Source apportionment using LOTOS-EUROS: module description and evaluation
Open Access
- 3 June 2013
- journal article
- Published by Copernicus GmbH in Geoscientific Model Development
- Vol. 6 (3), 721-733
- https://doi.org/10.5194/gmd-6-721-2013
Abstract
To design effective mitigation strategies, the origin of emissions which produce air pollutants needs to be known. Contributors to air pollutants can be emission sources, like road traffic or industry, but also be more specified to emission from one location or from a specified time. Chemistry transport models can be used to assess the origin of air pollution across a large domain. However, in traditional simulations the information on origin is lost and brute force scenario studies are performed to assess the origin. Alternatively, one can trace the origin of air pollutants throughout a simulation using a labeling approach. In this paper we document and demonstrate a newly developed labeling module for the chemistry transport model LOTOS-EUROS which tracks the source allocation for all particulate matter components and precursor gases. Dedicated simulations confirmed that the new module functions correctly. The new module provides more accurate information about the source contributions than using a brute force approach with scenario runs as the chemical regime remains unchanged. An important advantage of the new module is the reduction of computation costs and analysis work associated with the calculations. The new module was applied to assess the origin of particulate nitrate across the Netherlands. Averaged across the Dutch territory, the main contributions to nitrate are derived from road and non-road transport as well as power plants. Overall, only one-fifth of the concentration derived from sources located inside the country. The new technology enables new research directions as improved information on pollution origin is desired for policy support as well as scientific applications.Funding Information
- European Commission (226364)
This publication has 40 references indexed in Scilit:
- A model inter-comparison study focussing on episodes with elevated PM10 concentrationsAtmospheric Environment, 2008
- Development and application of a computationally efficient particulate matter apportionment algorithm in a three-dimensional chemical transport modelAtmospheric Environment, 2008
- The LOTOS EUROS model: description, validation and latest developmentsInternational Journal of Environment and Pollution, 2008
- Source contributions to primary organic aerosol: Comparison of the results of a source-resolved model and the chemical mass balance approachAtmospheric Environment, 2007
- Evaluation of long-term ozone simulations from seven regional air quality models and their ensembleAtmospheric Environment, 2007
- Laboratory simulations and parameterization of the primary marine aerosol productionJournal of Geophysical Research: Solid Earth, 2003
- Comparison of model results obtained with several european regional air quality modelsAtmospheric Environment, 1997
- Parametrization of surface resistance for the quantification of atmospheric deposition of acidifying pollutants and ozoneAtmospheric Environment, 1994
- The tagged species engineering model (TSEM)Atmospheric Environment. Part A. General Topics, 1992
- The carbon-bond mechanism: a condensed kinetic mechanism for photochemical smogEnvironmental Science & Technology, 1980