Interactions between subgrid-scale resolution, feature representation and grid-scale resolution in flood inundation modelling
Détails
ID Serval
serval:BIB_238B58957821
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Interactions between subgrid-scale resolution, feature representation and grid-scale resolution in flood inundation modelling
Périodique
Hydrological Processes
ISSN-L
0885-6087
Statut éditorial
Publié
Date de publication
2011
Volume
25
Numéro
1
Pages
36-53
Langue
anglais
Notes
ISI:000286282300003
Résumé
Numerical modelling of flood inundation over large and complex
floodplains often requires mesh resolutions coarser than the structural
features (e. g. buildings) that are known to influence the inundation
process. Recent research has shown that this mismatch is not well
represented by conventional roughness treatments, but that finer-scale
features can be represented through porosity-based subgrid-scale
treatments. This paper develops this work by testing the interactions
between feature representation, subgrid-scale resolution and mesh
resolution. It uses as the basis for this testing a 2D diffusion-based
flood inundation model which is applied to a 2004 flood event in a
topologically complex upland floodplain in northern England. This study
formulated simulations with different grid mesh resolution and subgrid
mesh ratio. The sensitivity of the model to mesh resolution and
roughness specification was investigated. Model validation and
verification suggest that the subgrid treatment with higher subgrid mesh
ratio can give much improved predictions of flood propagation, in
particular, in terms of the predicted water depth. This study also
highlighted the limitation of using at-a-point in time inundation extent
for validation of flood models of this type. Copyright (C) 2010 John
Wiley & Sons, Ltd.
floodplains often requires mesh resolutions coarser than the structural
features (e. g. buildings) that are known to influence the inundation
process. Recent research has shown that this mismatch is not well
represented by conventional roughness treatments, but that finer-scale
features can be represented through porosity-based subgrid-scale
treatments. This paper develops this work by testing the interactions
between feature representation, subgrid-scale resolution and mesh
resolution. It uses as the basis for this testing a 2D diffusion-based
flood inundation model which is applied to a 2004 flood event in a
topologically complex upland floodplain in northern England. This study
formulated simulations with different grid mesh resolution and subgrid
mesh ratio. The sensitivity of the model to mesh resolution and
roughness specification was investigated. Model validation and
verification suggest that the subgrid treatment with higher subgrid mesh
ratio can give much improved predictions of flood propagation, in
particular, in terms of the predicted water depth. This study also
highlighted the limitation of using at-a-point in time inundation extent
for validation of flood models of this type. Copyright (C) 2010 John
Wiley & Sons, Ltd.
Création de la notice
05/03/2012 11:21
Dernière modification de la notice
20/08/2019 14:01
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