Effects of the Emissions of Vehicles Ahead on In‐Car Exposure to Traffic‐Related Air Pollutants: A Multiple Statistical Analysis Approach

Traffic‐related air pollutants inside vehicle cabins are often extremely high compared to background pollution concentrations. The study of the determinants of these concentrations is particularly important for professional drivers and commuters who spend long periods in vehicles. This study is aime...

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Veröffentlicht in:Indoor air 2024-01, Vol.2024 (1)
Hauptverfasser: Campagnolo, Davide, Cattaneo, Andrea, Iodice, Simona, Favero, Chiara, Lioi, Simone, Boniardi, Luca, Borghi, Francesca, Fanti, Giacomo, Keller, Marta, Rovelli, Sabrina, Zellino, Carolina, De Vito, Giovanni, Spinazzè, Andrea, Fustinoni, Silvia, Bollati, Valentina, Cavallo, Domenico M.
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Sprache:eng
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Zusammenfassung:Traffic‐related air pollutants inside vehicle cabins are often extremely high compared to background pollution concentrations. The study of the determinants of these concentrations is particularly important for professional drivers and commuters who spend long periods in vehicles. This study is aimed at identifying and quantifying the effect of several exposure determinants on carbon monoxide (CO), equivalent black carbon (eBC), two particulate matter (PM) fractions (PM 0.3–1 and PM 1–2.5 ), and ultrafine particle (UFP) concentrations inside a passenger car cabin. The novelty of this work consists in examining the effects of the emissions of the first vehicle ahead (henceforth called “leading vehicle”) on pollutant concentrations inside the cabin of the following vehicle (i.e., the car that was equipped with the air monitoring devices), with particular emphasis on the role of the leading vehicle characteristics (e.g., emission reduction technologies). The real‐time instrumentation was placed inside the cabin of a petrol passenger car, which was driven by the same operator two times per day on the same route in real driving conditions. The in‐cabin ventilation settings were set as follows: windows closed, air conditioning and recirculation modes off, and the fanned ventilation system on. The measurements were conducted over a total of 10 weekdays during two different seasons (i.e., summer and autumn). A video camera fixed to the windscreen was used to retrieve information about traffic conditions and leading vehicle characteristics through careful video analysis. The associations among pollutant concentrations and their potential determinants were evaluated using generalized estimating equation univariate and multiple models. The results confirmed the significant impact of several well‐known determinants such as seasonality, microclimatic parameters, traffic jam situations, and route characteristics. Moreover, the outcomes shed light on the key role of leading vehicle emissions as determinant factors of the pollutant concentrations inside car cabins. Indeed, in the tested cabin ventilation conditions, it was demonstrated that in‐cabin pollutant concentrations were significantly higher with leading vehicles ahead (from +14.6% to +67.5%) compared to empty road conditions, even though the introduction of newer technologies with better emissions reduction helped mitigate their effect. Additionally, diesel‐fuelled leading vehicles compared to petrol‐fuelled lead
ISSN:0905-6947
1600-0668
DOI:10.1155/2024/6377126