Optical properties and molecular compositions of water-soluble and water-insoluble brown carbon (BrC) aerosols in Northwest China
ID:3609 View Protection:PRIVATE Updated Time:2023-04-16 20:52:12 Hits:1959 Invited speech

Start Time:2023-05-06 13:30(Asia/Shanghai)

Duration:15min

Session:14A 14A、气溶胶与大气环境 » 14A-114A-1 气溶胶与大气环境

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Abstract
Brown carbon (BrC) contributes significantly to aerosol light absorption, thus can affect the earth’s radiation balance and atmospheric photochemical processes. In this study, we examined the light absorption properties and molecular compositions of water-soluble (WS-BrC) and water-insoluble (WI-BrC) BrC in PM2.5 collected from a rural site in the Guanzhong Basin – a highly polluted region in Northwest China. Both WS-BrC and WI-BrC showed elevated light absorption coefficients (Abs) in winter (4-7 times of those in summer) mainly attributed to enhanced emissions from residential biomass burning (BB) for house heating. While the average mass absorption coefficients at 365 nm (MAC365) of WS-BrC were similar between daytime and nighttime in summer (0.99±0.17 and 1.01±0.18 m2 g-1, respectively), the average MAC365 of WI-BrC was more than a factor of 2 higher during daytime (2.45±1.14 m2 g-1) than at night (1.18±0.36 m2 g-1). This difference was partly attributed to enhanced photochemical formation of WI-BrC species, such as oxygenated polycyclic aromatic hydrocarbons (OPAHs). In contrast, the MACs of WS-BrC and WI-BrC were generally similar in winter and both showed little diel differences. The Abs of wintertime WS-BrC correlated strongly with relative humidity, sulfate, and NO2, suggesting that aqueous-phase reaction is an important pathway for secondary BrC formation during the winter season in Northwest China. Nitrophenols on average contributed 2.44±1.78% of the Abs of WS-BrC in winter, but only 0.12±0.03% in summer due to faster photodegradation reactions. WS-BrC and WI-BrC were estimated to account for 0.83±0.23% and 0.53±0.33%, respectively, of the total down-welling solar radiation in the UV range in summer, and 1.67±0.72% and 2.07±1.24%, respectively, in winter. The total absorption by BrC in the UV region was about 55-79% relative to the elemental carbon (EC) absorption.
Keywords
PM2.5,Brown carbon,aerosol optical properties,Molecular Composition
Speaker
李建军
中国科学院地球环境研究所

Submission Author
李建军 中国科学院地球环境研究所
王格慧 华东师范大学
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Important Date
  • Conference Date

    May 05

    2023

    to

    May 08

    2023

  • Mar 31 2023

    Draft paper submission deadline

  • May 25 2023

    Registration deadline

Sponsored By
青年地学论坛理事会
中国科学院青年创新促进会地学分会
Organized By
武汉大学
中国科学院精密测量科学与技术创新研究院
中国地质大学(武汉)
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