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Environ Pollut


Title:Sensitivity of pollutant concentrations in urban streets to asphalt and traffic-related emissions
Author(s):Sarica T; Sartelet K; Roustan Y; Kim Y; Lugon L; Marques B; D'Anna B; Chaillou C; Larrieu C;
Address:"CEREA, Ecole des Ponts, EDF R&D, IPSL, Marne la Vallee, 77455, France. Electronic address: thibaud.sarica@enpc.fr. CEREA, Ecole des Ponts, EDF R&D, IPSL, Marne la Vallee, 77455, France. Aix Marseille Univ, CNRS, LCE, UMR 7376, Marseille, 13331, France; French Agency for Ecological Transition, ADEME, Angers, 49000, France. Aix Marseille Univ, CNRS, LCE, UMR 7376, Marseille, 13331, France. Aramco Fuel Research Center, Aramco Overseas Company, Rueil-Malmaison, 92500, France"
Journal Title:Environ Pollut
Year:2023
Volume:20230607
Issue:
Page Number:121955 -
DOI: 10.1016/j.envpol.2023.121955
ISSN/ISBN:1873-6424 (Electronic) 0269-7491 (Linking)
Abstract:"The higher concentrations of atmospheric particles, such as black carbon (BC) and organic matter (OM), detected in streets compared to the urban background are predominantly attributed to road traffic. The integration of this source of pollutant in air quality models nevertheless entails a high degree of uncertainty and some other sources may be missing. Through sensitivity scenarios, the impacts on pollutant concentrations of sensitivities related to traffic and road-asphalt emissions are evaluated. The 3D Eulerian model Polair3D and the street network model MUNICH are applied to simulate various scenarios and their impacts at the regional and local scales. They are coupled with the modular box model SSH-aerosol to represent formation and aging of primary and secondary gas and particles. Traffic emissions are calculated with the COPERT methodology. Using recent volatile organic compound speciations for light vehicles with more detailed information pertaining to intermediate, semi- and low-volatile organic compounds (I/S/LVOCs) leads to limited reductions of OM concentrations (10% in streets). Changing the method of estimating I/S/LVOC emissions leads to an average reduction of 60% at emission and a decrease of the OM concentrations of 27% at the local scale. An increase in 219% of BC emissions from tire wear, consistent with the uncertainties found in the literature, doubles the BC concentrations at the local scale, which remain underestimated compared to observations. I/S/LVOC emissions are several orders of magnitude higher when considering emissions from road asphalt due to pavement heating and exposure to sunlight. However, simulated concentrations of PM at the local scale remain within acceptable ranges compared to observations. These results suggest that more information is needed on I/S/LVOCs and non-exhaust sources (tire, brake and road abrasion) that impact the particle concentration. Furthermore, currently unconsidered emission sources such as road asphalt may have non-negligible impacts on pollutant concentrations in streets"
Keywords:*Air Pollutants/analysis Particulate Matter/analysis Vehicle Emissions/analysis *Environmental Pollutants Environmental Monitoring/methods *Volatile Organic Compounds/analysis Emissions Numerical model Particles Road asphalt Traffic Urban area;
Notes:"MedlineSarica, Thibaud Sartelet, Karine Roustan, Yelva Kim, Youngseob Lugon, Lya Marques, Baptiste D'Anna, Barbara Chaillou, Christophe Larrieu, Clement eng England 2023/06/10 Environ Pollut. 2023 Sep 1; 332:121955. doi: 10.1016/j.envpol.2023.121955. Epub 2023 Jun 7"

 
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