[1] This paper presents a new, generalized two-phase debris flow model that includes many essential physical phenomena. The model employs the Mohr-Coulomb plasticity for the solid stress, and the fluid stress is modeled as a solid-volume-fraction-gradient-enhanced non-Newtonian viscous stress. The generalized interfacial momentum transfer includes viscous drag, buoyancy, and virtual mass. A new, generalized drag force is proposed that covers both solid-like and fluid-like contributions, and can be applied to drag ranging from linear to quadratic. Strong coupling between the solid- and the fluid-momentum transfer leads to simultaneous deformation, mixing, and separation of the phases. Inclusion of the non-Newtonian viscous stresses is import...
Debris-flow modeling is a great challenge due to its complex physical mechanism that remains poorly ...
International audienceThe main goal of these notes is to present several depth-averaged models with ...
Mass movements such as debris flows and landslide differ in behavior due to their material propertie...
In this contribution, I present a historical account of debris flow modelling leading to the state o...
Abstract: Landslides, debris avalanches, debris flows, and flash floods are highly destructive and u...
Abstract: Gravitational flows like submarine and subaerial landslides and debris avalanches may gene...
Abstract: A new mathematical model developed to predict behavior of debris flows and avalanches also...
International audienceThis paper is an extension of the single-phase cohesionless dry granular avala...
peer reviewedTurbulence is an important mechanical aspect that substantially influences the dynamics...
This work presents the thermodynamically consistent development of a scaled, depth-integrated model ...
After an analysis of the differences between stony inertial flows and viscous debris flows the empha...
To predict debris flow dynamics a numerical model, based on 1D De Saint Venant (SV) equations, was de...
Debris flows and debris avalanches are complex, gravity-driven currents of rock, water and sediments...
As the first step of the development of a general two-phase flow model for debris flows, a simple gr...
1 Fundamental Equations of Two-fluid Model The complicated debris flow is simplified as two-fluid mo...
Debris-flow modeling is a great challenge due to its complex physical mechanism that remains poorly ...
International audienceThe main goal of these notes is to present several depth-averaged models with ...
Mass movements such as debris flows and landslide differ in behavior due to their material propertie...
In this contribution, I present a historical account of debris flow modelling leading to the state o...
Abstract: Landslides, debris avalanches, debris flows, and flash floods are highly destructive and u...
Abstract: Gravitational flows like submarine and subaerial landslides and debris avalanches may gene...
Abstract: A new mathematical model developed to predict behavior of debris flows and avalanches also...
International audienceThis paper is an extension of the single-phase cohesionless dry granular avala...
peer reviewedTurbulence is an important mechanical aspect that substantially influences the dynamics...
This work presents the thermodynamically consistent development of a scaled, depth-integrated model ...
After an analysis of the differences between stony inertial flows and viscous debris flows the empha...
To predict debris flow dynamics a numerical model, based on 1D De Saint Venant (SV) equations, was de...
Debris flows and debris avalanches are complex, gravity-driven currents of rock, water and sediments...
As the first step of the development of a general two-phase flow model for debris flows, a simple gr...
1 Fundamental Equations of Two-fluid Model The complicated debris flow is simplified as two-fluid mo...
Debris-flow modeling is a great challenge due to its complex physical mechanism that remains poorly ...
International audienceThe main goal of these notes is to present several depth-averaged models with ...
Mass movements such as debris flows and landslide differ in behavior due to their material propertie...