CFD SIMULATION OF THE DISPERSION OF EXHAUST GASES IN A TRAFFIC-LOADED STREET OF ASTANA, KAZAKHSTAN

The aim of this paper is to consider one of the most traffic-loaded regions of Astana city(Kazakhstan) and to determine the concentration of carbon-monoxide (CO) in the airduring the peak hours. CFD analysis based on the SolidWorks-EFD platform was used tosimulate the dispersion of contaminants give...

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Bibliographic Details
Main Authors: A. Akhatova, A. Kassymov, M. Kazmaganbetova, L. Rojas-Solórzano
Format: Article
Language:English
Published: University of Paraiba 2015-01-01
Series:Journal of Urban and Environmental Engineering
Online Access:http://www.redalyc.org/articulo.oa?id=283243518009
Description
Summary:The aim of this paper is to consider one of the most traffic-loaded regions of Astana city(Kazakhstan) and to determine the concentration of carbon-monoxide (CO) in the airduring the peak hours. CFD analysis based on the SolidWorks-EFD platform was used tosimulate the dispersion of contaminants given the estimated emission rates and weatherconditions at the crossroad of Bogenbay Batyr and Zhenis Avenues in Astana.Turbulence prediction was based on k-ε model with wall functions. The governingequations were discretized using the finite volume method and a 2nd order spatialscheme. The mesh verification was based on 1% convergence criterion for a 50% ofmesh density increment; air pressure near the wall of a selected building was chosen asthe parameter to control the convergence. Numerical results are presented for prevailingconditions during all 4 seasons of the year, demonstrating that the highest levels of COare recorded in summer and reach the values up to 11.2 ppm which are still lower thanthe maximum level admitted for humans. Nevertheless, obtained results show thatAstana is gradually becoming a city that is likely to reach the critical levels of pollutantsin the nearest future if control measures are not taken with enough anticipation. As for afuture work, it is proposed to perform in-situ validation of specific scenarios to checkand support the results obtained with CFD and to develop then specific policies fortackling the problem before it becomes evident.
ISSN:1982-3932