Comportamento termico di una copertura innovativa a verde estensivo: monitoraggio di un campo-prove
Contributo in Atti di convegno
Data di Pubblicazione:
2023
Abstract:
The green roof is characterized by an interesting thermal behavior particularly in summer season, thanks to: its consistent mass and thickness, the presence of plants that use solar energy for their physiological functions, and the presence
of water. The green roof is “a cold surface”, unlike most of the constructed surfaces which, in summer, during the hottest hours of the day, can reach very high temperatures, above 50°C and even 60°C contributing to the urban heat island effect.
This research analyzes the temperatures of an innovative extensive green
roof during the hot season. The sample green roof – which is placed in the
Venice hinterland – is characterized by highly drought-resistant vegetation and
an intelligent irrigation system aimed at reducing the use of water. The tested
irrigation saves the water resource, accustoms plants to limit of their water-need,
and, as a consequence, reduces the biomass production. Monitoring the temperatures
of the support course helps to understand the links between vegetationsubstrate-
water with the climatic elements, in order to make the green roof
system more efficient.
of water. The green roof is “a cold surface”, unlike most of the constructed surfaces which, in summer, during the hottest hours of the day, can reach very high temperatures, above 50°C and even 60°C contributing to the urban heat island effect.
This research analyzes the temperatures of an innovative extensive green
roof during the hot season. The sample green roof – which is placed in the
Venice hinterland – is characterized by highly drought-resistant vegetation and
an intelligent irrigation system aimed at reducing the use of water. The tested
irrigation saves the water resource, accustoms plants to limit of their water-need,
and, as a consequence, reduces the biomass production. Monitoring the temperatures
of the support course helps to understand the links between vegetationsubstrate-
water with the climatic elements, in order to make the green roof
system more efficient.
Tipologia CRIS:
3.1 Contributo in atti di convegno
Keywords:
Soluzioni basate sulla natura, Coperture a verde, Efficienza energetica, Comfort in ambiente esterno
Nature-based Solutions, Green roofs, Energy efficiency, Outdoor comfort
Elenco autori:
Giacomello, Elena
Link alla scheda completa:
Link al Full Text:
Titolo del libro:
Le NbS-Nature-based Solutions per l’architettura e la città. L’approccio prestazionale alle tecnologie vegetate. Atti della conferenza 2023
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