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Optimizing Vegetation Configurations for Seasonal Thermal Comfort in Campus Courtyards: An ENVI-Met Study in Hot Summer and Cold Winter Climates

Hailu Qin, Bailing Zhou

2025Plants15 citationsDOIOpen Access PDF

Abstract

This study investigated the synergistic effects of vegetation configurations and microclimate factors on seasonal thermal comfort in a semi-enclosed university courtyard in Wuhan, located in China's Hot Summer and Cold Winter climate zone (Köppen: Cfa, humid subtropical). By adopting a field measurement-simulation-validation framework, spatial parameters and annual microclimate data were collected using laser distance meters and multifunctional environmental sensors. A validated ENVI-met model (grid resolution: 2 m × 2 m × 2 m, verified by field measurements for microclimate parameters) simulated 15 vegetation scenarios with varying planting patterns, evergreen-deciduous ratios (0-100%), and ground covers. The Physiological Equivalent Temperature (PET) index quantified thermal comfort improvements relative to the baseline. The optimal grid-based mixed planting configuration (40% evergreen trees + 60% deciduous trees) significantly improved winter thermal comfort by raising the PET from 9.24 °C to 15.42 °C (66.98% increase) through windbreak effects while maintaining summer thermal stability with only a 1.94% PET increase (34.60 °C to 35.27 °C) via enhanced transpiration and airflow regulation. This study provides actionable guidelines for climate-responsive courtyard design, emphasizing adaptive vegetation ratios and spatial geometry alignment.

Topics & Concepts

MicroclimateEvergreenEnvironmental scienceDeciduousVegetation (pathology)Thermal comfortAtmospheric sciencesMeteorologyClimatologyGeographyEcologyPathologyMedicineArchaeologyGeologyBiologyUrban Heat Island MitigationUrban Green Space and HealthBuilding Energy and Comfort Optimization