Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Black carbon aerosol characterization in a coastal city in South China using a single particle soot photometer
Abstract Black carbon (BC) is the dominant light-absorbing aerosol component in the atmosphere and plays an important role in atmospheric pollution and climate change. The light-absorbing properties of BC rely on particle size, shape, composition, as well as the BC mixing state with other aerosol components, thus more thorough exploration of BC aerosol characteristics is critical in understanding its atmospheric sources and effects. In this study, a newly-developed Single Particle Soot Photometer (SP2) was deployed in Shenzhen, China, for continuous BC measurements to obtain the important information about size distribution and mixing state of BC under severe air pollution conditions of China. The mean BC mass concentrations were found to be 6.0 and 4.1 μg m−3 at an urban site (UT) in the fall and winter, respectively, while it is much lower (2.6 μg m−3) at a rural site (BG) in the fall. The mass size distributions of BC in volume equivalent diameter (VED) at the three sites showed a similar lognormal pattern, with the peak diameter at BG (222 nm) slightly larger than at the UT (210 nm) site. As to mixing state, the average percentage of internally mixed BC at the UT site was detected to be 40% and 46% in the fall and winter, respectively, while that at the BG site in the fall was only a slightly higher (47%), which implies that fresh local fossil fuel combustions were still significant at this rural site. The analysis of extremely high BC concentrations (>20 μg m−3) at UT indicates that they were a complex of comparable contributions from both local fresh emissions and regional transport under unfavorable meteorology. Other characteristics of BC aerosol and their influencing factors in Shenzhen were also discussed.
Highlights ► A newly-developed single particle soot photometer was deployed in Shenzhen, China. ► Size distribution and mixing state of black carbon aerosol were measured on-line. ► Black carbon aerosol showed features of both local emissions and regional transport.
Black carbon aerosol characterization in a coastal city in South China using a single particle soot photometer
Abstract Black carbon (BC) is the dominant light-absorbing aerosol component in the atmosphere and plays an important role in atmospheric pollution and climate change. The light-absorbing properties of BC rely on particle size, shape, composition, as well as the BC mixing state with other aerosol components, thus more thorough exploration of BC aerosol characteristics is critical in understanding its atmospheric sources and effects. In this study, a newly-developed Single Particle Soot Photometer (SP2) was deployed in Shenzhen, China, for continuous BC measurements to obtain the important information about size distribution and mixing state of BC under severe air pollution conditions of China. The mean BC mass concentrations were found to be 6.0 and 4.1 μg m−3 at an urban site (UT) in the fall and winter, respectively, while it is much lower (2.6 μg m−3) at a rural site (BG) in the fall. The mass size distributions of BC in volume equivalent diameter (VED) at the three sites showed a similar lognormal pattern, with the peak diameter at BG (222 nm) slightly larger than at the UT (210 nm) site. As to mixing state, the average percentage of internally mixed BC at the UT site was detected to be 40% and 46% in the fall and winter, respectively, while that at the BG site in the fall was only a slightly higher (47%), which implies that fresh local fossil fuel combustions were still significant at this rural site. The analysis of extremely high BC concentrations (>20 μg m−3) at UT indicates that they were a complex of comparable contributions from both local fresh emissions and regional transport under unfavorable meteorology. Other characteristics of BC aerosol and their influencing factors in Shenzhen were also discussed.
Highlights ► A newly-developed single particle soot photometer was deployed in Shenzhen, China. ► Size distribution and mixing state of black carbon aerosol were measured on-line. ► Black carbon aerosol showed features of both local emissions and regional transport.
Black carbon aerosol characterization in a coastal city in South China using a single particle soot photometer
Huang, Xiao-Feng (Autor:in) / Sun, Tian-Le (Autor:in) / Zeng, Li-Wu (Autor:in) / Yu, Guang-He (Autor:in) / Luan, Sheng-Ji (Autor:in)
Atmospheric Environment ; 51 ; 21-28
23.01.2012
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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