Temporal variation in the impact of urban morphology on outdoor air temperature in the tropics: A campus case study

Due to climate change and urbanisation, Singapore is suffering from a worsening urban heat island effect. The rising air temperature has significantly increased the energy required for building cooling and reduced thermal comfort in the microclimate. Based on continuous field measurements obtained o...

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Bibliographic Details
Published in:Building and environment 2020-08, Vol.181, p.107132, Article 107132
Main Authors: Yu, Zhongqi, Chen, Shisheng, Wong, Nyuk Hien
Format: Article
Language:English
Subjects:
Air temperature
Albedo
Buildings
Climate change
Diurnal
Geographic information systems
Geographical information system
Heat exchange
Microclimate
Mitigation
Morphology
Outdoor air temperature
Schedules
Shading
Sky surveys (astronomy)
Temperature requirements
Temporal variation
Temporal variations
Thermal comfort
Three dimensional models
Tropical environments
Urban areas
Urban heat island
Urban heat islands
Urban morphology
Urbanization
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Summary:Due to climate change and urbanisation, Singapore is suffering from a worsening urban heat island effect. The rising air temperature has significantly increased the energy required for building cooling and reduced thermal comfort in the microclimate. Based on continuous field measurements obtained on the Kent Ridge Campus of the National University of Singapore, this work reveals a clear diurnal pattern of urban morphological impact on outdoor air temperature. Seven urban morphology variables were extracted from a Geographical Information System map, three-dimensional model and site survey, as follows: the sky view factor, building cover ratio, ratio of height to building cover ratio, building wall area, impervious ground surface fraction, the green plot ratio and ground albedo. Sky view factor was the dominant variable in the heating interval (07:00–11:59). Building wall area and impervious ground surface fraction affected air temperature most in the exchange interval (12:00–18:59), peaking at around 15:00. Ratio of height to building cover ratio and ground albedo were positively correlated with air temperature in the exchange interval, but negative correlations were observed in the other periods. The developed models provide more accurate planning suggestions for buildings with different operating schedules. Providing sufficient shading and maximizing plant cover are suggested for urban heat island mitigation. •Study on correlation characteristics of urban morphology and hourly air temperature in tropical regions.•Detailed analysis and comparison of the impact of greenery and sky view factor on temperature at different periods.•Provide optimization strategies of microclimate for building clusters with different operation schedules.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2020.107132