Large-scale flood risk assessment using a coupled model chain

Large-scale flood risk assessment using a coupled model chain

Large-scale flood risk assessments are needed for a number of purposes, such as national strategic planning or re-insurance purposes. However, large-scale assessments are typically limited to hazard assessment and/or they are pieced together from smaller-scale assessments, leading to spatially incon...

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Main Authors: Merz Bruno, Apel Heiko, Dung Nguyen Viet, Falter Daniela, Hundecha Yeshewatesfa, Kreibich Heidi, Schröter Kai, Vorogushyn Sergiy
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:E3S Web of Conferences
Online Access:http://dx.doi.org/10.1051/e3sconf/20160711005
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spelling doaj-ac2ba5f46ea24761aa0456061dbc0c2e2021-04-02T10:42:56ZengEDP SciencesE3S Web of Conferences2267-12422016-01-0171100510.1051/e3sconf/20160711005e3sconf_flood2016_11005Large-scale flood risk assessment using a coupled model chainMerz Bruno0Apel Heiko1Dung Nguyen Viet2Falter Daniela3Hundecha Yeshewatesfa4Kreibich Heidi5Schröter Kai6Vorogushyn Sergiy7GFZ German Research Centre for Geosciences, TelegrafenbergGFZ German Research Centre for Geosciences, TelegrafenbergGFZ German Research Centre for Geosciences, TelegrafenbergGFZ German Research Centre for Geosciences, TelegrafenbergSwedish Meteorological and Hydrological InstituteGFZ German Research Centre for Geosciences, TelegrafenbergGFZ German Research Centre for Geosciences, TelegrafenbergGFZ German Research Centre for Geosciences, TelegrafenbergLarge-scale flood risk assessments are needed for a number of purposes, such as national strategic planning or re-insurance purposes. However, large-scale assessments are typically limited to hazard assessment and/or they are pieced together from smaller-scale assessments, leading to spatially inconsistent hazard and risk estimates. We present the coupled model chain RFM (Regional Flood Model) which is able to derive spatially consistent hazard and risk estimates for large scales (several 100,000 km2). It consists of a hydrological model, a coupled 1D–2D hydrodynamic model and a flood loss model. This model chain can be driven by observed meteorology, output from regional climate models or a weather generator. In this application, we demonstrate for river basins in Germany that this approach is able to provide spatially consistent large-scale patterns of hazard and risk. A multi-site, multi-variate weather generator provides 10,000 years of spatially consistent weather at daily resolution which is used as input for the model chain. This approach allows deriving discharge, inundation and damage patterns which respect spatial interactions within and beyond catchment boundaries.http://dx.doi.org/10.1051/e3sconf/20160711005
collection DOAJ
language English
format Article
sources DOAJ
author Merz Bruno
Apel Heiko
Dung Nguyen Viet
Falter Daniela
Hundecha Yeshewatesfa
Kreibich Heidi
Schröter Kai
Vorogushyn Sergiy
spellingShingle Merz Bruno
Apel Heiko
Dung Nguyen Viet
Falter Daniela
Hundecha Yeshewatesfa
Kreibich Heidi
Schröter Kai
Vorogushyn Sergiy
Large-scale flood risk assessment using a coupled model chain
E3S Web of Conferences
author_facet Merz Bruno
Apel Heiko
Dung Nguyen Viet
Falter Daniela
Hundecha Yeshewatesfa
Kreibich Heidi
Schröter Kai
Vorogushyn Sergiy
author_sort Merz Bruno
title Large-scale flood risk assessment using a coupled model chain
title_short Large-scale flood risk assessment using a coupled model chain
title_full Large-scale flood risk assessment using a coupled model chain
title_fullStr Large-scale flood risk assessment using a coupled model chain
title_full_unstemmed Large-scale flood risk assessment using a coupled model chain
title_sort large-scale flood risk assessment using a coupled model chain
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2016-01-01
description Large-scale flood risk assessments are needed for a number of purposes, such as national strategic planning or re-insurance purposes. However, large-scale assessments are typically limited to hazard assessment and/or they are pieced together from smaller-scale assessments, leading to spatially inconsistent hazard and risk estimates. We present the coupled model chain RFM (Regional Flood Model) which is able to derive spatially consistent hazard and risk estimates for large scales (several 100,000 km2). It consists of a hydrological model, a coupled 1D–2D hydrodynamic model and a flood loss model. This model chain can be driven by observed meteorology, output from regional climate models or a weather generator. In this application, we demonstrate for river basins in Germany that this approach is able to provide spatially consistent large-scale patterns of hazard and risk. A multi-site, multi-variate weather generator provides 10,000 years of spatially consistent weather at daily resolution which is used as input for the model chain. This approach allows deriving discharge, inundation and damage patterns which respect spatial interactions within and beyond catchment boundaries.
url http://dx.doi.org/10.1051/e3sconf/20160711005
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AT falterdaniela largescalefloodriskassessmentusingacoupledmodelchain
AT hundechayeshewatesfa largescalefloodriskassessmentusingacoupledmodelchain
AT kreibichheidi largescalefloodriskassessmentusingacoupledmodelchain
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AT vorogushynsergiy largescalefloodriskassessmentusingacoupledmodelchain
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