CFD simulations of the tree effect on the outdoor microclimate by coupling the canopy energy balance model

Li Ruibin; Zeng Fanxing; Zhao YiWu YanNiu JianleiWang Liangzhu (Leon)Gao NaipingShi Xing

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CFD simulations of the tree effect on the outdoor microclimate by coupling the canopy energy balance model

机译：CFD simulations of the tree effect on the outdoor microclimate by coupling the canopy energy balance model

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Trees can effectively regulate the urban microclimate, while the change of microclimate conditions in turn affect the physiological state of trees. In this paper, CFD simulations are performed by coupling canopy energy balance (CEB) model to study the effects of trees on outdoor microclimate. The results show that the tree has different effects on outdoor microclimate under different wind speeds, air conditions, solar radiation and stomatal resistance. Increasing the wind speed will weaken the cooling effect of the tree. This weakening effect can extend to a distance of about 3.2 times of the tree canopy width behind the tree when the inflow air temperature is 30 degrees C. However, the influence range at high wind speeds is greater than that at low wind speeds. Air temperature and relative humidity have opposite effects on the sensible and latent heat fluxes of the tree, while they both have negligible effects on the net radiation flux. The humidification effect of the tree will be weakened as the relative humidity increases. Solar radiation has a greater effect on leaf surface temperature (LST) than on air temperature. The net radiation flux is high at the top and bottom of the tree and comparatively low at the central section, which is related to the vertical distribution of leaf area density (LAD). Trees can mitigate the effects of environmental changes on the LST by regulating stomatal resistance, and the reduction of stomatal resistance leads to a greater cooling effect.

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来源
《Building and environment》 |2023年第2期|1.1-1.17|共17页
作者
Li Ruibin; Zeng Fanxing; Zhao YiWu YanNiu JianleiWang Liangzhu (Leon)Gao NaipingShi Xing;
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作者单位

Tongji Univ;

Tongji Univ||China Vanke Co Ltd;

Hong Kong Polytech UnivConcordia Univ;

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原文格式 PDF
正文语种英语
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关键词
Tree; CFD; Outdoor microclimate; Canopy energy balance model; Regulation mechanism;

CFD simulations of the tree effect on the outdoor microclimate by coupling the canopy energy balance model

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