In porosity models for urban flooding, artificial porosity is used as a statistical descriptor of the urban medium. Buildings are treated as subgrid-scale features and, even with the use of relatively coarse grids, their effects on the flow are accounted for. Porosity models are attractive for large-scale applications due to limited computational demand with respect to solving the classical Shallow Water Equations on high-resolution grids. In the last decade, effective schemes have been developed that allowed accounting for a wealth of sub-grid processes; unfortunately, they are known to suffer from over-sensitivity to mesh design in the case of anisotropic porosity fields, which are typical of urban layouts. In the present study, a dual po...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Porosity-based model rely on the assumption that an urban area can be compared to a porous medium, w...
A novel differential porosity model for urban flooding, namely the Binary Single Porosity model (BSP...
Artificial porosity models for urban flooding use porosity as a statistical descriptor for the prese...
In the framework of porosity models for large-scale urban floods, this work presents a method to com...
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 ...
In the framework of porosity models for urban floods, this work presents a method to compute the spa...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
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...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
Floods are natural disasters that can have huge economical consequences and affect an increasing num...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Porosity-based model rely on the assumption that an urban area can be compared to a porous medium, w...
A novel differential porosity model for urban flooding, namely the Binary Single Porosity model (BSP...
Artificial porosity models for urban flooding use porosity as a statistical descriptor for the prese...
In the framework of porosity models for large-scale urban floods, this work presents a method to com...
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 ...
In the framework of porosity models for urban floods, this work presents a method to compute the spa...
International audiencePorous shallow-water models (porosity models) simulate urban flood flows order...
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...
When modeling large-scale urban floods, the use of porosity non-linear shallow water equations (PNSW...
Floods are natural disasters that can have huge economical consequences and affect an increasing num...
International audienceWith CPU times 2 to 3 orders of magnitude smaller than classical shallow water...
Porosity-based model rely on the assumption that an urban area can be compared to a porous medium, w...
A novel differential porosity model for urban flooding, namely the Binary Single Porosity model (BSP...