Urban Flood Risk and Economic Viability Analyses of a Smart Sustainable Drainage System

Urban drainage systems are in transition from functioning simply as a transport system to becoming an important element of urban flood protection measures providing considerable influence on urban infrastructure sustainability. Rapid urbanization combined with the implications of climate change is o...

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Veröffentlicht in:	Sustainability 2021-12, Vol.13 (24), p.13889
Hauptverfasser:	Ramos, Helena M., Besharat, Mohsen
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Sprache:	eng
Schlagworte:	Carbon Climate change Computer applications Cost analysis Detention basins Drainage systems Estuaries Flood management Flood protection Floods Land use Methods Mitigation Partial differential equations Population Precipitation Rain Risk analysis Runoff Security Stormwater management Surface water Sustainability Tidal waves Transportation systems Urban areas Urban drainage Urbanization Water management Water quality Water security Water shortages
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creator	Ramos, Helena M. Besharat, Mohsen
description	Urban drainage systems are in transition from functioning simply as a transport system to becoming an important element of urban flood protection measures providing considerable influence on urban infrastructure sustainability. Rapid urbanization combined with the implications of climate change is one of the major emerging challenges. The increased concerns with water security and the ageing of existing drainage infrastructure are new challenges in improving urban water management. This study carried out in the Seixal area in Portugal examines flood risk analyses and mitigation techniques performed by computational modelling using MIKE SHE from the Danish Hydraulic Institute (DHI). Several scenarios were compared regarding flood risk and sustainable urban drainage systems (SuDS) efficiency. To obtain a more accurate analysis, the economic viability of each technique was analyzed as well through (i) life cost analysis and (ii) taking into account the damages caused by a certain type of flood. The results present that the best scenario is the one that will minimize the effects of great urbanization and consequently the flood risk, which combines two different measures: permeable pavement and detention basin. This alternative allows us to fully explore the mitigation capacity of each viable technique, demonstrating a very important improvement in the flood mitigation system in Seixal.
doi_str_mv	10.3390/su132413889
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subjects	Carbon Climate change Computer applications Cost analysis Detention basins Drainage systems Estuaries Flood management Flood protection Floods Land use Methods Mitigation Partial differential equations Population Precipitation Rain Risk analysis Runoff Security Stormwater management Surface water Sustainability Tidal waves Transportation systems Urban areas Urban drainage Urbanization Water management Water quality Water security Water shortages
title	Urban Flood Risk and Economic Viability Analyses of a Smart Sustainable Drainage System
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