Debris-flow modeling is a great challenge due to its complex physical mechanism that remains poorly understood. The present research incorporates the effect of rheological features of the non-Newtonian fluid into the complete quasi-single-phase mixture model, which explicitly accommodates the interactions between flow, non-uniform sediment transport, and bed evolution. The effect of rheological features is estimated by Hersch–Bulkley–Papanastasiou model that can be simplified to Bingham or Newtonian models with specific coefficients. The governing equations are solved by a fully conservative numerical algorithm, using an explicit finite volume discretization with well-balanced slope-limited centered scheme combined with an implicit discreti...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Fluidized gravitational mass movements typically turn into mud floods, mudflows, and debris, flows, ...
Here, we present validation tests of the fluid dynamic solver presented in von Boetticher et al. (20...
Debris flows contain inhomogeneous distributions of solids within a liquid. By considering a mixture...
A one-dimensional model is presented to predict debris-flow runouts. The model is based on shallow ...
[1] This paper presents a new, generalized two-phase debris flow model that includes many essential ...
Natural flows as mud, debris and hyper-concentrated flows are fast-flow phenomena typically characte...
Physically-based numerical simulation models have been developed to predict hazard area relating to ...
We present a quasi three-dimensional numerical model to simulate debris fl ows that considers a con-...
Here, we present validation tests of the fluid dynamic solver presented in von Boetticher et al. (20...
Herewith we present a multi-phase model for debris flows, of which the flow body is supposed to be c...
In the present paper, the problem of modeling the propagation of debris flow using suitable rheologi...
To predict debris flow dynamics a numerical model, based on 1D De Saint Venant (SV) equations, was de...
We formulate and test different Voellmy-type mixture rheologies that can be introduced into two-laye...
Landslides triggered by hydro-meteorological processes are a serious natural hazard in many areas of...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Fluidized gravitational mass movements typically turn into mud floods, mudflows, and debris, flows, ...
Here, we present validation tests of the fluid dynamic solver presented in von Boetticher et al. (20...
Debris flows contain inhomogeneous distributions of solids within a liquid. By considering a mixture...
A one-dimensional model is presented to predict debris-flow runouts. The model is based on shallow ...
[1] This paper presents a new, generalized two-phase debris flow model that includes many essential ...
Natural flows as mud, debris and hyper-concentrated flows are fast-flow phenomena typically characte...
Physically-based numerical simulation models have been developed to predict hazard area relating to ...
We present a quasi three-dimensional numerical model to simulate debris fl ows that considers a con-...
Here, we present validation tests of the fluid dynamic solver presented in von Boetticher et al. (20...
Herewith we present a multi-phase model for debris flows, of which the flow body is supposed to be c...
In the present paper, the problem of modeling the propagation of debris flow using suitable rheologi...
To predict debris flow dynamics a numerical model, based on 1D De Saint Venant (SV) equations, was de...
We formulate and test different Voellmy-type mixture rheologies that can be introduced into two-laye...
Landslides triggered by hydro-meteorological processes are a serious natural hazard in many areas of...
This paper proposes a computational approach to debris flow model. In recent years, the theoretical...
Fluidized gravitational mass movements typically turn into mud floods, mudflows, and debris, flows, ...
Here, we present validation tests of the fluid dynamic solver presented in von Boetticher et al. (20...