燃料成分和车辆运行温度对尾气排放体外毒性的影响†。

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
Henri Hakkarainen, Anssi Järvinen, Teemu Lepistö, Niina Kuittinen, Lassi Markkula, Tuukka Ihantola, Mo Yang, Maria-Viola Martikainen, Santtu Mikkonen, Hilkka Timonen, Minna Aurela, Luis Barreira, Mika Ihalainen, Sanna Saarikoski, Topi Rönkkö, Päivi Aakko-Saksa and Pasi Jalava
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引用次数: 0

摘要

交通作为能源行业的重要组成部分,极大地加剧了全球空气污染。为了减少交通排放中的有害成分,相关法规的实施催生了尾气后处理系统等技术解决方案。然而,燃料在排放中也起着至关重要的作用,燃料中的芳香族化合物等成分与废气排放增加有关。目前的一些排放法规忽视了环境因素,例如低温运行,而低温运行会显著增加排放量。此外,燃料芳烃和低温对排放毒性的影响还没有得到充分研究。本研究评估了后处理系统、芳烃燃料含量和低温工作温度对排放毒性的影响。为此,研究人员在温控测功机房中使用了四种不同的轻型车辆,并使用基于热泳的气液界面(ALI)系统将 A549 和 THP-1 细胞株共培养,使其暴露于在线废气排放中。结果表明,柴油和汽油燃料中的芳烃含量都会增加废气毒性。该研究还强调了微粒过滤器作为后处理系统在降低废气毒性方面的潜力,并强调了低温运行如何导致废气毒性增加。该研究还评估了柴油微粒过滤器(DPF)的主动再生事件,该事件会导致数倍的排放和更高的毒性反应。总之,这项研究就各种因素如何影响现代轻型汽车尾气排放的毒性提供了重要的新结果,为减少这一能源行业的排放提供了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of fuel composition and vehicle operating temperature on in vitro toxicity of exhaust emissions†

Effects of fuel composition and vehicle operating temperature on in vitro toxicity of exhaust emissions†

Traffic as an important part of the energy sector significantly contributes to global air pollution. To mitigate the hazardous components of traffic emissions regulations have been implemented resulting in technological solutions such as exhaust after-treatment systems. However, fuels also play a crucial role in emissions and components such as the aromatic compounds in fuel have been linked to increased exhaust emissions. Several current emissions regulations neglect environmental factors, such as cold operating temperatures, that can significantly increase emissions. Moreover, the effect of fuel aromatics and cold temperature on emissions toxicity has not been adequately studied. This study evaluates the impact of after-treatment systems, aromatic fuel content, and cold operating temperature on emission toxicity. To achieve this, four different light-duty vehicles were used in a temperature-controlled dynamometer room, with a co-culture of A549 and THP-1 cell lines exposed to online exhaust emissions using a thermophoresis-based air–liquid interface (ALI) system. The results demonstrate that the aromatic content of both diesel and gasoline fuels increases exhaust toxicity. The study additionally emphasises the potential of particulate filters as after-treatment systems to reduce the toxicity of emissions and highlights how cold running temperatures result in higher exhaust toxicity. The study also assessed the diesel particulate filter (DPF) active regeneration event, which leads to multi-fold emissions and higher toxicological responses. Overall, the study provides crucial novel results on how various factors affect the toxicity of exhaust emissions from modern light-duty vehicles, providing insights into decreasing the emissions from this energy sector.

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