Litcius/Paper detail

Modelling and assessment of sustainable urban drainage systems in dense precarious settlements subject to flash floods

Luma Gabriela Fonseca Alves, Carlos de Oliveira Galvão, Bervylly Lianne de Farias Santos, E. Oliveira, Demóstenes Andrade de Moraes

2022LHB14 citationsDOIOpen Access PDF

Abstract

In developing countries, dense, precarious and informal settlements are common. In the tropics, the occurrence of intense rainfall and the increased impervious surfaces have led to disastrous flash floods. Sustainable urban drainage systems (SUDS) are an alternative to enhance stormwater management and runoff control, providing benefits related to social and environmental domains. This study aims to ground the development of procedures for SUDS implementation to mitigate flooding, and to maximize urban benefits. We present a modelling framework of SUDS implementation, using the Storm Water Management Model (SWMM) to simulate various SUDS scenarios. An application to a small catchment in Brazil considered permeable pavements, bioretention systems, infiltration trenches and rainwater harvesting systems, introduced in both public and private areas. The results demonstrate that SUDS implemented in public spaces, although they may increase access to public facilities, do not completely avoid flooding in the denser parts of the catchment. In such cases, measures must be implemented in private lots due to the reduced amount of available public spaces. Such evidence shows that one of the key elements for flash flood management in consolidated dense and precarious urban settlements is the integration of SUDS measures with the engagement of local inhabitants in decision-making.

Topics & Concepts

Rainwater harvestingFlash floodImpervious surfaceHuman settlementEnvironmental planningFlooding (psychology)Surface runoffDrainageStormwaterEnvironmental scienceLow-impact developmentMetropolitan areaWater resource managementDrainage system (geomorphology)Flood mythEnvironmental resource managementGeographyStormwater managementArchaeologyPsychologyEcologyPsychotherapistBiologyUrban Stormwater Management SolutionsFlood Risk Assessment and ManagementUrban Heat Island Mitigation