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Article Dans Une Revue Atmospheric environment Année : 2009

Analysis and modelling of the pollutant emissions from European cars regarding the driving characteristics and test cycles

Résumé

Within the European research project ARTEMIS, significant works have been conducted to analyse the hot emissions of pollutant from the passenger cars regarding the driving cycles and to propose modelling approaches taking into account large but heterogeneous datasets recorded in Europe. The review and analysis of a large range of test cycles enabled first the building-up of a set of contrasted cycles specifically designed for characterizing the influence of the driving conditions. These cycles were used for the measurement of the pollutants emission rates from nine passenger cars on a chassis dynamometer. Emissions measured on 30 vehicles tested on cycles adapted to their motorization (i.e., cycles for high- or low-powered cars, inducing thus a significant difference in the dynamic) were also considered for analysing the influence of the cycles and of the kinematic parameters on the hot emission rates of the regulated pollutants (CO, HC, NOx, CO2, PM). An analyses of variance demonstrated the preponderance of the driving type (urban, rural road, motorway), of the vehicle category (fuel, emission standard) and emitting status (high/normal emitter) and thus the pertinence of analysing and modelling separately the corresponding emissions. It also demonstrated that Urban driving led systematically to high diesel emission rates and to high CO2, HC and NOx emissions from petrol cars. Congested driving implied high CO2 (diesel and petrol) and high diesel NOx emission. On motorway, the very high speeds generated high CO2, while unsteady speeds induced diesel NOx and petrol CO over-emissions. A search for pertinent kinematic parameters showed that urban diesel emissions were mostly sensitive to stops and speed parameters, while petrol emissions were rather sensitive to acceleration parameters. On the motorway, diesel NOx and CO2 emissions rates increased with the speed variability and occurrence of high speeds, while CO2 and CO over-emission from petrol cars were linked to the occurrence of strong acceleration at high speeds. A modelling approach based on partial least square regression was tested, which demonstrates its ability to discriminate satisfactorily the emissions according to dynamic related parameters and in particular when considering the two-dimensionnal distribution of instantaneous speed and acceleration. Finally, a strategy was proposed to analyse the large but heterogeneous set of hot emission data collected within the ARTEMIS project. The approach consisted in analysing the similarity of the numerous cycles as regards their kinematic, grouping them into reference test patterns through an automatic clustering, and then computing reference emissions for these patterns. These principles enabled the development of a method to compute the emissions at a low spatial scale, i.e. the so-called traffic situation approach, which was implemented in the European Artemis model for estimating the cars' pollutant emissions.

Dates et versions

hal-00993754 , version 1 (20-05-2014)

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Michel Andre, Mario Rapone. Analysis and modelling of the pollutant emissions from European cars regarding the driving characteristics and test cycles. Atmospheric environment, 2009, 43 (5), pp. 986-995. ⟨10.1016/j.atmosenv.2008.03.013⟩. ⟨hal-00993754⟩
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