A pavement-watering thermal model for SOLENE-microclimat: development and evaluation
AZAM ; BERNARD ; MORILLE ; MUSY ; ANDRIEU
Type de document
ARTICLE A COMITE DE LECTURE REPERTORIE DANS BDI (ACL)
Langue
anglais
Auteur
AZAM ; BERNARD ; MORILLE ; MUSY ; ANDRIEU
Résumé / Abstract
In a dense urban area, pavement watering could be a solution to mitigate the Urban Heat Island. For now, mainly experimental studies have been used to evaluate watering techniques. In this study, a soil model dedicated to pavement watering has been developed within the urban climate model SOLENE-Microclimat. This watering model is presented and evaluated via a measurement campaign performed on an asphalt car park during hot days. The measurements campaign reveals that the surface cooling is mainly due to evaporation (80%). However, under warm conditions, the heat flux exchanged between the runoff water and the surface should also be modelled. Indeed, watering events are modelled through a runoff convective heat flux and a latent heat flux. The mean daily RMSE between estimated and observed surface temperature is 1.04 °C, 0.86 °C, 0.66 °C, 0.35 °C and 0.21 °C.
Source
Urban Climate, pp. 22-36 p.
Editeur
Elsevier