Litcius/Paper detail

Numerical simulation of layout and landscape elements on the thermal environment of urban squares

Zetian Chu, Shengli Li, Tao Li, Huijuan Qian, Chuan Liu, Zihan Yan

2024Ecological Informatics16 citationsDOIOpen Access PDF

Abstract

Extreme urban heat poses significant challenges to the resilience and livability of cities. Urban squares are important open public spaces in cities, serving as main locations for residents' leisure and recreational activities and reflect the identity and cultural background of the cities. Improvement in thermal comfort in urban squares can improve the quality of the urban environment and help mitigate the urban heat island effect. This study developed 18 layout and landscape combination scenarios based on statistical analysis of data from 100 urban squares in regions with hot summers and cold winters. Further, the effectiveness of the proposed design solutions in improving the thermal environment was comprehensively analyzed. The results show that: 1) The block array layout with vegetation, water bodies, and permeable tiles is the most effective scenario, with a PET of 31.84 °C, approaching a comfortable level of heat stress; 2) Among the three layouts, the block array layout optimizes thermal comfort better than the main view entrance layout and main view center layout, and reduces physiological equivalent temperature by 10.51–10.77 °C compared with that of the other two layouts; 3) Scenarios incorporating water bodies provide better optimization effects than those with only trees, even when the total area covered by greenery remains unchanged; and 4) Permeable paving materials with high albedo more effectively improve the thermal comfort. Our results highlight a great potential of comprehensively using multiple landscape strategies to improve outdoor thermal comfort, and provides design basis for enhancing thermal comfort in similar sized urban squares in hot summer and cold winter areas. • Large amounts of data were collected to design more realistic square scenarios • The green layout has the greatest impact on the thermal comfort of the plaza, while the block array layout has the best effect. • In the case of the same green area, the effect of adding part of the water body is better than that of all trees. • The use of materials with water permeability and higher albedo for square paving, the better the thermal comfort effect.

Topics & Concepts

Computer scienceUrban landscapeUrban environmentComputer simulationThermalEnvironmental scienceGeographySimulationEnvironmental planningMeteorologyUrban Heat Island MitigationUrban Green Space and HealthArchitectural and Urban Studies