The investigation of street canyon flow field and pollutant diffusion under the coupling effect of dynamic air flow field and roof angle

Sun, Mengru; Zhou, Pei; Wang, Chunmei; Tao, Changfa

doi:10.1177/1420326x221123756

Indoor and Built Environment

2022

DOI: 10.1177/1420326x221123756

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The investigation of street canyon flow field and pollutant diffusion under the coupling effect of dynamic air flow field and roof angle

Mengru Sun

Pei Zhou

Chunmei Wang

et al.

Abstract: Based on Computational Fluid Dynamics theory, the Euler-Lagrangian method was used to study the effects of three-dimensional dynamic airflow structure and roof angle on the flow structure and pollutant distribution in street canyons. The results show that the variation of inlet airflow speed could influence the airflow structure of street canyon seriously under the dynamic airflow. The airflow structure and pollutant distribution were compressed firstly and then expanded with the increase and decrease of the i… Show more

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2024

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Numerical study on the vehicle exhaust dispersion in a curved tunnel: Effects of the tunnel radius and tilt angle of jet fan

Song,

Sun,

Yang

et al. 2024

Indoor and Built Environment

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In the present work, computational fluid dynamics (CFD) was used to study the dispersion behaviours of vehicle exhaust, including the CO and PM in a curved tunnel with a consideration of the coupling effects of tunnel radius and tilt angle of jet fan. The simulation results showed the variations in the high-speed jet area in the tunnel under different tunnel radii and tilt angles of jet fan. For the pollutant diffusion, concentrations of CO and PM were shown to be inversely proportional to the tilt angle of jet fan and tunnel radius. In the vertical direction, the PM concentration was not always decreased with the increase in the altitude, which is different from distribution of CO concentration. In the horizontal direction, CO was mainly distributed at 20 – 60 m downstream from the fan, while PM accumulation covered the entire downstream of the tunnel. A close relationship between the distribution of pollutant concentration and vortex structures was found. The present work could contribute to knowledge for reducing the energy consumption of jet fans and the pollutant concentration in the curved tunnel and would provide significant guidance for the future design of curved road tunnels.

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Numerical study on the vehicle exhaust dispersion in a curved tunnel: Effects of the tunnel radius and tilt angle of jet fan

Song,

Sun,

Yang

et al. 2024

Indoor and Built Environment

View full text Add to dashboard Cite

show abstract

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The investigation of street canyon flow field and pollutant diffusion under the coupling effect of dynamic air flow field and roof angle

Cited by 1 publication

References 37 publications

Numerical study on the vehicle exhaust dispersion in a curved tunnel: Effects of the tunnel radius and tilt angle of jet fan

Numerical study on the vehicle exhaust dispersion in a curved tunnel: Effects of the tunnel radius and tilt angle of jet fan

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