The Possibilities of Capturing Rainwater and Reducing the Impact of Floods: A Proposal for the City of Beira, Mozambique

Modern societies face various challenges, including climate change, rapid urbanization, and sometimes inadequate urban planning policies. In recent years, extreme weather events have received increasing attention for their impacts on cities, humans, and ecosystems worldwide, particularly on coastal...

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Bibliographic Details
Published in:Sustainability 2023-01, Vol.15 (3), p.2276
Main Authors: Santos, Michael M, Ferreira, Ana Vaz, Lanzinha, João C. G
Format: Article
Language:English
Subjects:
City planning
Climate change
Cyclones
Drainage patterns
Drainage systems
Drinking water
Engineering research
Environmental aspects
Extreme weather
Flood control
Floods
Municipal water supplies
Rain
Rain water
Rainwater recovery systems
Resilience
Stormwater
Stormwater management
Sustainable development
Urban planning
Urbanization
Water harvesting
Water pollution
Water quality
Water resources
Water scarcity
Water shortages
Water supply
Water use
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Summary:Modern societies face various challenges, including climate change, rapid urbanization, and sometimes inadequate urban planning policies. In recent years, extreme weather events have received increasing attention for their impacts on cities, humans, and ecosystems worldwide, particularly on coastal towns in Mozambique, such as cyclones, floods, water pollution, and water scarcity, demonstrating their vulnerability to climate change. Cities must adapt to cope with the pressure on their water resources, and it is essential to ensure that communities have access to safe, reliable, and affordable water. A viable way to promote this resilience and simultaneously reduce costs in domestic budgets is to use rainwater to meet daily needs where water quality parameters are not required for consumption. According to the results of this study, it is possible to significantly reduce potable water use from the municipal water supply network by harvesting rainwater, up to 40% when the use does not require potable water at all, proactively protecting this vital resource. In addition to these direct benefits, the large-scale deployment of rainwater harvesting (RWH) systems in densely urbanized areas can also provide indirect benefits, such as reducing peak flow volumes in stormwater drainage systems and potentially reducing the frequency of urban floods. These benefits result from the reduction in the volume and duration of water sent to the drainage network, which can help to improve the overall resilience of communities in the face of climate change and other challenges.
ISSN:2071-1050
2071-1050
DOI:10.3390/su15032276