Flood Depth‒Damage Curves for Spanish Urban Areas

Martínez‐Gomariz, Eduardo; Forero-Ortiz, Edwar; Guerrero-Hidalga, María; Castán, Salvador; Gómez, Manuel

doi:10.3390/su12072666

Cited by 46 publications

(33 citation statements)

References 28 publications

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“…Regarding economic flood risk assessment in Barcelona, tangible direct and indirect damage were considered [28]. Specifically, tailored flood depth-damage curves were developed for the case of Barcelona [35,36] and used to feed a detailed damage model regarding properties and vehicles (the two most affected assets by pluvial floods in the city). The model was already successfully applied for the city of Badalona [30,37] and validated using insurance claims according to the data received from the Spanish public insurance company "Consorcio de Compensación de Seguros (CCS)" [28].…”

Section: Economic Flood Impacts Modelsmentioning

confidence: 99%

“…According to the developed methodology to estimate property damage, flow depths on the streets provided by the 1D/2D USM were properly reduced to achieve flood depths for properties using specific sealing coefficients, which were collected for 14 land uses in Barcelona [35,36]. As a second step, flood damages suffered by the properties were evaluated on the basis of tailored flood depth damage curves for all the 14 land uses; a detailed flood damage model was developed and validated in previous studies [28,30].…”

Section: Assessment Of Economic Impacts Produced By Pluvial Floodsmentioning

confidence: 99%

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Assessment of Urban Flood Resilience in Barcelona for Current and Future Scenarios. The RESCCUE Project

Russo

Velasco²,

Locatelli³

et al. 2020

Sustainability

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The results of recent climate projections for the city of Barcelona show a relevant increment of the maximum rainfall intensities for the period 2071–2100. Considering the city as a system of systems, urban resilience is strictly linked to the proper functioning of urban services and the knowledge of the cascading effects that may occur in the case of the failure of one or more critical infrastructures of a particular strategic sector. In this context, the aim of this paper is to assess urban resilience through the analysis of the behavior of the main urban services in case of pluvial floods for current and future rainfall conditions due to climate change. A comprehensive flood risk assessment including direct, indirect, tangible and intangible impacts has been performed using cutting edge sectorial and integrated models to analyze the resilience of different urban services (urban drainage, traffic, electric and waste sectors) and their cascade effects. In addition, the paper shows how the information generated by these models can be employed to feed a more holistic analysis to provide a general overview of the city’s resilience in the case of extreme rainfall events. According to the obtained results, Barcelona could suffer a significant increase of socio-economic impacts due to climate change if adaptation measures are not adopted. In several cases, these impacts have been geographically distributed showing the specific situation of each district of the city for current and future scenarios. This information is essential for the justification and prioritization of the implementation of adaptation measures.

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Section: Economic Flood Impacts Modelsmentioning

confidence: 99%

Section: Assessment Of Economic Impacts Produced By Pluvial Floodsmentioning

confidence: 99%

Assessment of Urban Flood Resilience in Barcelona for Current and Future Scenarios. The RESCCUE Project

Russo

Velasco²,

Locatelli³

et al. 2020

Sustainability

Self Cite

View full text Add to dashboard Cite

show abstract

“…This model relies on the accuracy of depth-damage curves that were constructed specifically for the city of Barcelona. These curves were developed based on damage claims of previous flood events together with the expert opinion when there was a lack of data [33]. Both models provided a total amount of direct economic damage for properties and vehicles that were aggregated per each return period.…”

Section: Technical Detailed Assessment: Risks Modelingmentioning

confidence: 99%

Methodology to Prioritize Climate Adaptation Measures in Urban Areas. Barcelona and Bristol Case Studies

et al. 2020

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In the current context of fast innovation in the field of urban resilience against extreme weather events, it is becoming more challenging for decision-makers to recognize the most beneficial adaptation measures for their cities. Detailed assessment of multiple measures is resource-consuming and requires specific expertise, which is not always available. To tackle these issues, in the context of the H2020 project RESCCUE (RESilience to cope with Climate Change in Urban arEas), a methodology to effectively prioritize adaptation measures against extreme rainfall-related hazards in urban areas has been developed. It follows a multi-phase structure to progressively narrow down the list of potential measures. It begins using less resource-intensive techniques, to finally focus on the in-depth analysis on a narrower selection of measures. It involves evaluation of risks, costs, and welfare impacts, with strong focus on stakeholders’ participation through the entire process. The methodology is adaptable to different contexts and objectives and has been tested in two case studies across Europe, namely Barcelona and Bristol.

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“…The focus herein is on the flood vulnerability of the building stock and the development of fragilities for use in modeling flood damage prediction at the community-level. Current flood-induced damage prediction for buildings typically relies on empirical [9][10][11][12][13][14][15][16][17] and synthetic stage-damage functions [18][19][20][21][22]. For example, the HAZards US (HAZUS) flood model, which is a leading flood risk analysis platform, uses deterministic stage-damage functions with a suite of 33 building archetypes to characterize community flood vulnerability [23].…”

Section: Introductionmentioning

confidence: 99%

“…Flood depth, flood velocity, and flood duration are considered the most important flood hazard characteristics causing the majority of buildings' structural and content damage [48,49]. Although flood depth is considered the main damaging flood hazard characteristic that has been widely used to assess flood damage in the literature [12,17,[50][51][52][53], the inclusion of other flood damaging characteristics would increase the accuracy of the flood damage model [54]. Flood damage from coastal flooding resulting from hurricanes and tsunamis has been extensively investigated in the literature in terms of developing fragility functions to model the impact of flood depth and flood velocity on buildings' structural systems [43,[55][56][57][58][59][60][61].…”

Section: Introductionmentioning

confidence: 99%

Minimal Building Flood Fragility and Loss Function Portfolio for Resilience Analysis at the Community Level

Nofal

Lindt

2020

Water

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Current flood vulnerability analyses rely on deterministic methods (e.g., stage–damage functions) to quantify resulting damage and losses to the built environment. While such approaches have been used extensively by communities, they do not enable the propagation of uncertainty into a risk- or resilience-informed decision process. In this paper, a method that allows the development of building fragility and building loss functions is articulated and applied to develop an archetype portfolio that can be used to model buildings in a typical community. The typical single-variable flood vulnerability function, normally based on flood depth, is extended to a multi-variate flood vulnerability function, which is a function of both flood depth and flood duration, thereby creating fragility surfaces. The portfolio presented herein consists of 15 building archetypes that can serve to populate a community-level model to predict damage and resulting functionality from a scenario flood event. The prediction of damage and functionality of buildings within a community is the first step in developing risk-informed mitigation decisions to improve community resilience.

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Flood Depth‒Damage Curves for Spanish Urban Areas

Cited by 46 publications

References 28 publications

Assessment of Urban Flood Resilience in Barcelona for Current and Future Scenarios. The RESCCUE Project

Assessment of Urban Flood Resilience in Barcelona for Current and Future Scenarios. The RESCCUE Project

Methodology to Prioritize Climate Adaptation Measures in Urban Areas. Barcelona and Bristol Case Studies

Minimal Building Flood Fragility and Loss Function Portfolio for Resilience Analysis at the Community Level

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