How Compositions of Landscape Elements Affect Outdoor Thermal Environments: Quantitative Study Along the Urban Riverside DOI Creative Commons
Zhaoxin Li, Jingyuan Zhao, Linrui Zhang

et al.

Land, Journal Year: 2025, Volume and Issue: 14(4), P. 687 - 687

Published: March 24, 2025

Riverside landscape belts are crucial for mitigating urban heat islands and enhancing esthetics. This study investigates the thermal environment effects of X21 configurations in riverside using field measurements numerical simulations. The physiologically equivalent temperature (PET) assesses human comfort variations. Main findings demonstrate that “enclosed tree–shrub–grass” configuration is most effective plant arrangement environment, with grassland identified as optimal underlying surface configuration. Moreover, PET reveals spaces provide greater during morning midday periods, while “shrub–grass” areas more suitable evening. research provides a theoretical framework empirical data planning design, significantly advancing optimization esthetic quality.

Language: Английский

How Compositions of Landscape Elements Affect Outdoor Thermal Environments: Quantitative Study Along the Urban Riverside DOI Creative Commons
Zhaoxin Li, Jingyuan Zhao, Linrui Zhang

et al.

Land, Journal Year: 2025, Volume and Issue: 14(4), P. 687 - 687

Published: March 24, 2025

Riverside landscape belts are crucial for mitigating urban heat islands and enhancing esthetics. This study investigates the thermal environment effects of X21 configurations in riverside using field measurements numerical simulations. The physiologically equivalent temperature (PET) assesses human comfort variations. Main findings demonstrate that “enclosed tree–shrub–grass” configuration is most effective plant arrangement environment, with grassland identified as optimal underlying surface configuration. Moreover, PET reveals spaces provide greater during morning midday periods, while “shrub–grass” areas more suitable evening. research provides a theoretical framework empirical data planning design, significantly advancing optimization esthetic quality.

Language: Английский

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