Article | REF: BM2502 V1

Air Quality and Automobile. Status on Air Quality in Large Cities

Authors: Karine PAJOT, Nils MATTHESS, Pierre MACAUDIERE

Publication date: November 10, 2020, Review date: January 13, 2021

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ABSTRACT

Air quality results from a complex process between emissions, imports and meteorological phenomena. Although it continues to improve thanks to regulations and improved pollution control technologies, exceedances of air quality standards for NOx, fine particles and ozone are still observed in some large European cities. This article aims at understanding the atmospheric footprint of automotive emissions. To do so, the 2019 Anses study will be taken as a reference and lessons will be drawn from the effect of the drastic reduction of traffic during sanitary containment related to Covid-19.

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AUTHORS

  • Karine PAJOT: PhD in Air Pollution Chemistry and Environmental Physics from Paris Diderot University, Paris 7 - Research engineer for the PSA Group - Lecturer at IFP School and INSA Centre Val de Loire, France

  • Nils MATTHESS: PhD in Process Engineering, Claude Bernard University, Lyon 1 - Expert in pollution control systems and head of the Chemistry of Pollution Control Systems, Automotive Emissions Measurement and Fuels department for the PSA Group. - Lecturer at IFP School and ENSI Caen, France

  • Pierre MACAUDIERE: Doctor of Science, Analytical Chemistry, from Pierre et Marie Curie University, Paris 6 - Master Expert in Pollution Control Systems and Fuels for the PSA Group, France

 INTRODUCTION

The automotive industry is facing three major environmental challenges. The first is to limit global warming to no more than +2°C by 2050, with a sharp reduction in CO 2 emissions from vehicles (in Europe, -37.5% in 2030 compared with 2021). Also, emissions will have to be measured and anticipated over the entire vehicle life cycle, thus integrating emissions no longer from well to wheel but from cradle to grave. The second challenge is to cope with the increasing scarcity of natural resources, which means that resources must be used only when necessary, and materials must be managed sustainably. The third challenge concerns air quality, the importance and impact of which are closely linked to ever-increasing urbanization: more than a billion people worldwide live in the world's hundred largest megacities (10 million inhabitants or more). Some of them have already recorded pollutant concentrations twenty-five times higher than the limits recommended by the World Health Organization (WHO). So it's natural to ask how air quality has evolved over the last few decades, particularly in major urban centers. Air quality is the result of a complex balance between emissions of atmospheric pollutants, their chemical and/or physical transformation under the influence of meteorological conditions and imports. However, due to regional specificities, the great complexity of the atmospheric environment and the non-linear production processes of certain pollutants, the relationship between emissions and air quality is rather difficult to establish in a simple and unique way. This article begins by taking stock of trends in pollutant concentrations attributable to cars in major European urban centers. Secondly, it proposes an updated assessment of the contribution of automobiles to local air pollution.

After a brief history of air quality, we'll go back over the definition of certain key terms, then give an overview of emissions and concentrations of atmospheric pollutants from local to European levels. We'll also zoom in on ozone, a secondary pollutant that occurs mainly in summer. We will demonstrate the positive impact of new automotive technologies, highlighted by prospective studies based on air quality modelling. We will also draw some preliminary lessons from the effect of Covid-19-related health containment on air quality, which has led to a 70% reduction in road traffic and associated emissions in the Île-de-France region.

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