Fast Models for Predicting Pollutant Dispersion inside Urban Canopies

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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Detail(s)

Original languageEnglish
Article number1337
Journal / PublicationAtmosphere
Volume14
Issue number9
Online published24 Aug 2023
Publication statusPublished - Sept 2023

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Abstract

A fast pollutant dispersion model for urban canopies is developed by coupling mean wind profiles to a parameterisation of turbulent diffusion and solving the time-dependent advection–diffusion equation. The performance of a simplified, coarse-grained representation of the velocity field is investigated. Spatially averaged mean wind profiles within local averaging regions or repeating units are predicted by solving the three-dimensional Poisson equation for a set of discrete vortex sheets. For each averaging region, the turbulent diffusion is parameterised in terms of the mean wind profile using empirical constants derived from large-eddy simulation (LES). Nearly identical results are obtained whether the turbulent fluctuations are specified explicitly or an effective diffusivity is used in their place: either version of the fast dispersion model shows much better agreement with LES than does the Gaussian plume model (e.g., the normalized mean square error inside the canopy is several times smaller). Passive scalar statistics for a regular cubic building array show improved agreement with LES when wind profiles vary in the horizontal. The current implementation is around 50 times faster than LES. With its combination of computational efficiency and moderate accuracy, the fast model may be suitable for time-critical applications such as emergency dispersion modelling. © 2023 by the authors.

Research Area(s)

  • building array, coarse graining, computational fluid dynamics (CFD), effective diffusivity, wind profile

Citation Format(s)

Fast Models for Predicting Pollutant Dispersion inside Urban Canopies. / Wang, Huanhuan; Furtak-Cole, Eden; Ngan, Keith.
In: Atmosphere, Vol. 14, No. 9, 1337, 09.2023.

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

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