The potential of facade greening in mitigating the effects of heatwaves in Central European cities

The potential of facade greening in mitigating the effects of heatwaves in Central European cities

This study investigates the potential of living walls in improving the climatic quality in the urban environment. To achieve this goal, numerical simulations using the urban microclimate modelling tool ENVI-met were conducted to analyse the distribution of air temperature, mean radiant temperature (...

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Bibliographic Details
Published in:Building and environment Vol. 216; p. 109021
Main Authors: Alsaad, Hayder, Hartmann, Maria, Hilbel, Rebecca, Voelker, Conrad
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 15-05-2022
Elsevier BV
Subjects:
Air flow
Air temperature
Buildings
ENVI-met
Facades
Foliage
Green facade
Greening
Humidity
Living wall
Mathematical models
Microclimate
Relative humidity
Residential areas
Simulation
Urban environments
Urban heat island
Validation
Wind
Wind speed
Germany
Validation
ENVI-met
Green facade
Urban heat island
Living wall
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Summary:This study investigates the potential of living walls in improving the climatic quality in the urban environment. To achieve this goal, numerical simulations using the urban microclimate modelling tool ENVI-met were conducted to analyse the distribution of air temperature, mean radiant temperature (MRT), relative humidity, and wind speed in a residential block in Stuttgart, Germany. The impact of the living wall on the interior air temperature was investigated as well. Before the simulations were conducted, the model was first validated against measured data collected in Weimar, Germany. The validation showed a fairly good agreement between the measured and simulated air temperature, MRT, relative humidity, and wind speed with an averaged respective mean absolute error (MAE) of 0.72 K, 2.67 K, 3.98%, and 0.30 m/s. The simulation of the residential area in Stuttgart indicated that facade greening has only a little impact on air temperature (−0.57 K). Yet, a reduced MRT by up to 3.04 K and a reduced interior air temperature by up to 3.8 K were observed. The living wall also had an impact on the relative humidity among the buildings, which was increased by a maximum of 5.07%. Only a marginal impact on airflow between buildings was observed when facade greening was implemented. Yet, air velocity directly in front of the foliage was reduced by an average of 0.25 m/s. •The validation showed fairly good agreement between measured and simulated values.•The living wall resulted in a slight reduction of outdoor air temperature.•Facade greening reduced outdoor MRT and indoor temperature significantly.•Facade greening presents a good potential to combat the effects of heatwaves.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2022.109021