Teichmann, F., Horvath, A., Luisser, M., & Korjenic, A. (2022). The Impact of Small-Scale Greening on the Local Microclimate—A Case Study at Two School Buildings in Vienna. Sustainability, 14(20), Article 13089. https://doi.org/10.3390/su142013089
apparent temperature; building greenery; CFD simulation; living walls; urban heat island (UHI) mitigation; urban microclimate
en
Abstract:
Strategies to mitigate urban heat islands are a recent issue in the Austrian capital, Vienna. In this study, the uhiSolver-v2106-0.21 software was used to evaluate the summer cooling effects and humidity production of small-scale facade greening and a green pergola located in two schools within the city. Based on on-site measurement data, the study revealed that small-scale greening measures are not able to substantially reduce ambient air temperature. On a hot summer day, at 3 p.m. local time (CEST), the maximum decrease amounted to 0.3 °C at 0.1 m from the facade greening as well as inside the green pergola. As for the apparent (perceived) temperature, a reduction of up to 4 °C was observed under the green pergola compared to the unshaded roof terrace. Hence, the simulation results show that, within urban areas, a significant improvement of thermal comfort in summer can only be achieved through large-scale greenery that provides shade for pedestrians.