Extensive Green Roofs: Different Time Approaches to Runoff Coefficient Determination

Monteiro, Cristina M.; Santos, Cristina; Castro, Paula M. L.

doi:10.3390/w15101852

Cited by 4 publications

(2 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Some researchers advocate a theoretical analysis of RHWS operations based on daily data, but this approach is not viable when daily data are not available, as is the case in the selected stations. In any case, other researchers suggest that, given the great variability currently observed in daily meteorological data, analysis based on monthly values is more appropriate, for example, for sizing cisterns in engineering designs [53].…”

Section: Methodsmentioning

confidence: 99%

The Feasibility of Rainwater Harvesting Systems in Buildings with Green Roofs: A Case Study Based on the Köppen Climate Classification

Pimentel-Rodrigues,

Silva-Afonso

2023

Sustainability

View full text Add to dashboard Cite

The construction of green roofs (GR) combined with rainwater harvesting systems (RWHSs) in buildings can increase the advantages of each of these technologies, being a very promising solution to combat climate change and increase the sustainability of cities. However, the viability of this joint solution significantly depends on local climatic conditions. The planet’s climate classification, known as the Köppen climate classification, is one of the most widely used climate classification systems. The Köppen climate classification divides climates into five main climate groups, with each group being referenced based on seasonal precipitation and temperature patterns. In the specific case of mainland Portugal, according to the Köppen classification, the climate is divided into two regions. In this article, case studies are developed for two Portuguese climatic regions, seeking to demonstrate the possibility of using the Köppen classification as a decision criterion for the eventual inclusion of rainwater harvesting systems in buildings with green roofs. For this study, the results of a previous study were applied, through which we obtained an expression to determine the runoff coefficients of green roofs common in Portugal, concluding that the Köppen climate classification can be used as a prior decision criterion regarding its incorporation or exclusion in rainwater harvesting system buildings combined with green roofs, depending on the location.

show abstract

Section: Methodsmentioning

confidence: 99%

The Feasibility of Rainwater Harvesting Systems in Buildings with Green Roofs: A Case Study Based on the Köppen Climate Classification

Pimentel-Rodrigues,

Silva-Afonso

2023

Sustainability

View full text Add to dashboard Cite

show abstract

“…The quality analysis of rainwater samples showed TSS concentrations of up to 7.54 mg/L, COD concentrations of up to 58.5 mg/L, and NH4 concentrations of up to 2.21 mg/L, which are in line with data reported in the literature. Monteiro et al (2023), Contribution #7, focused on the significance of establishing the runoff coefficient values in newly installed green roofs using feasible models able to simulate the retention behavior as realistically as possible and adjust to the season and climate region. They assessed the suitability of a previously developed model for the determination of runoff coefficient by using experimental data registered over a 1-year period.…”

Section: Overview Of the Special Issuementioning

confidence: 99%

New Advances in Rainwater Harvesting and Treatment

Raimondi,

Quinn,

Gnecco

et al. 2024

Water

View full text Add to dashboard Cite

show abstract

Rainwater Retention Test of Various Green Roofs: Influence on Membrane Temperatures and Evapotranspiration

Juráš

2023

Buildings

View full text Add to dashboard Cite

Green structures such as roofs or facades are great examples of ways to mitigate climate change, and they have multidisciplinary benefits. One of them is water retention during storms and high rainfalls. In this paper, the impact on the temperature of a membrane after excessive watering was investigated. The results of watered samples were compared to the non-watered ones. This test was carried out on five equal samples. The results showed that the actual foliage cover is very important. The worst results were obtained by the samples that did not have sufficient plant (foliage) cover. Notable differences in courses after watering reached up to 7 °C and lasted up to five days. Visible differences after watering were also exhibited by other samples. The type of drainage/retention layer also influenced the results, whereas the hard-profiled plastic board had high practical retention, which impacted temperatures over a long time period. The actual water content influenced and reduced the daily amplitude from 13 to 7 °C for at least five sunny days. This confirms the theoretical evapotranspiration calculations and actual water content in green roofs. In this case, the water content in the samples proves the cooling effect on the waterproofing membrane.

show abstract

Extensive Green Roofs: Different Time Approaches to Runoff Coefficient Determination

Cited by 4 publications

References 22 publications

The Feasibility of Rainwater Harvesting Systems in Buildings with Green Roofs: A Case Study Based on the Köppen Climate Classification

The Feasibility of Rainwater Harvesting Systems in Buildings with Green Roofs: A Case Study Based on the Köppen Climate Classification

New Advances in Rainwater Harvesting and Treatment

Rainwater Retention Test of Various Green Roofs: Influence on Membrane Temperatures and Evapotranspiration

Contact Info

Product

Resources

About