The urban population growth, together with the contemporary deindustrialization of metropolitan areas, has resulted in a large amount of available land with new possible uses. It is well known that urban green areas provide several benefits in the surrounding environment, such as the improvement of thermal comfort conditions for the population during summer heat waves. The purpose of this study is to provide useful information on thermal regimes of urban soils to urban planners to be used during an urban transformation to mitigate surface temperatures and improve human thermal comfort. Field measurements of solar radiation, surface temperature (Ts), air temperature (Tair), relative humidity, and wind speed were collected on four types of urban soils and pavements in the city of Florence during summer 2014. Analysis of days under calm, clear-sky condition is reported. During daytime, sun-to-shadow differences for Tair, apparent temperature index (ATI), and Ts were significantly positive for all surfaces. Conversely, during nighttime, Tair differences among all surfaces were significantly negative, whereas ATI showed significantly positive differences. Moreover, Ts was significantly negative for grass and gravel. Relative to the shaded surfaces, Ts was higher on white gravel and grass than gray sandstone and asphalt during nighttime, whereas gray sandstone was always the warmest surface during daytime. Conversely, no differences were found during nighttime for ATI and Tair measured over surfaces that were exposed to sun during the day, whereas Ts showed higher values on gravel than grass and asphalt during nighttime. An exposed surface warms less if its albedo is high, leading to a significant reduction of Ts during daytime. These results underline the importance of considering the effects of surface characteristics on surface temperature and thermal comfort. This would be fundamental for addressing urban environment issues toward the heat island mitigation considering also the impact of urban renovation on microclimate.
Urban soil: assessing the impact of ground cover on air temperature, surface temperature and thermal comfort / Brandani, Giada; Napoli, Marco; Massetti, Luciano; Petralli, Martina; Orlandini, Simone. - In: JOURNAL OF ENVIRONMENTAL QUALITY. - ISSN 0047-2425. - STAMPA. - 45:(2016), pp. 90-96. [10.2134/jeq2014.12.0521]
Urban soil: assessing the impact of ground cover on air temperature, surface temperature and thermal comfort
BRANDANI, GIADA;NAPOLI, MARCO;PETRALLI, MARTINA;ORLANDINI, SIMONE
2016
Abstract
The urban population growth, together with the contemporary deindustrialization of metropolitan areas, has resulted in a large amount of available land with new possible uses. It is well known that urban green areas provide several benefits in the surrounding environment, such as the improvement of thermal comfort conditions for the population during summer heat waves. The purpose of this study is to provide useful information on thermal regimes of urban soils to urban planners to be used during an urban transformation to mitigate surface temperatures and improve human thermal comfort. Field measurements of solar radiation, surface temperature (Ts), air temperature (Tair), relative humidity, and wind speed were collected on four types of urban soils and pavements in the city of Florence during summer 2014. Analysis of days under calm, clear-sky condition is reported. During daytime, sun-to-shadow differences for Tair, apparent temperature index (ATI), and Ts were significantly positive for all surfaces. Conversely, during nighttime, Tair differences among all surfaces were significantly negative, whereas ATI showed significantly positive differences. Moreover, Ts was significantly negative for grass and gravel. Relative to the shaded surfaces, Ts was higher on white gravel and grass than gray sandstone and asphalt during nighttime, whereas gray sandstone was always the warmest surface during daytime. Conversely, no differences were found during nighttime for ATI and Tair measured over surfaces that were exposed to sun during the day, whereas Ts showed higher values on gravel than grass and asphalt during nighttime. An exposed surface warms less if its albedo is high, leading to a significant reduction of Ts during daytime. These results underline the importance of considering the effects of surface characteristics on surface temperature and thermal comfort. This would be fundamental for addressing urban environment issues toward the heat island mitigation considering also the impact of urban renovation on microclimate.File | Dimensione | Formato | |
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