The Cooling Effect of Large-Scale Urban Parks on Surrounding Area Thermal Comfort
Copyright policy )The Cooling Effect of Large-Scale Urban Parks on Surrounding Area Thermal Comfort
This empirical study investigates large urban park cooling effects on the thermal comfort of occupants in the vicinity of the main central park, located in Madrid, Spain. Data were gathered during hot summer days, using mobile observations and a questionnaire. The results showed that the cooling effect of this urban park of 140 ha area at a distance of 150 m is able to reduce temperature by an average of 0.63°C and 1.28°C for distances of 380 m and of 665 meters from the park. Moreover, the degree of the Physiological Equivalent Temperature (PET) index at a distance of 150 meters from the park is on average 2°C PET and 2.3°C PET less compared to distances of 380 m and 665 m, respectively. Considering distance from the park, the correlation between occupant Perceived Thermal Comfort (PTC) and PET is inverse. That is, augmenting the distance from park increases PET, while the extent of PTC reduces accordingly. The correlation between these two factors at the nearest and furthest distances from the park is meaningful (P-value <0/05). The results also showed that large-scale urban parks generally play a significant part in creating a cognitive state of high-perceived thermal comfort spaces for residents.
- Griffith University Australia
- Queensland University of Technology Australia
- Óbuda University Hungary
- QUEENSLAND UNIVERSITY OF TECHNOLOGY - QLD QUT Australia
- Oxford Brookes University United Kingdom
environmental_sciences, Technology, smart cities, thermal comfort, sustainable urban development, cooling effect; urban park; thermal comfort; physiological equivalent temperature; perceived thermal comfort; urban heat island; air temperature; sustainable cities; smart cities; urban health; global warming; urban green spaces; sustainable urban development; climate change mitigation and adaptation; urban resilience , global warming, Urbanismo, urban health, cooling effect, urban green spaces, Arquitectura, urban park, climate change mitigation and adaptation, perceived thermal comfort, physiological equivalent temperature, T, urban heat island, air temperature, sustainable cities, Medio Ambiente, urban resilience , Energías Renovables
environmental_sciences, Technology, smart cities, thermal comfort, sustainable urban development, cooling effect; urban park; thermal comfort; physiological equivalent temperature; perceived thermal comfort; urban heat island; air temperature; sustainable cities; smart cities; urban health; global warming; urban green spaces; sustainable urban development; climate change mitigation and adaptation; urban resilience , global warming, Urbanismo, urban health, cooling effect, urban green spaces, Arquitectura, urban park, climate change mitigation and adaptation, perceived thermal comfort, physiological equivalent temperature, T, urban heat island, air temperature, sustainable cities, Medio Ambiente, urban resilience , Energías Renovables
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