Two-phase SPH modelling of a real debris avalanche and analysis of its impact on bottom drainage screens

TAYYEBI, SAEID M.; PASTOR, MANUEL; STICKLE, MIGUEL M.; YAGÜE, ÁNGEL; MANZANAL, DIEGO; MOLINOS, MIGUEL; NAVAS, PEDRO

LANDSLIDES

SPRINGER HEIDELBERG

Año: 2022 vol. 19 p. 421 - 435

1612-510X

Rapid flow-like landslides, particularly debris flows and debris avalanches, cause significant economic damage and many victims worldwide every year. They are usually extremely fast with the capability of travelling long distances in short times, sweeping away everything in their path. The principal objective of this paper is to test the ability of the ‘GeoFlow-SPH’ two-phase model developed by the authors, to reproduce the complex behaviour of natural debris avalanches where pore-water pressure evolution plays a key role. To reach this goal, the model is applied to reproduce the complex dynamic behaviour observed in Johnsons Landing debris avalanche including the observed bifurcation caused by the flowing out of part of the moving mass from the mid-channel. Initial thickness deposit trim-line, distribution of deposit volume, and the average velocities were provided for this real case, making it an appropriate case to validate the developed model. The paper also contributes to evaluate the SPH-FD model’s potentialities to simulate the structural countermeasure, like bottom drainage screens, used to reduce the impact of debris flows. The analysis of the results shows the adequacy of the proposed model to solve this complicated geophysical problem.