O3 chemistry of 2,5-dimethylfuran: mechanism development†

IF 2.8 Q3 ENVIRONMENTAL SCIENCES Environmental science: atmospheres Pub Date : 2024-08-19 DOI:10.1039/D4EA00045E
Niklas Illmann and Vera Rösgen
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Abstract

Furans are emitted from biomass burning (BB) and contribute to the reactivity of BB plumes with a significant proportion. Consequently, the development of comprehensive furan oxidation schemes is one of the crucial elements towards a better understanding of BB plume chemistry. Nighttime oxidation is supposedly dominated by NO3 radicals and O3. The present study has chosen 2,5-dimethylfuran (25DMF) as a model compound for the development of an O3 oxidation mechanism for furans. Experiments were performed in the QUAREC atmospheric simulation chamber (QUAREC ASC) at 299 ± 2 K and a pressure of 980 ± 20 mbar under dry conditions (relative humidity < 0.1%) targeting the reaction kinetics, the OH formation and the oxidation mechanism. The reactions were monitored by long-path FTIR spectroscopy and a PTR-ToF-MS instrument. We determined a rate coefficient of (3.3 ± 1.0) × 10−16 cm3 molecule−1 s−1 for the target reaction using the relative-rate method. An OH yield of 25 ± 10% was obtained when using 1,3,5-trimethylbenzene as an OH tracer. Reaction products are formaldehyde, methyl glyoxal, ketene, glyoxal, methyl hydroperoxide, acetic anhydride, and acetic acid, respectively. The methyl glyoxal, glyoxal and formaldehyde yields were found to be sensitive to the overall peroxy radical level in the system. The PTR-MS data indicate further reaction products, which are tentatively assigned. A mechanism is postulated to account for the clearly identified reaction products. Overall, the obtained results indicate that O3 oxidation of furans might contribute to acidity in nighttime BB plumes.

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2,5-二甲基呋喃的 O3 化学性质:机理发展†。
呋喃是从生物质燃烧(BB)中排放出来的,在 BB 烟羽的反应性中占有很大比例。因此,制定全面的呋喃氧化方案是更好地了解 BB 烟羽化学性质的关键因素之一。据推测,夜间氧化主要由 NO3 自由基和 O3 主导。本研究选择了 2,5-二甲基呋喃(25DMF)作为模型化合物,用于开发呋喃的 O3 氧化机制。实验在 QUAREC 大气模拟室(QUAREC ASC)中进行,温度为 299±2 K,压力为 980±20 mbar,条件为干燥(相对湿度为 0.1%),以反应动力学、OH 形成和氧化机理为目标。长路径傅立叶变换红外光谱仪和 PTR-ToF-MS 仪器对反应进行了监测。我们采用相对速率法测定目标反应的速率系数为 (3.3 ± 1.0) × 10-16 cm3 molecule-1 s-1。当使用 1,3,5-三甲基苯作为羟基示踪剂时,羟基产率为 25 ± 10%。反应产物分别为甲醛、乙二醛甲酯、烯酮、乙二醛、过氧化氢甲酯、乙酸酐和乙酸。研究发现,乙二醛、乙二醛和甲醛的产量对体系中过氧自由基的总体水平很敏感。PTR-MS 数据显示了更多的反应产物,并对其进行了初步归类。对已明确的反应产物进行了机理推测。总之,所获得的结果表明,呋喃的 O3 氧化可能会导致夜间 BB 烟羽的酸性。
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Back cover Real-time chemical characterization of primary and aged biomass burning aerosols derived from sub-Saharan African biomass fuels in smoldering fires. A framework for describing and classifying methane reporting requirements, emission sources, and monitoring methods† Does gas-phase sulfur dioxide remove films of atmosphere-extracted organic material from the aqueous aerosol air–water interface?† Enhanced detection of aromatic oxidation products using NO3 - chemical ionization mass spectrometry with limited nitric acid.
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