This paper deals with the development of a simple urban model for flow and dispersion in the urban canopy layer (UCL). The flow module of the model calculates spatially-averaged wind profiles adopting a technique recently proposed in the literature, which is based on a balance equation between the obstacle drag force and the local shear stress. Spatially-averaged wind profiles are used as input for a newly proposed dispersion model which solves the advection-diffusion equation at neighbourhood scale. In the model, the effects of the buildings within the UCL are taken into account by means of morphological parameters λf and λp (the ratios of plan area and frontal area of buildings to the lot area). Spatially-averaged mean concentrations output by the developed model are compared with numerical results obtained from the computational fluid dynamics (CFD) model FLUENT. In particular, two configurations of constant height UCL have been considered, which refer to as λ p = λf = 0.16 and λ p = λf = 0.44. The originality of the study is that the dispersion model itself integrates the equations without explicitly resolving the flow around individual buildings but still accounts for their effects. The computational costs are much reduced which makes it suitable for the predictions of concentrations over the neighbourbood scale in an operational context.

S. DI SABATINO, BUCCOLIERI R, PARADISI P, PALATELLA L, CORRADO R, SOLAZZO E (2008). A fast model for flow and pollutant dispersion at the neighbourhood scale. Zagabria : Croatian Meteorological Society.

A fast model for flow and pollutant dispersion at the neighbourhood scale

DI SABATINO, SILVANA;
2008

Abstract

This paper deals with the development of a simple urban model for flow and dispersion in the urban canopy layer (UCL). The flow module of the model calculates spatially-averaged wind profiles adopting a technique recently proposed in the literature, which is based on a balance equation between the obstacle drag force and the local shear stress. Spatially-averaged wind profiles are used as input for a newly proposed dispersion model which solves the advection-diffusion equation at neighbourhood scale. In the model, the effects of the buildings within the UCL are taken into account by means of morphological parameters λf and λp (the ratios of plan area and frontal area of buildings to the lot area). Spatially-averaged mean concentrations output by the developed model are compared with numerical results obtained from the computational fluid dynamics (CFD) model FLUENT. In particular, two configurations of constant height UCL have been considered, which refer to as λ p = λf = 0.16 and λ p = λf = 0.44. The originality of the study is that the dispersion model itself integrates the equations without explicitly resolving the flow around individual buildings but still accounts for their effects. The computational costs are much reduced which makes it suitable for the predictions of concentrations over the neighbourbood scale in an operational context.
2008
12th International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes
670
674
S. DI SABATINO, BUCCOLIERI R, PARADISI P, PALATELLA L, CORRADO R, SOLAZZO E (2008). A fast model for flow and pollutant dispersion at the neighbourhood scale. Zagabria : Croatian Meteorological Society.
S. DI SABATINO; BUCCOLIERI R; PARADISI P; PALATELLA L; CORRADO R; SOLAZZO E
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/394620
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