应用 PTR-MS 和非目标分析来确定塑料回收设施火灾中排放的挥发性有机化合物的特征。

IF 4.1 3区 医学 Q2 ENVIRONMENTAL SCIENCES
Eva C M Vitucci, Oladayo Oladeji, Albert A Presto, Carolyn L Cannon, Natalie M Johnson
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引用次数: 0

摘要

背景:2023 年 4 月 11 日,位于印第安纳州里士满(Richmond)的 My Way Trading (MWT) 回收设施起火,当地居民被迫疏散,美国环保署(EPA)也不得不对其进行空气监测。EPA 检测到与塑料燃烧有关的空气污染物水平升高,其中包括氰化氢和苯:我们的目标是确定这些和其他挥发性有机化合物 (VOC),并确定每种化合物对各种人体健康影响的潜在危害:为了确定挥发性有机化合物,我们使用质子转移反应质谱法(PTR-MS)和非目标分析法(NTA)对疏散区内和疏散区周边的地点进行了空气监测。为了便于对排放的挥发性有机化合物进行风险评估,我们使用了美国环保局的危害比较仪表板:结果:我们发现在俄亥俄州米德尔敦测量到的疏散区域内外有 46 种挥发性有机化合物的平均检测水平高于当地背景水平。与背景水平相比,氰化氢和其他 4 种挥发性有机化合物在事发地点附近的水平至少高出 1.8 倍,并呈现出独特的时空模式。已确定的 46 种挥发性有机化合物对眼睛和皮肤的潜在危害最大,分别有约 45% 和 39% 的挥发性有机化合物被归类为对这些终点的高危和极高危。值得注意的是,所有检测到的挥发性有机化合物水平都低于为接触单一挥发性有机化合物而设定的危害阈值;然而,接触挥发性有机化合物混合物的危害阈值目前尚不明确:本研究证明了 PTR-MS 与 NTA 联用可促进对人为灾害后排放的挥发性有机化合物进行快速识别和危害评估。此外,该研究还表明,这种方法可以增强未来的灾难应对能力,对复杂燃烧混合物中的其他挥发性有机化合物进行量化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The application of PTR-MS and non-targeted analysis to characterize VOCs emitted from a plastic recycling facility fire.

The application of PTR-MS and non-targeted analysis to characterize VOCs emitted from a plastic recycling facility fire.

Background: On April 11th, 2023, the My Way Trading (MWT) recycling facility in Richmond, Indiana caught fire, mandating the evacuation of local residents and necessitating the U.S. Environmental Protection Agency (EPA) to conduct air monitoring. The EPA detected elevated levels of plastic combustion-related air pollutants, including hydrogen cyanide and benzene.

Objective: We aimed to identify these and other volatile organic compounds (VOCs) present as well as to identify the potential hazard of each compound for various human health effects.

Methods: To identify the VOCs, we conducted air monitoring at sites within and bordering the evacuation zone using proton transfer reaction mass spectrometry (PTR-MS) and non-targeted analysis (NTA). To facilitate risk assessment of the emitted VOCs, we used the EPA Hazard Comparison Dashboard.

Results: We identified 46 VOCs, within and outside the evacuation zone, with average detection levels above local background levels measured in Middletown, OH. Levels of hydrogen cyanide and 4 other VOCs were at least 1.8-fold higher near the incidence site in comparison to background levels and displayed unique temporal and spatial patterns. The 46 VOCs identified had the highest hazardous potential for eye and skin irritation, with approximately 45% and 39%, respectively, of the VOCs classified as high and very high hazards for these endpoints. Notably, all detected VOC levels were below the hazard thresholds set for single VOC exposures; however, hazard thresholds for exposure to VOC mixtures are currently unclear.

Impact: This study serves as a proof-of-concept that PTR-MS coupled with NTA can facilitate rapid identification and hazard assessment of VOCs emitted following anthropogenic disasters. Furthermore, it demonstrates that this approach may augment future disaster responses to quantify additional VOCs present in complex combustion mixtures.

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来源期刊
CiteScore
8.90
自引率
6.70%
发文量
93
审稿时长
3 months
期刊介绍: Journal of Exposure Science and Environmental Epidemiology (JESEE) aims to be the premier and authoritative source of information on advances in exposure science for professionals in a wide range of environmental and public health disciplines. JESEE publishes original peer-reviewed research presenting significant advances in exposure science and exposure analysis, including development and application of the latest technologies for measuring exposures, and innovative computational approaches for translating novel data streams to characterize and predict exposures. The types of papers published in the research section of JESEE are original research articles, translation studies, and correspondence. Reported results should further understanding of the relationship between environmental exposure and human health, describe evaluated novel exposure science tools, or demonstrate potential of exposure science to enable decisions and actions that promote and protect human health.
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