Oxidant concentrations and photochemistry in a vehicle cabin.

IF 4.3 3区 环境科学与生态学 Q1 CHEMISTRY, ANALYTICAL
Pedro A F Souza, Corey R Kroptavich, Shan Zhou, Tara F Kahan
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Abstract

Indoor air quality (IAQ) in vehicles can be important to people's health, especially for those whose occupations require them to spend extensive time in vehicles. To date, research on vehicle IAQ has primarily focused on direct emissions as opposed to chemistry happening in vehicle cabins. In this work, we conducted time-resolved measurements of the oxidants and oxidant precursors ozone (O3), nitric oxide (NO), nitrogen dioxide (NO2), and nitrous acid (HONO) inside the cabin of a 2012 Toyota Rav4 under varying ventilation conditions (i.e., car off, car on with passive ventilation, car on with mechanical ventilation via the recirculating fan, and car on with mechanical ventilation via the direct fan). Ozone levels inside the vehicle were significantly lower than outdoors under most conditions, and were approximately half the outdoor levels when the direct fan was in operation. Nitric oxide and NO2 concentrations were very low both inside the vehicle and outdoors. Nitrous acid levels in the vehicle were lower than reported values in other indoor environments, though much higher than expected outdoor levels. We also investigated the potential for photochemical production of radicals in the vehicle. Time- and wavelength-resolved solar irradiance spectra were collected, and steady state hydroxyl radical (OH) and nitrate radical (NO3) concentrations were calculated. Steady state OH concentrations were predicted to be similar to those in air masses in residences illuminated by sunlight, suggesting the importance of HONO photolysis in vehicles. Conversely, nitrate radicals (NO3) were not considered significant indoor oxidants in our study due to rapid titration by NO. Overall, our findings emphasize the importance of both air exchange and photochemistry in shaping the composition of air inside vehicles.

Abstract Image

车厢内的氧化剂浓度和光化学。
车内空气质量(IAQ)对人们的健康非常重要,尤其是对于那些因职业需要而长时间待在车内的人来说。迄今为止,有关车辆室内空气质量的研究主要集中在直接排放方面,而不是车辆驾驶室内发生的化学反应。在这项工作中,我们在不同的通风条件下(即汽车关闭、汽车开启被动通风、汽车开启通过循环风扇进行机械通风以及汽车开启通过直接风扇进行机械通风),对 2012 年丰田 Rav4 车厢内的氧化剂和氧化剂前体臭氧 (O3)、一氧化氮 (NO)、二氧化氮 (NO2) 和亚硝酸 (HONO) 进行了时间分辨测量。在大多数情况下,车内的臭氧浓度明显低于室外,当直接风扇工作时,车内的臭氧浓度约为室外的一半。车内和室外的一氧化氮和二氧化氮浓度都很低。车内的一氧化二氮含量低于其他室内环境的报告值,但远高于室外的预期水平。我们还研究了车内产生光化学自由基的可能性。我们收集了时间和波长分辨太阳辐照度光谱,并计算了稳态羟基自由基(OH)和硝酸自由基(NO3)的浓度。根据预测,稳态羟基自由基浓度与受到阳光照射的住宅空气中的羟基自由基浓度相似,这表明 HONO 光解作用在车辆中的重要性。相反,在我们的研究中,硝酸自由基(NO3)并不被认为是重要的室内氧化剂,因为它很快就会被 NO 滴定。总之,我们的研究结果强调了空气交换和光化学在形成车内空气成分方面的重要性。
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来源期刊
Environmental Science: Processes & Impacts
Environmental Science: Processes & Impacts CHEMISTRY, ANALYTICAL-ENVIRONMENTAL SCIENCES
CiteScore
9.50
自引率
3.60%
发文量
202
审稿时长
1 months
期刊介绍: Environmental Science: Processes & Impacts publishes high quality papers in all areas of the environmental chemical sciences, including chemistry of the air, water, soil and sediment. We welcome studies on the environmental fate and effects of anthropogenic and naturally occurring contaminants, both chemical and microbiological, as well as related natural element cycling processes.
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