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Two-phase flow simulations of surface waves in wind-forced conditions
Citation Link: https://doi.org/10.15480/882.8078
Publikationstyp
Journal Article
Publikationsdatum
2023-07-01
Sprache
English
Author
Enthalten in
Volume
35
Issue
7
Article Number
072108
Citation
Physics of Fluids 35 (7): 072108 (2023-07-01)
Publisher DOI
Scopus ID
Publisher
American Institute of Physics
The paper is devoted to two-phase flow simulations and investigates the ability of a diffusive interface Cahn-Hilliard volume-of-fluid model to capture the dynamics of the air-sea interface at geophysically relevant Reynolds numbers. It employs a hybrid filtered/averaging improved detached eddy simulation method to model turbulence and utilizes a continuum model to account for surface tension if the diffuse interface is under-resolved by the grid. A numerical wind-wave tank is introduced, and results obtained for two known wind-wave conditions are analyzed in comparison to experimental data at matched Reynolds numbers. The focus of the comparison is on both time-averaged and wave-coherent quantities, and includes pressure, velocity as well as modeled and resolved Reynolds stresses. In general, numerical predictions agree well with the experimental measurements and reproduce many wave-dependent flow features. Reynolds stresses near the water surface are found to be especially important in modulating the critical layer height. It is concluded that the diffusive interface approach proves to be a promising method for future studies of air-sea interface dynamics in geophysically relevant flows.
DDC Class
624: Civil Engineering, Environmental Engineering
Publication version
publishedVersion
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