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非均相氧化反应导致煤烟化学成分的变化。

Changes to the chemical composition of soot from heterogeneous oxidation reactions.

作者信息

Browne Eleanor C, Franklin Jonathan P, Canagaratna Manjula R, Massoli Paola, Kirchstetter Thomas W, Worsnop Douglas R, Wilson Kevin R, Kroll Jesse H

机构信息

Department of Civil and Environmental Engineering, Massachusetts Institute of Technology , Cambridge, Massachusetts 02139, United States.

出版信息

J Phys Chem A. 2015 Feb 19;119(7):1154-63. doi: 10.1021/jp511507d. Epub 2015 Feb 5.

Abstract

The atmospheric aging of soot particles, in which various atmospheric processes alter the particles' chemical and physical properties, is poorly understood and consequently is not well-represented in models. In this work, soot aging via heterogeneous oxidation by OH and ozone is investigated using an aerosol flow reactor coupled to a new high-resolution aerosol mass spectrometric technique that utilizes infrared vaporization and single-photon vacuum ultraviolet ionization. This analytical technique simultaneously measures the elemental and organic carbon components of soot, allowing for the composition of both fractions to be monitored. At oxidant exposures relevant to the particles' atmospheric lifetimes (the equivalent of several days of oxidation), the elemental carbon portion of the soot, which makes up the majority of the particle mass, undergoes no discernible changes in mass or composition. In contrast, the organic carbon (which in the case of methane flame soot is dominated by aliphatic species) is highly reactive, undergoing first the addition of oxygen-containing functional groups and ultimately the loss of organic carbon mass from fragmentation reactions that form volatile products. These changes occur on time scales comparable to those of other nonoxidative aging processes such as condensation, suggesting that further research into the combined effects of heterogeneous and condensational aging is needed to improve our ability to accurately predict the climate and health impacts of soot particles.

摘要

烟灰颗粒的大气老化过程,即各种大气过程改变颗粒的化学和物理性质,目前人们对此了解甚少,因此在模型中也没有得到很好的体现。在这项工作中,通过将气溶胶流动反应器与一种新的高分辨率气溶胶质谱技术相结合,研究了烟灰通过OH和臭氧的非均相氧化而发生的老化过程,该技术利用红外汽化和单光子真空紫外电离。这种分析技术同时测量烟灰的元素碳和有机碳成分,从而能够监测这两种成分的组成。在与颗粒大气寿命相关的氧化剂暴露条件下(相当于几天的氧化时间),构成颗粒质量大部分的烟灰中的元素碳部分,在质量或组成上没有明显变化。相比之下,有机碳(在甲烷火焰烟灰的情况下,主要是脂肪族物质)具有很高的反应活性,首先会添加含氧官能团,最终由于形成挥发性产物的碎片化反应而损失有机碳质量。这些变化发生的时间尺度与其他非氧化老化过程(如凝结)相当,这表明需要进一步研究非均相老化和凝结老化的综合影响, 以提高我们准确预测烟灰颗粒对气候和健康影响的能力。

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