A new two-layer two-phase depth-integrated SPH model implementing dewatering: Application to debris flows

Debris flows can be considered a type of landslide with large velocities and long run-out distances. There are many types of debris flows, depending on the properties of the solid and fluid components of the mixture. The triggering and propagation of debris flows can be studied using a single 3D mat...

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Bibliographic Details
Published in:Computers and geotechnics 2023-01, Vol.153, p.105099, Article 105099
Main Authors: Pastor, Manuel, Tayyebi, Saeid Moussavi, Hernandez, Andrei, Gao, Lingang, Stickle, Miguel Martin, Lin, Chuan
Format: Article
Language:English
Subjects:
Depth integrated model
Desaturation
Permeable drainage screen
SPH
Two phases
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Summary:Debris flows can be considered a type of landslide with large velocities and long run-out distances. There are many types of debris flows, depending on the properties of the solid and fluid components of the mixture. The triggering and propagation of debris flows can be studied using a single 3D mathematical model. The computational cost can be very high because of their length, and depth-integrated models provide a good combination of accuracy and cost. Both types of models can be combined in the analysis, using 3D models for initiation and at singular points where more accuracy is wanted. As in a chain where the strength is never higher than that of the weaker link, we have to ensure that all the models are accurate enough in a joint model. This paper deals with a new depth-integrated model which can take into account the changes caused by dewatering in a debris flow. An important limitation of existing two-phase models allowing different velocities of solid and water particles is that when water abandons the mixture, porosity decreases and tends to zero. Here, a two-layer model is introduced, including an unsaturated upper layer on top of a saturated layer.
ISSN:0266-352X
1873-7633
DOI:10.1016/j.compgeo.2022.105099