论文信息 - Index-based Approach to Evaluate City Resilience in Flooding Scenarios

Index-based Approach to Evaluate City Resilience in Flooding Scenarios

Intense rainfall events combined with high tide levels frequently result in urban floods in riverine or coastal cities. Their increasing variability and uncertainty demand urgent but sustained responses. Thus, resilience-driven approaches are emerging in contrast to the traditional technical-economic frameworks, as urban resilience reflects the overall capacity of a city to survive, adapt and thrive when experiencing stresses and shocks. This paper presents a simplified index-based methodology for the evaluation and quantification of urban resilience to flooding, based on the works developed in the EU H2020 RESCCUE project. A set of five indicators are proposed to compute the Integrated Urban Resilience Index (IURI), allowing to classify resilience according to a proposed range of rankings. This methodology considers simultaneously a multisectoral approach, reflecting services interdependences, and a sectorial approach, applying 1D/2D computational modelling of the urban drainage network. It was applied to the study case of Lisbon downtown, involving the analysis of interdependencies between 124 infrastructures of 10 urban services. Two scenarios were considered, respecting the current and future situations, considering climate changes. Results enhance the usefulness, practicability, and potential of the proposed approach, and improvement opportunities were also identified for future developments. Doi: 10.28991/cej-2021-03091647 Full Text: PDF

[1] Kegong Diao,et al. Multiscale Resilience in Water Distribution and Drainage Systems , 2020, Water.

[2] Patricia Torres-Lozada,et al. Identification of resilience factors, variables and indicators for sustainable management of urban drainage systems , 2017 .

[3] Un Desa. Transforming our world : The 2030 Agenda for Sustainable Development , 2016 .

[4] Siyu Zeng,et al. Enhancing future resilience in urban drainage system: Green versus grey infrastructure. , 2017, Water research.

[5] Marco Morais,et al. Urban Resilience to Flooding: Triangulation of Methods for Hazard Identification in Urban Areas , 2020, Sustainability.

[6] B. Russo,et al. Methodology to Prioritize Climate Adaptation Measures in Urban Areas. Barcelona and Bristol Case Studies , 2020, Sustainability.

[7] M. Telhado,et al. RAF Resilience Assessment Framework—A Tool to Support Cities’ Action Planning , 2020, Sustainability.

[8] M. Almeida,et al. Approach to develop a climate change resilience assessment framework , 2020 .

[10] Assed Haddad,et al. A Framework to Evaluate Urban Flood Resilience of Design Alternatives for Flood Defence Considering Future Adverse Scenarios , 2019, Water.