The shallow water model with anisotropic porosity conceptually takes into account the unresolved subgrid-scale features, e.g. microtopography or buildings. This enables computationally efficient simulations that can be run on coarser grids, whereas reasonable accuracy is maintained via the introduction of porosity. This article presents a novel numerical model for the depth-averaged equations with anisotropic porosity. The porosity is calculated using the probability mass function of the subgrid-scale features in each cell and updated in each time step. The model is tested in a one-dimensional theoretical benchmark before being evaluated against measurements and high-resolution predictions in three case studies: a dam-break over a triangula...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Detailed topographic data have become widely available for inundation mapping. While the use of such...
peer reviewedShallow-water models with porosity are used to compute floods at a relatively coarse re...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
Porous shallow-water models (porosity models) simulate urban flood flows orders of magnitude faster ...
peer reviewedIn the context of large-scale urban flood modelling, porosity shallow-water models enab...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
This paper derives a novel formulation of the depth-averaged shallow water equations with anisotropi...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
Current topographic survey technology provides high-resolution (HR) datasets for urban environments....
In the world, floods are at the forefront of natural hazard. Urban areas are often at risk of floodi...
In the present work, a porosity-based numerical scheme for the Shallow Water Equations is presented....
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Detailed topographic data have become widely available for inundation mapping. While the use of such...
peer reviewedShallow-water models with porosity are used to compute floods at a relatively coarse re...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
Porous shallow-water models (porosity models) simulate urban flood flows orders of magnitude faster ...
peer reviewedIn the context of large-scale urban flood modelling, porosity shallow-water models enab...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
This paper derives a novel formulation of the depth-averaged shallow water equations with anisotropi...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
Current topographic survey technology provides high-resolution (HR) datasets for urban environments....
In the world, floods are at the forefront of natural hazard. Urban areas are often at risk of floodi...
In the present work, a porosity-based numerical scheme for the Shallow Water Equations is presented....
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Detailed topographic data have become widely available for inundation mapping. While the use of such...
peer reviewedShallow-water models with porosity are used to compute floods at a relatively coarse re...