Urban heat island mitigation in Singapore: Evaluation using WRF/multilayer urban canopy model and local climate zones

Mitigation and adaption measures must be designed strategically by urban planners, designers, and decision-makers to reduce urban heat island (UHI) related risks. We employed the Weather Research and Forecasting (WRF) model to assess UHI mitigation scenarios for the tropical city of Singapore during...

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Bibliographic Details
Published in:Urban climate 2020-12, Vol.34, p.100714, Article 100714
Main Authors: Mughal, M.O., Li, Xian-Xiang, Norford, Leslie K.
Format: Article
Language:English
Subjects:
Air-conditioning
City scale cool roof deployment
Tropical
Urban densification
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Summary:Mitigation and adaption measures must be designed strategically by urban planners, designers, and decision-makers to reduce urban heat island (UHI) related risks. We employed the Weather Research and Forecasting (WRF) model to assess UHI mitigation scenarios for the tropical city of Singapore during April 2016, including two heat wave periods. The local climate zones for Singapore were used as the land use/land cover data to account for the intra-urban variability. The simulations show that the canopy layer UHI intensity in Singapore can reach up to 5 °C in compact areas during nighttime. The results reveal that city-scale deployment of cool roofs can provide an overall reduction of 1.3 °C in the near-surface daytime air temperature in large low-rise areas. Increasing the thermostat set temperature to 25 °C from 21 °C in city-wide buildings can potentially reduce the air temperature due to less (~20%) waste heat discharge from air-conditioning units. A densification scenario considering an increase from approximately 7 841 people/km2 (2016) to 9040-9,600 people/km2 (2030) under the current climate leads to air temperature increase of 1.4 °C, which demonstrates the importance of limiting the densification of less compact areas in maintaining thermal comfort in the future. •UHI mitigation measures are evaluated using WRF and Local Climate Zone in Singapore.•Cool Roofs can reduce air temperature by 1.3 °C and thermal stress by 2–2.5 °C.•Higher thermostat temperature lowers AC emission by 20% and temperature by ~3 °C.•Air temperature would be ~1.4 °C higher by 2030, if Singapore is densified.
ISSN:2212-0955
2212-0955
DOI:10.1016/j.uclim.2020.100714