Photochemical Aging Enhances the Viscosity of Biomass Burning Organic Aerosol
NEALAN GERREBOS, Sepehr Nikkho, Lyle Browning, Julia Zaks, Changda Wu, Allan K. Bertram,
University of British Columbia Abstract Number: 533
Working Group: Aerosol Physics
AbstractBiomass burning organic aerosols (BBOA) are a major contributor to organic aerosols in the atmosphere. Viscosity is an important property of BBOA, as it influences many of the processes it is involved in in the atmosphere; this includes but is not limited to particle growth rates, heterogeneous reactivity, and photochemistry. As BBOA is transported through the troposphere, it undergoes photochemical aging due to reactions with atmospheric oxidants such as OH and O
3. Recently it has been shown that the viscosities of some aerosols can be enhanced through atmospheric aging processes. However, research on the influence of atmospheric aging on BBOA is still limited.
We used a Potential Aerosol Mass oxidative flow reactor (185 nm mode) to expose BBOA to high concentrations of OH and O
3, simulating the equivalent of 1 to 8 days in the troposphere. We measured the viscosity of the photochemically aged BBOA with the poke-flow viscometry technique, and found that aging increased the viscosity of BBOA. After 1 day of aging, the viscosity of BBOA increased by several orders of magnitude. However, further aging up to 8 days saw a less dramatic increase in viscosity, with no noticeable increase between 5 days and 8 days. We also measured the carbon oxidation state of the BBOA with high-resolution aerosol mass spectrometry, and the trend in increasing oxidation state reflected the trend in viscosity. This suggests that the most dramatic changes in the physicochemical properties of BBOA occur within the first days or hours of aging, after which oxidation becomes a less significant aging mechanism. These results have implications for how the physicochemical properties of BBOA should be treated in models.
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