Radiative and heat storage properties of the urban fabric derived from analysis of surface forms
Résumé
Radiative balance and heat storage capacity modifications play a major role in urban heat
island formation. Urban shape determines the receipt and loss of radiation and consequently the
heat storage potential, thus resulting in a higher air temperature.
In order to analyze the interactions between climate and urban shape, the territory is
partitioned from the road network into elementary areas: the city blocks.
Nine geographical and two climatic indicators are computed at city block scale. The
geographical ones are produced thanks to OrbisGIS platform from geographical data supplied by
the French IGN. The first climatic indicator, the urban albedo, is computed from solar simulations
with Solene model on 230 city blocks to characterize the radiative balance. The second one, the air
temperature time shift, is calculated from three years of measurements between eight city blocks
and a reference sites to characterize the heat storage properties of the urban fabric.
Relationships between those climatic and geographical indicators are investigated using
linear regression analysis. Facade density is the geographical indicator which best explains both
radiative and heat storage properties at city block scale. From the relationships identified
previously and geographical data, climatic maps are produced to assess urban vulnerability to
climate change.
Origine | Fichiers produits par l'(les) auteur(s) |
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