摘要: |
长株潭城市群绿心地区对城市群的环境气候调节有
着重要作用,但基于自然解决方案的通风廊道研究仍不充分。
为进一步发挥绿心地区的通风调节功能,改善城市群的环境气
候和为低碳城市建设提供理论和应用基础,以长株潭绿心地区
2020年遥感影像为基础,运用地表粗糙长度、无量纲通风指
数、风热场进行叠加分析并识别潜在通风廊道,运用空间分析
方法分析主要影响因子。结果发现,该地区潜在的自然通风廊
道共有11条,其中一级2条、二级3条、三级6条;显著影响
因子主要有下垫面粗糙长度、土地利用类型和建筑密度,温度
场、高程及路网密度对通风潜力也有着重要的影响。研究结果
表明,这些通风廊道对城市环境气候有着重要影响,有利于形
成基于自然的城市群通风方案,需要进一步进行景观保护与恢
复。所运用的识别方法可以精细地捕捉到城市热岛环流的日变
化过程,反映了城市热源、冷源及其局地环流的变化状况,能
更充分利用城市热岛环流设置通风廊道。另外,利用MODIS
数据中的植被指数产品MCD12Q1类型输出的Z 0数据,结合
地形高程等数据估算地表粗糙长度,可以较好地校准绿地的粗
糙长度和无量纲通风指数,为基于绿地的城市自然通风解决方
案提供很好的理论基础。 |
关键词: 风景园林 城市绿色基础设施 城市环境气候 城
市自然通风 基于自然的解决方案 |
DOI:10.19775/j.cla.2024.05.0118 |
投稿时间:2022-10-13修订日期:2023-04-11 |
基金项目:湖南省教育厅科研项目重点项目(编号20A518)、
湖南省自然科学基金面上项目(编号2019JJ40537)、湖南省教
育厅“十二五”重点学科资助项目(编号2011-76)、国家林业
局重点学科项目(编号林人发〔2016〕21号)和湖南省教育厅科
学研究项目(优秀青年项目)(编号19B580)共同资助 |
|
Identification of Natural Ventilation Corridors inthe Green Heart Area of the Changsha-Zhuzhou-Xiangtan Metropolitan Region |
LIU Ya,LIAO Qiulin,XIAO Peng,LIAO Jingpeng,WANG Weiwei |
Abstract: |
The Green Heart Area of the Changsha-Zhuzhou-
Xiangtan Metropolitan Region (CZT) plays an important role in the
environment and climate regulation of the urban agglomeration, but
the identification of ventilation corridors based on natural solutions is
still insufficient. In order to further develop the ventilation regulation
function of the Green Heart Area, improve the environment and
climate of the urban agglomeration and provide a theoretical
application basis for the construction of low-carbon cities, this
study uses surface roughness length, dimensionless ventilation
index, wind and heat field analysis and grade analysis based on the
remote sensing images of the Green Heart Area in 2020 to identify
ventilation corridors and ventilation grades, and uses spatial analysis
methods to analyze the main impact factors. The results show that
there are 11 potential ventilation corridors in the area, including 2
in the first level, 3 in the second level, and 6 in the third level. The
significant influencing factors are the rough length of land surface,
land use type and building density. The distribution of temperature
field, elevation and road network density also have an important
impact on ventilation potential. The research results also show that
these ventilation corridors have an important impact on the urban
environment and climate, and are conducive to the formation of a
natural based ventilation scheme for urban agglomerations, which
requires further landscape conservation and restoration. In addition,
the identification method can accurately capture the daily change
process of urban dominant wind direction, reflect the change of
urban heat source, cold source and local circulation, and make full
use of urban heat island circulation to set up ventilation corridors. |
Key words: landscape architecture urban green infrastructure urban climate urban ventilation nature-based solution |