Traditional villages in the Jiangnan region have experienced significant spatial transformation under rural revitalization, yet thermal environment regulation in public spaces remains insufficiently addressed. This study examines how spatial morphology influences microclimate and outdoor thermal comfort during summer and proposes evidence-based climate-responsive strategies. Three representative provincial-level traditional villages in Wuxi—Yaogeli Village, Zhu Village, and Huangtutang Ancient Village Area—were selected as case studies. Public spaces were classified into open, semi-open, and semi-private types according to spatial openness. Field microclimate measurements and thermal comfort surveys were conducted, and Physiological Equivalent Temperature (PET) was calculated to evaluate thermal conditions. Results show that rural public spaces generally experience significant summer heat stress, with PET exceeding the neutral range during most daytime periods. Spatial openness is significantly positively correlated with PET, identifying solar radiation as the dominant thermal driver. Water bodies provide cooling benefits within limited spatial ranges, constrained by configuration and ventilation conditions. Ecological and composite surfaces reduce heat accumulation compared to single materials. These findings indicate that thermal comfort in rural public spaces is a multi-factor and interaction-driven process, providing empirical support for climate-adaptive rural renewal.
Yuan et al. (Wed,) studied this question.