Su-qi Ren scite author profile

In this study, a validated CFD model is used to analyze the flow field and pollutant distribution in an isolated canyon (street aspect ratio, W/H = 1) by considering different street categories and arrangements of void deck under a perpendicular inflow wind. The results reveal that the street geometry affects significantly the in-canyon flow structures and thus the pollutant distributions. Comparing with the regular street canyon (a main clockwise vortex is obtained therein), the void deck can cause several vortices when a strong stream of air passes through the canyon. It is the most conducive to pollutant removal for the void decks at both buildings, while the construction with void deck at the upstream building causes pollutant accumulation on the windward side. Moreover, a larger high-pollution zone is generated above the elevated road due to the wind recirculation therein, and for the two-level street and the street with depressed road, the weak wind leads to the accumulation of traffic pollutants in the underground space. This study will provide technical support for urban street planning and design to alleviate traffic pollution.

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Numerical investigation of the thermal effect on flow and dispersion of rooftop stack emissions with wind tunnel experimental validations

Huang

Ren

et al. 2020

Environ Sci Pollut Res

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Su-qi Ren

Impacts of tree-planting pattern and trunk height on the airflow and pollutant dispersion inside a street canyon

Impacts of specific street geometry on airflow and traffic pollutant dispersion inside a street canyon

Numerical investigation of the thermal effect on flow and dispersion of rooftop stack emissions with wind tunnel experimental validations

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