Atmosphere (Mar 2024)

Influence of Various Urban Morphological Parameters on Urban Canopy Ventilation: A Parametric Numerical Study

  • Liyue Zeng,
  • Xuelin Zhang,
  • Jun Lu,
  • Yongcai Li,
  • Jian Hang,
  • Jiajia Hua,
  • Bo Zhao,
  • Hong Ling

DOI
https://doi.org/10.3390/atmos15030352
Journal volume & issue
Vol. 15, no. 3
p. 352

Abstract

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Numerical simulation is vital for evaluating urban ventilation. However, accurate urban-scale ventilation modeling requires extensive building surface simulation for computational demand. The distributed drag force approach simplifies the urban canopy by modeling buildings as a porous volume that accounts for momentum and turbulence. This method is a practical solution for simulating urban airflow. The drag force coefficient (Cd) is a crucial aerodynamic parameter in this approach. This study examines how Cd varies with urban design parameters such as plan area density (λp), average building height (H), frontal area density (λf), floor aspect ratio (AR), and sky view factor (SVF). Employing extensive numerical simulations conducted under neutral atmospheric conditions, we explore ranges of λp = 0.04–0.07 and λf = 0.1–1.2. The numerical model has been validated against existing wind tunnel data. The results show that Cd is insensitive to the model scale and background wind speed. We discover a nonlinear relationship between Cd and the parameters λp, λf, and SVF. For urban layouts with cubic-shaped buildings, Cd peaks at different λp within the range of 0.2~0.8. When λp and H are constant, Cd has a linear relationship with AR and λf. It is recommended to use λp, SVF, and AR as predictors for Cd across various urban configurations.

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