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Local fractions – a method for the calculation of local source contributions to air pollution, illustrated by examples using the EMEP MSC-W model (rv4_33)

Peter Wind, Bruce Denby, Michael Gauss

2020Geoscientific model development10 citationsDOIOpen Access PDF

Abstract

Abstract. We present a computationally inexpensive method for individually quantifying the contributions from different sources to local air pollution. It can explicitly distinguish between regional–background and local–urban air pollution, allowing for fully consistent downscaling schemes. The method can be implemented in existing Eulerian chemical transport models and can be used to distinguish the contribution of a large number of emission sources to air pollution in every receptor grid cell within one single model simulation and thus to provide detailed maps of the origin of the pollutants. Hence, it can be used for time-critical operational services by providing scientific information as input for local policy decisions on air pollution abatement. The main limitation in its current version is that nonlinear chemical processes are not accounted for and only primary pollutants can be addressed. In this paper we provide a technical description of the method and discuss various applications for scientific and policy purposes.

Topics & Concepts

DownscalingAir pollutionPollutionGridComputer sciencePollutantEnvironmental scienceNonlinear systemAir quality indexCurrent (fluid)Eulerian pathMeteorologyOperations researchMathematicsApplied mathematicsEngineeringGeographyBiologyPrecipitationQuantum mechanicsPhysicsLagrangianGeometryEcologyChemistryOrganic chemistryElectrical engineeringAtmospheric chemistry and aerosolsAir Quality and Health ImpactsAtmospheric and Environmental Gas Dynamics
Local fractions – a method for the calculation of local source contributions to air pollution, illustrated by examples using the EMEP MSC-W model (rv4_33) | Litcius