Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/3831
Title: Assessing the performance of green roofs for stormwater runoff mitigation in the South African urban environment
Authors: Sucheran, Reshma
Sucheran, Arisha 
Keywords: 1205 Urban and Regional Planning;Green roof;Stormwater management;Rainfall-runoff;Storm events;Peak flows;Retention rates
Issue Date: 31-Dec-2021
Publisher: Journal of Urban and Environmental Engineering
Source: Sucheran, R. and Sucheran, A. 2021. Assessing the performance of green roofs for stormwater runoff mitigation in the South African urban environment . Journal of Urban and Environmental Engineering. 15(2): 159-172. doi:10.4090/juee.2021.v15n2.159172
Journal: Journal of Urban and Environmental Engineering; Vol. 15, Issue 2 
Abstract: 
Rapid urbanization has altered the hydrologic cycle, causing increased runoff rates and
peak flows in the drainage system. Cities are now facing serious problems relating to
stormwater management such as water scarcity, degraded waterways, and increased
flooding. Under such circumstances, green roofs present numerous benefits including
the retention of rainwater for a longer time and a delay in the peak discharge. Using
data from various storm events, this study examined the performance of retrofitted
green roofs for stormwater management in the eThekwini region of South Africa. The
study also used the Personal Computer Storm Water Management Model (PCSWMM)
to investigate the effect that the best performing green roof would have on stormwater
flow rates and volumes for the region. The results concluded that the green roof
systems proved to significantly reduce stormwater runoff flow rates and volumes, and
retention largely depended on the intensity and duration of the rain events. The
PCSWMM model further confirmed that when compared to the base model, peak flow
rates from the green roof model decreased by over 40% for all storm intensities. It can
therefore be concluded that the implementation of green roofs within the eThekwini
Central Business District (CBD) will be highly effective in reducing peak stormwater
flow rates.
URI: https://hdl.handle.net/10321/3831
ISSN: 1982-3932 (Online)
DOI: 10.4090/juee.2021.v15n2.159172
Appears in Collections:Research Publications (Management Sciences)

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