Mixing state of black carbon aerosol in a heavily polluted urban area of China: Implications for light absorption enhancement

Qiyuan Wang; R. J. Huang; Junji Cao; Yongming Han; Gehui Wang; Guohui Li; Yichen Wang; Wenting Dai; Renjian Zhang; Yaqing Zhou

doi:10.1080/02786826.2014.917758

Mixing state of black carbon aerosol in a heavily polluted urban area of China: Implications for light absorption enhancement

Qiyuan Wang
, R. J. Huang
, Junji Cao
, Yongming Han
, Gehui Wang
, Guohui Li
, Yichen Wang
, Wenting Dai
, Renjian Zhang
, Yaqing Zhou

人居环境与建筑工程学院

CAS - Institute of Earth Environment
Paul Scherrer Institute
University of Galway
CAS - Institute of Atmospheric Physics

科研成果: 期刊稿件 › 文章 › 同行评审

132 引用（Scopus）

摘要

Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative balance remain a major uncertainty in climate models. In this study, we investigated the mixing state of refractory black carbon (rBC) and aerosol optical properties in a polluted atmosphere at Xian, western China. The average rBC mass concentration was 9.9 g m^-3 during polluted periods, 7.6 times higher than that in clean periods. About 48.6% of the rBC was internally-mixed or coated with nonrefractory materials during polluted periods; this was 27% higher than in clean periods. Correlation analysis between the number fraction of thickly-coated rBC particles (fB_C) and the major particulate species indicate that organics may be the primary contributor to rBC coatings during polluted periods. The average mass absorption cross section of rBC (MACB_C) particles at = 870 nm was 7.6 ± 0.02 m² g^-1 for the entire campaign. The MACB_C showed a positive correlation with fB_C, and the enhancement of MACB_C due to internal mixing was 1.8 times. These observations suggest that an enhancement of BC absorption by a factor of ∼2 could be appropriate for climate models associated with high PM_2.5 levels.

源语言	英语
页（从-至）	689-697
页数	9
期刊	Aerosol Science and Technology
卷	48
期	7
DOI	https://doi.org/10.1080/02786826.2014.917758
出版状态	已出版 - 3 7月 2014

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title = "Mixing state of black carbon aerosol in a heavily polluted urban area of China: Implications for light absorption enhancement",

abstract = "Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative balance remain a major uncertainty in climate models. In this study, we investigated the mixing state of refractory black carbon (rBC) and aerosol optical properties in a polluted atmosphere at Xian, western China. The average rBC mass concentration was 9.9 g m-3 during polluted periods, 7.6 times higher than that in clean periods. About 48.6\% of the rBC was internally-mixed or coated with nonrefractory materials during polluted periods; this was 27\% higher than in clean periods. Correlation analysis between the number fraction of thickly-coated rBC particles (fBC) and the major particulate species indicate that organics may be the primary contributor to rBC coatings during polluted periods. The average mass absorption cross section of rBC (MACBC) particles at = 870 nm was 7.6 ± 0.02 m2 g-1 for the entire campaign. The MACBC showed a positive correlation with fBC, and the enhancement of MACBC due to internal mixing was 1.8 times. These observations suggest that an enhancement of BC absorption by a factor of ∼2 could be appropriate for climate models associated with high PM2.5 levels.",

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T1 - Mixing state of black carbon aerosol in a heavily polluted urban area of China

T2 - Implications for light absorption enhancement

AU - Wang, Qiyuan

AU - Huang, R. J.

AU - Cao, Junji

AU - Han, Yongming

AU - Wang, Gehui

AU - Li, Guohui

AU - Wang, Yichen

AU - Dai, Wenting

AU - Zhang, Renjian

AU - Zhou, Yaqing

PY - 2014/7/3

Y1 - 2014/7/3

N2 - Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative balance remain a major uncertainty in climate models. In this study, we investigated the mixing state of refractory black carbon (rBC) and aerosol optical properties in a polluted atmosphere at Xian, western China. The average rBC mass concentration was 9.9 g m-3 during polluted periods, 7.6 times higher than that in clean periods. About 48.6% of the rBC was internally-mixed or coated with nonrefractory materials during polluted periods; this was 27% higher than in clean periods. Correlation analysis between the number fraction of thickly-coated rBC particles (fBC) and the major particulate species indicate that organics may be the primary contributor to rBC coatings during polluted periods. The average mass absorption cross section of rBC (MACBC) particles at = 870 nm was 7.6 ± 0.02 m2 g-1 for the entire campaign. The MACBC showed a positive correlation with fBC, and the enhancement of MACBC due to internal mixing was 1.8 times. These observations suggest that an enhancement of BC absorption by a factor of ∼2 could be appropriate for climate models associated with high PM2.5 levels.

AB - Black carbon (BC) is important for climate forcing, and its effects on the Earth's radiative balance remain a major uncertainty in climate models. In this study, we investigated the mixing state of refractory black carbon (rBC) and aerosol optical properties in a polluted atmosphere at Xian, western China. The average rBC mass concentration was 9.9 g m-3 during polluted periods, 7.6 times higher than that in clean periods. About 48.6% of the rBC was internally-mixed or coated with nonrefractory materials during polluted periods; this was 27% higher than in clean periods. Correlation analysis between the number fraction of thickly-coated rBC particles (fBC) and the major particulate species indicate that organics may be the primary contributor to rBC coatings during polluted periods. The average mass absorption cross section of rBC (MACBC) particles at = 870 nm was 7.6 ± 0.02 m2 g-1 for the entire campaign. The MACBC showed a positive correlation with fBC, and the enhancement of MACBC due to internal mixing was 1.8 times. These observations suggest that an enhancement of BC absorption by a factor of ∼2 could be appropriate for climate models associated with high PM2.5 levels.

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M3 - 文章

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VL - 48

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Mixing state of black carbon aerosol in a heavily polluted urban area of China: Implications for light absorption enhancement

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