A NUMERICAL STUDY ON THE INFLUENCES OF URBAN PLANNING AND CONSTRUCTION ON THE SUMMER URBAN HEAT ISLAND IN THE METROPOLIS OF SHENZHEN

By means of the regional boundary layer model (RBLM),a study on the influences of the urban planning and construction on the summer urban heat island (UHI) in the metropolis of Shenzhen is performed.In the study,the current summer UHI distribution,the influences of the increasing high-density constr...

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Published inJournal of Tropical Meteorology Vol. 17; no. 4; pp. 392 - 398
Main Author 张小丽 李磊 杜雁 江崟 房小怡 力梅 陈元昭 白玉洁
Format Journal Article
LanguageEnglish
Published Guangzhou Guangzhou Institute of Tropical & Marine Meteorology 01.12.2011
Meteorological Bureau of Shenzhen Municipality, Shenzhen 518040 China%Urban Planning & Design Institute of Shenzhen, Shenzhen 518031 China%Beijing Municipal Climate Center, Beijing 100089 China%Guangdong Meteorological Training Centre, Guangzhou 510080 China
Subjects
China, People's Rep., Guangdong Prov., Shenzhen
China, People's Rep., Guangdong Prov., Shenzhen, Futian
numerical simulation
urban heat island
Shenzhen
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ISSN1006-8775
DOI10.3969/j.issn.1006-8775.2011.04.009

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Summary:By means of the regional boundary layer model (RBLM),a study on the influences of the urban planning and construction on the summer urban heat island (UHI) in the metropolis of Shenzhen is performed.In the study,the current summer UHI distribution,the influences of the increasing high-density construction and the energy consumption on the summer air temperature distribution,and the influences of the urban ventilation corridor on the summer air temperature distribution are numerically analyzed.Some conclusions are drawn in the light of the study:(1) The summer UHI is more obvious in day time than that in night time in the summer of Shenzhen,and the maximum values of UHI intensity in the day time appear in the areas with high-density construction,which are located in Nanshan,Futian and Luohu and western Bao'an districts.(2) The increase of construction density and energy consumption in the urban area will lead to the increase of temperature near the ground,and the increase of temperature at nighttime is more obvious than that at daytime.(3) The ventilation corridor can effectively reduce the UHI intensity and can be taken as a method to eliminate the negative climatic effect caused by the increase of high-density construction and energy consumption in the future.
Bibliography:urban heat island; numerical simulation; Shenzhen
ZHANG Xiao-Li ,LI Lei ,DU Yan ,JIANG Yin ,FANG Xiao-yi ,LI Mei ,CHEN Yuan-zhao ,BAI Yu-jie (1.Meteorological Bureau of Shenzhen Municipality,Shenzhen 518040 China;2.Urban Planning & Design Institute of Shenzhen,Shenzhen 518031 China;3.Beijing Municipal Climate Center,Beijing 100089 China;4.Guangdong Meteorological Training Centre,Guangzhou 510080 China)
By means of the regional boundary layer model (RBLM),a study on the influences of the urban planning and construction on the summer urban heat island (UHI) in the metropolis of Shenzhen is performed.In the study,the current summer UHI distribution,the influences of the increasing high-density construction and the energy consumption on the summer air temperature distribution,and the influences of the urban ventilation corridor on the summer air temperature distribution are numerically analyzed.Some conclusions are drawn in the light of the study:(1) The summer UHI is more obvious in day time than that in night time in the summer of Shenzhen,and the maximum values of UHI intensity in the day time appear in the areas with high-density construction,which are located in Nanshan,Futian and Luohu and western Bao'an districts.(2) The increase of construction density and energy consumption in the urban area will lead to the increase of temperature near the ground,and the increase of temperature at nighttime is more obvious than that at daytime.(3) The ventilation corridor can effectively reduce the UHI intensity and can be taken as a method to eliminate the negative climatic effect caused by the increase of high-density construction and energy consumption in the future.
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ISSN:1006-8775
DOI:10.3969/j.issn.1006-8775.2011.04.009