Effect of vehicle fleet composition and mobility on outdoor population exposure: A street resolution analysis in Paris

Effect of vehicle fleet composition and mobility on outdoor population exposure: A street resolution analysis in Paris

High concentrations of health-related pollutants are observed in streets, inducing high outdoor population exposure. The impact of reducing traffic emissions on urban air quality is often quantified using regional-scale chemical-transport models (CTMs), which are representative of background concent...

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Bibliographic Details
Published in:Atmospheric pollution research Vol. 13; no. 5; p. 101365
Main Authors: Lugon, Lya, Kim, Youngseob, Vigneron, Jérémy, Chrétien, Olivier, André, Michel, André, Jean-Marc, Moukhtar, Sophie, Redaelli, Matteo, Sartelet, Karine
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2022
Elsevier
Subjects:
Environmental Sciences
Health-related pollutants
Multi-scale simulations
Outdoor population exposure
Traffic emissions
Vehicle fleet renewal
Multi-scale simulations
Health-related pollutants
Outdoor population exposure
Traffic emissions
Vehicle fleet renewal
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Summary:High concentrations of health-related pollutants are observed in streets, inducing high outdoor population exposure. The impact of reducing traffic emissions on urban air quality is often quantified using regional-scale chemical-transport models (CTMs), which are representative of background concentrations but fail to represent the high street concentrations. Local-scale models may be more suitable to represent them, but their use for outdoor exposure assessments is still limited, because they often neglect secondary species, use simplified methods to estimate background concentrations, and omit/underestimate non-exhaust emissions. Here the impact of realistic and ambitious tendencies of vehicle fleet renewal and mobility on outdoor population exposure is investigated using multi-scale simulations. They are capable of representing secondary species in urban background and streets (including the formation of secondary organic and inorganic aerosols), and use non-exhaust emissions determined with a recently revisited approach. The 10-year vehicle fleet renewal induces large decreases in population exposure to NO2, black carbon, PM10, PM2.5, and organics. These decreases are stronger than estimated using CTMs. Favouring recent diesel, petrol, or electric vehicles, as proposed here, induces similar decreases of outdoor population exposure to PM2.5. Promoting electric vehicles induces the highest decrease of exposure to NO2. Home-office practice enhances the decrease of pollutant concentrations, but it is less effective than vehicle fleet renewal. However, much more ambitious reductions of pollutant emissions are still needed to respect air-quality guidelines. •Population exposure to pollutants is higher in streets than in the urban background.•Promoting electric vehicles induces the highest decrease of exposure to NO2.•Quite similar decreases of population exposure to PM2.5 are observed in all scenarios.•Home-office practice is less effective than vehicle fleet renewal.•More ambitious reductions of pollutant emissions are needed.
ISSN:1309-1042
1309-1042
DOI:10.1016/j.apr.2022.101365