Two-dimensional shallow water models with porosity appear as an interesting path for the large-scale modelling of floodplains with urbanized areas. The porosity accounts for the reduction in storage and in the exchange sections due to the presence of buildings and other structures in the floodplain. The introduction of a porosity into the two-dimensional shallow water equations leads to modified expressions for the fluxes and source terms. An extra source term appears in the momentum equation. This paper presents a discretization of the modified fluxes using a modified HLL Riemann solver on unstructured grids. The source term arising from the gradients in the topography and in the porosity is treated in an upwind fashion so as to enhance th...
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...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
In the world, floods are at the forefront of natural hazard. Urban areas are often at risk of floodi...
Floodplains with urban areas have significant effects on inundation flows. Large-scale modelling of ...
AbstractIn this study, porosity was introduced into two-dimensional shallow water equations to refle...
Abstract. This paper presents two different numerical schemes to solve the depth averaged shallow wa...
A two-dimensional shallow-water model is presented for the simulation of urban floods. The concept o...
International audienceA two-dimensional shallow water model with depth-dependent porosity is present...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
International audienceWith floods becoming more severe and frequent due to climate change and growin...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
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...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
In the world, floods are at the forefront of natural hazard. Urban areas are often at risk of floodi...
Floodplains with urban areas have significant effects on inundation flows. Large-scale modelling of ...
AbstractIn this study, porosity was introduced into two-dimensional shallow water equations to refle...
Abstract. This paper presents two different numerical schemes to solve the depth averaged shallow wa...
A two-dimensional shallow-water model is presented for the simulation of urban floods. The concept o...
International audienceA two-dimensional shallow water model with depth-dependent porosity is present...
peer reviewedThe availability of high-resolution topographic data enables the modeling of urban floo...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
International audienceWith floods becoming more severe and frequent due to climate change and growin...
The shallow water model with anisotropic porosity conceptually takes into account the unresolved sub...
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...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...