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DOI10.5194/acp-21-7963-2021
SO2 and NH3 emissions enhance organosulfur compounds and fine particle formation from the photooxidation of a typical aromatic hydrocarbon
Yang Z.; Xu L.; Tsona N.T.; Li J.; Luo X.; Du L.
发表日期2021
ISSN1680-7316
起始页码7963
结束页码7981
卷号21期号:10
英文摘要Aromatic hydrocarbons can dominate the volatile organic compound budget in the urban atmosphere. Among them, 1,2,4-trimethylbenzene (TMB), mainly emitted from solvent use, is one of the most important secondary organic aerosol (SOA) precursors. Although atmospheric SO2 and NH3 levels can affect secondary aerosol formation, the influenced extent of their impact and their detailed driving mechanisms are not well understood. The focus of the present study is to examine the chemical compositions and formation mechanisms of SOA from TMB photooxidation influenced by SO2 and/or NH3. Here, we show that SO2 emission could considerably enhance aerosol particle formation due to SO2-induced sulfate generation and acid-catalyzed heterogeneous reactions. Orbitrap mass spectrometry measurements revealed the generation of not only typical TMB products but also hitherto unidentified organosulfates (OSs) in SO2-added experiments. The OSs designated as being of unknown origin in earlier field measurements were also detected in TMB SOA, indicating that atmospheric OSs might also be originated from TMB photooxidation. For NH3- involved experiments, results demonstrated a positive correlation between NH3 levels and particle volume as well as number concentrations. The effects of NH3 on SOA composition were slight under SO2- free conditions but stronger in the presence of SO2. A series of multifunctional products with carbonyl, alcohols, and nitrate functional groups were tentatively characterized in NH3-involved experiments based on infrared spectra and mass spectrometry analysis. Plausible formation pathways were proposed for detected products in the particle phase. The volatility distributions of products, estimated using parameterization methods, suggested that the detected products gradually condense onto the nucleation particles to contribute to aerosol formation and growth. Our results suggest that strict control of SO2 and NH3 emissions might remarkably reduce organosulfates and secondary aerosol burden in the atmosphere. Updating the aromatic oxidation mechanism in models could result in more accurate treatment of particle formation for urban regions with considerable SO2, NH3, and aromatics emissions. © 2021 Zhaomin Yang et al.
语种英语
scopus关键词aerosol; ammonia; aromatic hydrocarbon; concentration (composition); organometallic compound; particulate matter; photooxidation; sulfur dioxide; volatile organic compound
来源期刊ATMOSPHERIC CHEMISTRY AND PHYSICS
文献类型期刊论文
条目标识符http://gcip.llas.ac.cn/handle/2XKMVOVA/246864
作者单位Environment Research Institute, Shandong University, Qingdao, 266237, China; Technology Center of Qingdao Customs, Qingdao, 266003, China
推荐引用方式
GB/T 7714
Yang Z.,Xu L.,Tsona N.T.,et al. SO2 and NH3 emissions enhance organosulfur compounds and fine particle formation from the photooxidation of a typical aromatic hydrocarbon[J],2021,21(10).
APA Yang Z.,Xu L.,Tsona N.T.,Li J.,Luo X.,&Du L..(2021).SO2 and NH3 emissions enhance organosulfur compounds and fine particle formation from the photooxidation of a typical aromatic hydrocarbon.ATMOSPHERIC CHEMISTRY AND PHYSICS,21(10).
MLA Yang Z.,et al."SO2 and NH3 emissions enhance organosulfur compounds and fine particle formation from the photooxidation of a typical aromatic hydrocarbon".ATMOSPHERIC CHEMISTRY AND PHYSICS 21.10(2021).
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