Influence of green roofs on the design of a public stormwater drainage system: a case study

In the face of excessive soil sealing and the occurrence of heavy rainfall in short time periods leading to flooding, it is becoming increasingly urgent to implement public resilient stormwater drainage systems. Green roofs have several advantages at different levels, of which this paper highlights...

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Veröffentlicht in:	Sustainability 2023-04, Vol.15 (7), p.5762
Hauptverfasser:	Silva, Flora, Calheiros, Cristina, Valle, Guilherme Zachalkiewicz do, Pinto, Pedro Miguel da Costa Gonçalves, Albuquerque, António, Antão- Geraldes, Ana Maria
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Sprache:	eng
Schlagworte:	Analysis Climate change Cost estimates Design and construction Drainage Drainage systems Flooding Floods Flow rates Flow velocity Green buildings Green design Green roofs Green roofs (Gardening) Hydraulics Hydrology Influence Infrastructure Maximum flow Public stormwater drainage system Rain Rain water Rainfall Roofs Runoff Runoff coefficient Storm sewers Stormwater Stormwater management Surface runoff Sustainability Sustainable design Sustainable urban drainage Urban areas Urban drainage Urban runoff
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creator	Silva, Flora Calheiros, Cristina Valle, Guilherme Zachalkiewicz do Pinto, Pedro Miguel da Costa Gonçalves Albuquerque, António Antão- Geraldes, Ana Maria
description	In the face of excessive soil sealing and the occurrence of heavy rainfall in short time periods leading to flooding, it is becoming increasingly urgent to implement public resilient stormwater drainage systems. Green roofs have several advantages at different levels, of which this paper highlights the ability to retain rainwater, to reduce problems with flooding in peaks of rainfall, and to increase in urban green infrastructure with all the benefits associated. In this sense, green roofs' impact on the design of a public stormwater drainage system and their implications for urban stormwater management was analyzed when compared with conventional roofs. If green roofs are used on the buildings in the study urban area, which has about 2.1 ha and is located in rainfall region B of Portugal, then the weighted average runoff coefficient (C-m) for the study area is 0.59. This scenario leads to a reduction in the maximum flow rate of 15.89% compared to the use of conventional roofs, with a C-m of 0.70 for the same area. Thus, the use of green roofs instead of conventional roofs can have positive impacts on the surface runoff in urban areas and contribute to more sustainable urban drainage.
doi_str_mv	10.3390/su15075762
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subjects	Analysis Climate change Cost estimates Design and construction Drainage Drainage systems Flooding Floods Flow rates Flow velocity Green buildings Green design Green roofs Green roofs (Gardening) Hydraulics Hydrology Influence Infrastructure Maximum flow Public stormwater drainage system Rain Rain water Rainfall Roofs Runoff Runoff coefficient Storm sewers Stormwater Stormwater management Surface runoff Sustainability Sustainable design Sustainable urban drainage Urban areas Urban drainage Urban runoff
title	Influence of green roofs on the design of a public stormwater drainage system: a case study
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