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Communication Dans Un Congrès Année : 2017

Source apportionment of atmospheric particulate matter (PM10) using a constrained USEPA-PMF5.0 model on different urban environments in France

Dalia Salameh
  • Fonction : Auteur
Benjamin Golly
Jean-Luc Besombes
L.Y. Alleman
Jean-Luc Jaffrezo
  • Fonction : Auteur

Résumé

Particulate matter (PM) is one of the most studied atmospheric pollutant in urban areas due to particles adverse effects on human health (Pope et al., 2009). Intrinsic properties of PM (e.g. chemical composition and morphology) are directly linked to their origins. A harmonized and comprehensive apportionment study of PM sources in urban environments is extremely required to connect source contributions with PM concentration levels and then develop effective PM abatement strategies. Multivariate receptor models such as Positive Matrix Factorization (PMF) are very useful and have been used worldwide for PM source apportionment (Viana et al., 2008). PMF uses a weighted least-squares fit and quantitatively determines source fingerprints (factors) and their contributions to the total PM mass. However, in many cases, it could be tricky to separate two factors that co-vary due to similar seasonal variations, making unclear the physical sense of the extracted factors. To address such issues of source collinearities, additional specific constraints are incorporated into the model (i.e. constrained PMF) based on user’s external knowledge allowing better apportionment results. In this work and within the framework of the SOURCES project, a harmonized source apportionment approach has been implemented and applied for the determination of PM10 sources on a large number of sites (up to 20) of different typologies (e.g. urban background, industrial, traffic, rural and/or alpine sites) distributed all over France and previously investigated with annual or multiannual studies (2012-2016). A constrained PMF approach (using US-EPA PMF5.0 software) was applied to the comprehensive PM-offline chemical datasets (i.e. carbonaceous fraction, major ions, metals/trace elements, specific organic markers) in a harmonized way for all the investigated sites. Different types of specific chemical constraints from well-characterized sources were defined based on external knowledge and were imposed to some species in the PMF factor profiles. As an example, the contributions of the levoglucosan and mannosan, specific tracers of the biomass burning emissions, were pulled up maximally in the biomass burning factor profile resolved at Port de Bouc site (Figure 1) and were set to zero in all other resolved PMF factors (e.g. vehicular emissions, biogenic emissions, etc,…). The different source categories contributing to ambient PM concentration levels were chemically characterized and quantified. Chemical profiles of the resolved common sources have been compared and give first time indication on the spatial variabilities of the source compositions, and their applicability as forcing factors in a fully constrained PMF. The presentation will address the main points achieved with this program.
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Dates et versions

ineris-01853517 , version 1 (03-08-2018)

Identifiants

  • HAL Id : ineris-01853517 , version 1

Citer

Dalia Salameh, Olivier Favez, Benjamin Golly, Jean-Luc Besombes, L.Y. Alleman, et al.. Source apportionment of atmospheric particulate matter (PM10) using a constrained USEPA-PMF5.0 model on different urban environments in France. European Aerosol Conference (EAC 2017), Aug 2017, Zurich, Switzerland. ⟨ineris-01853517⟩
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