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Thermal comfort in urban spaces: impact of vegetation growth

Case study: Piazza della Scienza, Milan, Italy

Picot, X.

AbstractThis paper reports on a study on the evolutionary impact of vegetation in a newly built square in Milan designed by V. Gregotti. The aim of the work is to evaluate the impact of vegetation growth on users’ comfort. The methodology adopted involves: sets of field measures (air and radiant temperature, wind velocity and relative humidity); a simplified thermal comfort evaluation with the energy budget method COMFA; and a scenario for the vegetation growth. When trees become adult we can observe different phenomena. The shading effect under an aged tree canopy clearly shows a reduction of the absorbed radiation by users, generating an energy budget very close to comfort (under 50W/m²) even with a high air temperature. In the case of points exposed to direct sunlight all day long, tree growth reveals two phenomena of the global radiation absorbed by a user: (1) reduction, by the tree screening effect, of absorption of the diffuse solar global radiation, and (2) increase, by the elevation of the objects viewed in the sky hemisphere, in absorption of the terrestrial radiation.

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Thermal comfort in urban spaces: impact of vegetation growth

Case study: Piazza della Scienza, Milan, Italy

Picot, X.

AbstractThis paper reports on a study on the evolutionary impact of vegetation in a newly built square in Milan designed by V. Gregotti. The aim of the work is to evaluate the impact of vegetation growth on users’ comfort. The methodology adopted involves: sets of field measures (air and radiant temperature, wind velocity and relative humidity); a simplified thermal comfort evaluation with the energy budget method COMFA; and a scenario for the vegetation growth. When trees become adult we can observe different phenomena. The shading effect under an aged tree canopy clearly shows a reduction of the absorbed radiation by users, generating an energy budget very close to comfort (under 50W/m²) even with a high air temperature. In the case of points exposed to direct sunlight all day long, tree growth reveals two phenomena of the global radiation absorbed by a user: (1) reduction, by the tree screening effect, of absorption of the diffuse solar global radiation, and (2) increase, by the elevation of the objects viewed in the sky hemisphere, in absorption of the terrestrial radiation.

Thermal comfort in urban spaces: impact of vegetation growth

Case study: Piazza della Scienza, Milan, Italy

Picot, X.

AbstractThis paper reports on a study on the evolutionary impact of vegetation in a newly built square in Milan designed by V. Gregotti. The aim of the work is to evaluate the impact of vegetation growth on users’ comfort. The methodology adopted involves: sets of field measures (air and radiant temperature, wind velocity and relative humidity); a simplified thermal comfort evaluation with the energy budget method COMFA; and a scenario for the vegetation growth. When trees become adult we can observe different phenomena. The shading effect under an aged tree canopy clearly shows a reduction of the absorbed radiation by users, generating an energy budget very close to comfort (under 50W/m²) even with a high air temperature. In the case of points exposed to direct sunlight all day long, tree growth reveals two phenomena of the global radiation absorbed by a user: (1) reduction, by the tree screening effect, of absorption of the diffuse solar global radiation, and (2) increase, by the elevation of the objects viewed in the sky hemisphere, in absorption of the terrestrial radiation.

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Title:

Thermal comfort in urban spaces: impact of vegetation growth

Subtitle:

Case study: Piazza della Scienza, Milan, Italy

Contributors:

Picot, X. (author)

Published in:

Energy and Buildings ; 36 ; 329-334

Publication date:

2004-01-01

Size:

6 pages

ISSN:

DOI:

https://doi.org/10.1016/j.enbuild.2004.01.044

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Thermal comfort , Urban spaces , Vegetation growth

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