Engineering and Environment > Mathematics, Physics and Electrical Engineering
Depositing User: Paul Burns
Date Deposited: 09 Oct 2019 11:53
Last Modified: 19 Mar 2020 09:15
URI: http://nrl.northumbria.ac.uk/id/eprint/41055

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