Wind environment and pollutant dispersion around high-rise buildings with different void space structures

IF 1.8 4区 工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY
Linyu Meng, Botong Li, Xinhui Si, Chenguang Cao
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Abstract

In modern cities, the designs of high-rise buildings are no longer limited to a simple hexahedron. Void spaces emerge where designers add terraces into the building, setting up leisure areas, wind turbines, fresh air systems, etc. As void space structures have a significant impact on the wind environment and pollutant dispersion around high-rise buildings, this study conducts computational fluid dynamics numerical simulations on six high-rise building models with different void region structures. The findings show that both the position and size of void space structures have significant impacts on the wind environment and pollutant dispersion around high-rise buildings. A wall in the wind path in the void space can reduce the wind force and can lower the pollutant concentration on the leeward side. Therefore, it is deemed advisable to set up a leisure area or sky garden in the leeward of this layer of this structure. In addition, when the void space is located just in the middle of the void region layer, pollutants can easily accumulate on the leeward side. Therefore, a fresh air system should be installed at the leeward side to remove pollutants and wind turbines can be installed in voids with high wind speed to use wind power.
不同空隙结构高层建筑周围的风环境和污染物扩散
在现代城市中,高层建筑的设计不再局限于简单的六面体。设计师在建筑中加入露台、设置休闲区、风力涡轮机、新风系统等,出现了空隙空间。由于空隙结构对高层建筑周围的风环境和污染物扩散有重要影响,本研究对六种具有不同空隙结构的高层建筑模型进行了计算流体力学数值模拟。结果表明,空隙结构的位置和大小对高层建筑周围的风环境和污染物扩散都有显著影响。在空隙区域的风道上设置一堵墙可以减小风力,降低背风面的污染物浓度。因此,在该层结构的背风处设置休闲区或空中花园是可取的。此外,当空隙正好位于空隙区域层的中间时,污染物很容易在背风面积聚。因此,应在背风面安装新风系统以清除污染物,并在风速较高的空隙安装风力涡轮机以利用风能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Building Physics
Journal of Building Physics 工程技术-结构与建筑技术
CiteScore
5.10
自引率
15.00%
发文量
10
审稿时长
5.3 months
期刊介绍: Journal of Building Physics (J. Bldg. Phys) is an international, peer-reviewed journal that publishes a high quality research and state of the art “integrated” papers to promote scientifically thorough advancement of all the areas of non-structural performance of a building and particularly in heat, air, moisture transfer.
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