4.4 Article

From granular collapses to shallow water waves: A predictive model for tsunami generation

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PHYSICAL REVIEW FLUIDS
卷 7, 期 9, 页码 -

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AMER PHYSICAL SOC
DOI: 10.1103/PhysRevFluids.7.094801

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This article presents a predictive model for the amplitude of impulse waves generated by the collapse of a granular column into a water layer. The model is successfully compared to laboratory experiments and captures the influence of initial parameters. Furthermore, the role of two key dimensionless numbers in wave generation is rationalized.
In this article, we present a predictive model for the amplitude of impulse waves generated by the collapse of a granular column into a water layer. The model, which combines the spreading dynamics of the grains and the wave hydrodynamics in shallow water, is successfully compared to a large dataset of laboratory experiments, and captures the influence of the initial parameters while giving an accurate prediction. Furthermore, the role played on the wave generation by two key dimensionless numbers, i.e., the global Froude number and the relative volume of the immersed deposit, is rationalized. These results provide a simplified, yet comprehensive, physical description of the generation of tsunami waves engendered by large-scale subaerial landslides, rockfalls, or cliff collapses in a shallow water.

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