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沈焕锋、博士生高美玲的论文在JOURNAL OF THE METEOROLOGICAL SOCIETY OF JAPAN刊出
发布时间:2020-07-14 08:44:49     发布者:易真     浏览次数:

标题: Efficacy of Possible Strategies to Mitigate the Urban Heat Island Based on Urbanized High-Resolution Land Data Assimilation System (u-HRLDAS)

作者: Gao, ML (Gao, Meiling); Chen, F (Chen, Fei); Shen, HF (Shen, Huanfeng); Barlage, M (Barlage, Michael); Li, HF (Li, Huifang); Tan, ZY (Tan, Zhenyu); Zhang, LP (Zhang, Liangpei)

来源出版物: JOURNAL OF THE METEOROLOGICAL SOCIETY OF JAPAN  : 97  : 6  : 1075-1097  DOI: 10.2151/jmsj.2019-060  出版年: DEC 2019  

摘要: Summer heat waves are a significant public health threat in China. This paper took Wuhan (one of the four hottest furnace cities in China) as an example to explore several strategies for mitigating the surface urban heat island (UHI), measured by the land surface temperature, including green roofs, cool roofs, bright pavements, and altered urban building patterns. The offline urbanized High-Resolution Land Data Assimilation System (u-HRLDAS) was used to conduct 1-km resolution numerical simulations, which also accounts for the effects of Wuhan's abundant lakes on UHI evolution, with a dynamic lake model. The diurnal cycle and spatial distribution of simulated UHI were analyzed under different mitigation strategies. Results show that considering lake effects reduces daytime (nighttime) UHI intensity by about 1.0 K (0.5 K). Green roofs and cool roofs are more effective in mitigating daytime UHI than bright pavements. The maximum UHI reduction is about 2.1 K at 13:00 local time by replacing 80 % of conventional roofs with green roofs. The UHI mitigation efficiency increases with larger fractions of green roofs, and increased albedo of roofs and roads. In contrast to green roofs, cool roofs and bright pavements are ineffective during nighttime, changing the urban building pattern to mitigate UHL is effective throughout the day. "Height-driven building structure changing" (raising the building height while changing the fraction of impervious surface in each grid to keep the total building volume intact) can reduce surface UHF intensity by 0.4-0.9 K, and "density-driven building structure changing" (distributing building density uniformly and modifying the building height to make the total building volume unchanged) reduces UHI by 1.2-2.6 K. These results showed new insights in mitigating UHIs for mega cities, like Wuhan, and provides a practical guideline for policymakers to offer more habitable cities.

作者关键词: urban heat island mitigation; lake; green roof; cool roof; bright pavement; urban design

地址: [Gao, Meiling; Shen, Huanfeng; Li, Huifang] Wuhan Univ, Sch Resource & Environm Sci, Wuhan 430079, Peoples R China.

[Chen, Fei; Barlage, Michael] Natl Ctr Atmospher Res, POB 3000, Boulder, CO 80307 USA.

[Tan, Zhenyu; Zhang, Liangpei] Wuhan Univ, State Key Lab Informat Engn Surveying Mapping & R, Wuhan, Peoples R China.

通讯作者地址: Shen, HF (corresponding author)Wuhan Univ, Sch Resource & Environm Sci, Wuhan 430079, Peoples R China.

电子邮件地址: shenhf@whu.edu.cn

影响因子:1.976


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