Climate changes and urbanization are the main causes of the urban heat island. Defined as the air temperature rising in the urban areas despite of the rural ones, it amplifies the global warming phenomenon. The absence of green areas, open water and free unsurfaced spaces creates a sort of urban cap and a heat reflection effect, from the bottom upwards, which persists in the early hours of the night. This paper aims to investigate different technical solutions to mitigate the microclimatic conditions and to improve the thermal comfort of the citizens of a densely populated Roman area: Mirti square in the Centocelle district. This area is a good describer of the local urban heat island, because it shows a high density of buildings, a lack of vegetation and an absence of water sources like fountains. So, this area has a high thermal stress and the high presence of people raises the benefits of the mitigation techniques chosen for Mirti square. A numerical model was developed thought ENVI-met in order to assess the effects of the mitigation techniques in terms of air temperature decrease. The main techniques considered are the implementation of the urban vegetation, the use of cool pavements, the use of a canopy and the use of water stretch. Experimental data such as air temperature and relative humidity were collected in order to set up the boundary conditions and to calibrate the numerical model.

Battista, G., de Lieto Vollaro, R., Zinzi, M. (2019). Assessment of urban overheating mitigation strategies in a square in Rome, Italy. SOLAR ENERGY, 180, 608-621 [10.1016/j.solener.2019.01.074].

Assessment of urban overheating mitigation strategies in a square in Rome, Italy

Battista G.;de Lieto Vollaro R.;Zinzi M.
2019-01-01

Abstract

Climate changes and urbanization are the main causes of the urban heat island. Defined as the air temperature rising in the urban areas despite of the rural ones, it amplifies the global warming phenomenon. The absence of green areas, open water and free unsurfaced spaces creates a sort of urban cap and a heat reflection effect, from the bottom upwards, which persists in the early hours of the night. This paper aims to investigate different technical solutions to mitigate the microclimatic conditions and to improve the thermal comfort of the citizens of a densely populated Roman area: Mirti square in the Centocelle district. This area is a good describer of the local urban heat island, because it shows a high density of buildings, a lack of vegetation and an absence of water sources like fountains. So, this area has a high thermal stress and the high presence of people raises the benefits of the mitigation techniques chosen for Mirti square. A numerical model was developed thought ENVI-met in order to assess the effects of the mitigation techniques in terms of air temperature decrease. The main techniques considered are the implementation of the urban vegetation, the use of cool pavements, the use of a canopy and the use of water stretch. Experimental data such as air temperature and relative humidity were collected in order to set up the boundary conditions and to calibrate the numerical model.
2019
Battista, G., de Lieto Vollaro, R., Zinzi, M. (2019). Assessment of urban overheating mitigation strategies in a square in Rome, Italy. SOLAR ENERGY, 180, 608-621 [10.1016/j.solener.2019.01.074].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/439152
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