The Impact of Façade Orientation and Woody Vegetation on Summertime Heat Stress Patterns in a Central European Square: Comparison of Radiation Measurements and Simulations

Increasing summertime air temperature deteriorates human health especially in cities where the warming tendency is exacerbated by urban heat island. Human-biometeorological studies shed light on the primary role of radiation conditions in the development of summertime heat stress. However, only a li...

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Bibliographic Details
Published in:Advances in meteorology 2018-01, Vol.2018 (2018), p.1-15
Main Authors: Unger, János, Gulyás, Ágnes, Gál, Csilla Viktória, Kántor, Noémi
Format: Article
Language:English
Subjects:
Adaptation
Air pollution
Air temperature
Biometeorology
Buildings
Cities
Climate change
Computer simulation
Design
Ecosystems
Energi och samhällsbyggnad
Energy and Built Environments
Field tests
Geography
Heat
Heat stress
Heat tolerance
Landscape architecture
Measurement
Measurement techniques
Modelling
Orientation
Outdoor air quality
Precipitation
Radiation
Radiation measurement
Shading
Shading devices
Software
Trees
Urban areas
Urban climatology
Urban heat islands
Vegetation
Walkways
Woody plants
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Summary:Increasing summertime air temperature deteriorates human health especially in cities where the warming tendency is exacerbated by urban heat island. Human-biometeorological studies shed light on the primary role of radiation conditions in the development of summertime heat stress. However, only a limited number of field investigations have been conducted up to now. Based on a 26-hour long complex radiation measurement, this study presents the evolved differences within a medium-sized rectangular square in Szeged, Hungary. Besides assessing the impact of woody vegetation and façade orientation on the radiation heat load, different modeling software programs (ENVI-met, SOLWEIG, and RayMan) are evaluated in reproducing mean radiant temperature (Tmrt). Although daytime Tmrt can reach an extreme level at exposed locations (65–75°C), mature shade trees can reduce it to 30–35°C. Nevertheless, shading from buildings adjacent to sidewalks plays also an important role in mitigating pedestrian heat stress. Sidewalks facing SE, S, and SW do not benefit from the shading effect of buildings; therefore, shading them by trees or artificial shading devices is of high importance. The measurement–model comparison revealed smaller or larger discrepancies that raise awareness of the careful adaptation of any modeling software and of the relevance of fine-resolution field measurements.
ISSN:1687-9309
1687-9317
1687-9317
DOI:10.1155/2018/2650642