小气候
植被(病理学)
城市热岛
环境科学
热舒适性
等效温度
白天
气象学
热的
大气科学
气候带
气候变化
城市气候
自然地理学
气候学
气象站
市区
空气温度
热应力
地理
平均辐射温度
城市气候学
气候模式
城市规划
水文学(农业)
作者
Anna Codemo,Gianluca Maracchini,Sara Favargiotti,Rossano Albatici
标识
DOI:10.1016/j.scs.2026.107357
摘要
• Outdoor Thermal Comfort is investigated in four neighbourhoods of the alpine city of Trento • During daytime PET variations are significant across LCZs and within the areas. • The workflow combines ENVI-met simulations with morphed data with UWG • Existing layouts are not resilient to projected future climate change • The role of urban geometry and vegetation on microclimate is investigated Urban areas are unprecedentedly under pressure due to global warming, heatwaves and the urban heat island effect. As thermal stress increases, the evaluation of thermal comfort across the city is crucial to design climate resilient spaces. However, few studies investigate microclimate variations across several areas in the city to understand the influence of geometry and vegetation. This study investigates the role of urban geometry and vegetation in improving pedestrian thermal comfort in Trento, an alpine city in north-eastern Italy. Four neighbourhoods identified by different Local Climate Zones are selected for the analysis. To determine summer outdoor thermal comfort, microclimate parameters and the physiologically equivalent temperature (PET) are calculated through a workflow combining the Urban Weather Generator (UWG) tool and ENVI-met considering the existing spatial configuration of the neighbourhoods in present and future projected climatic contexts. A 24-hour simulation is performed for a hot day and validated through micrometeorological measurements conducted in July 2024. The results show the variations in thermal stress between LCZs and within the areas. While compact areas show higher temperatures during the night, during daytime they have lower values of thermal stress due to shade. Shade provided by geometry seems to have more influence than the effect of vegetation in improving comfort. The proposed workflow starting from a single climate dataset processed with UWG to represent the study areas facilitates the assessment of multiple areas. The results contribute to a better understanding of microclimates in urban areas and of the impact of climate change, vegetation and geometry on heat stress.
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