Regular patterns, which are found in both natural and man-modified environments, are strongly interwoven with free-surface flows. Examples are ridge and slough landscapes, cultivated terrains with ditches and furrows, and urban areas, with many of them characterized by a marked anisotropy. Simulation of overland and shallow inundation flows in these contexts is complex and demanding, especially if very different spatial scales are involved. Anisotropic effects are introduced to cope with two-dimensional shallow water models and, particularly, with the subgrid modeling technique. Application to schematic test cases shows the key role played by anisotropy in shallow flows, and second, that anisotropy can be effectively captured by the subgrid...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
Long term morphodynamic simulations are used for predicting the impact of climate change and human i...
This thesis concerns different aspects of the numerical modelling of flood propagation, and it addre...
This study develops methods to represent the effect of subgrid scale topography for shallow water hy...
This paper derives a novel formulation of the depth-averaged shallow water equations with anisotropi...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
Detailed topographic data have become widely available for inundation mapping. While the use of such...
Abstract A portion of water not consumed by crops during flood irrigation can flow back across the s...
Hydrodynamic modeling of flow and salinity transport through shallow coastal marshes often suffers f...
In the present work, a porosity-based numerical scheme for the Shallow Water Equations is presented....
Porous shallow-water models (porosity models) simulate urban flood flows orders of magnitude faster ...
peer reviewedThis paper reviews the accuracy of shallow water models to reproduce flow characteristi...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
Shallow-water models are standard for simulating flow in river systems during floods, including in t...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
Long term morphodynamic simulations are used for predicting the impact of climate change and human i...
This thesis concerns different aspects of the numerical modelling of flood propagation, and it addre...
This study develops methods to represent the effect of subgrid scale topography for shallow water hy...
This paper derives a novel formulation of the depth-averaged shallow water equations with anisotropi...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
Detailed topographic data have become widely available for inundation mapping. While the use of such...
Abstract A portion of water not consumed by crops during flood irrigation can flow back across the s...
Hydrodynamic modeling of flow and salinity transport through shallow coastal marshes often suffers f...
In the present work, a porosity-based numerical scheme for the Shallow Water Equations is presented....
Porous shallow-water models (porosity models) simulate urban flood flows orders of magnitude faster ...
peer reviewedThis paper reviews the accuracy of shallow water models to reproduce flow characteristi...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
Shallow-water models are standard for simulating flow in river systems during floods, including in t...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
Long term morphodynamic simulations are used for predicting the impact of climate change and human i...
This thesis concerns different aspects of the numerical modelling of flood propagation, and it addre...