Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/47203
Título: A finite difference model for air pollution simulation
Autores/as: Sanín, N.
Montero, G. 
Clasificación UNESCO: 12 Matemáticas
Palabras clave: Wind modelling
Mass consistent models
Air pollution modelling
Eulerian model
Finite differences, et al.
Fecha de publicación: 2007
Proyectos: Simulacion Numerica de Campos de Viento Orientados A Procesos Atmofericos. 
Publicación seriada: Advances in Engineering Software 
Conferencia: 7th International Conference on Computational Structures Technology/4th International Conference on Engineering Computational Technology 
Resumen: A 3-D model for atmospheric pollutant transport is proposed considering a set of coupled convection–diffusion–reaction equations. The convective phenomenon is mainly produced by a wind field obtained from a 3-D mass consistent model. In particular, the modelling of oxidation and hydrolysis of sulphur and nitrogen oxides released to the surface layer is carried out by using a linear module of chemical reactions. The dry deposition process, represented by the so-called deposition velocity, is introduced as a boundary condition. Moreover, the wet deposition is included in the source term of the governing equations using the washout coefficient. Before obtaining a numerical solution, the problem is transformed using a terrain conformal coordinate system. This allows to work with a simpler domain in order to build a mesh that provides finite difference schemes with high spatial accuracy. The convection–diffusion–reaction equations are solved with a high order accurate time-stepping discretization scheme which is constructed following the technique of Lax and Wendroff. Finally, the model is tested with a numerical experiment in La Palma Island (Canary Islands).
URI: http://hdl.handle.net/10553/47203
ISSN: 0965-9978
DOI: 10.1016/j.advengsoft.2006.09.013
Fuente: Advances in Engineering Software [ISSN 0965-9978], v. 38 (6), p. 358-365
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