Non-linear regimes of tsunami waves generated by a granular collapse

Abstract

Tsunami waves induced by landslides are a threat to human activities and safety along coastal areas. In this paper, we characterize experimentally the waves generated by the gravity-driven collapse of a dry granular column into water. Three nonlinear wave regimes are identified depending on the Froude number Frf based on the ratio of the velocity of the advancing granular front and the velocity of linear gravity waves in shallow water: transient bores for large Frf, solitary waves for intermediate values of Frf, and non-linear transition waves at small Frf. The wave amplitude relative to the water depth increases with Frf in the three regimes but with different non-linear scalings, and the relative wavelength is an increasing or decreasing function of Frf. Two of these wave regimes are rationalized by considering that the advancing granular front acts as a vertical piston pushing the water, while the last one is found to be a transition from shallow to deep water conditions. The present modeling contributes to a better understanding of the rich hydrodynamics of the generated waves, with coastal risk assessment as practical applications.