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Seasonal variability and source distribution of haze particles from a continuous one-year study in Beijing.
Atmos. Pollut. Res. 9, 627-633 (2018)
Haze pollution by anthropogenic emitted particles is a frequent challenge for Beijing air quality in addition to the well-known dust storm events. Man-made air pollution is able to cause hazy conditions reducing the sight range. Since those air quality conditions became more and more frequent in Beijing recently, this paper focuses on the seasonal variability of the air quality during such haze episodes in relation to clear air situations. In order to find out the characteristics of airborne PM during haze episodes in different seasons as well as of the corresponding PM sources or air flow influences, a continuous one-year daily PM sampling from June 2010 till June 2011 was performed at the campus of the China University of Geoscience (Beijing). The inorganic elements, water-soluble ions, element carbon and organic carbon as well as levoglucosan, hopanes and PAHs were analyzed, respectively. Positive matrix factorization and back trajectory cluster analyses were applied and combined to identify and apportion sources. The results show that the main sources of particles during haze are secondary inorganic ions formations. Beyond that, different sources from season to season are obvious: biomass burning derived particles have high impact on summer and autumn haze, coal combustion is a major source for winter haze whereas mineral dust emissions are most prominent in spring haze. The sources of PM during clear days were dominated by mineral dust emissions and traffic. Nearby southerly industrial regions were found to be the main source areas of particles during haze in Beijing.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Haze ; Seasonal Variation ; Characteristics ; Source Apportionment ; Pmf ; Back Trajectory Cluster Analyses; Particulate Air-pollution; North China Plain; Source Apportionment; January 2013; Elemental Carbon; Eastern China; Pm2.5; Matter; Aerosol; Episode
e-ISSN
1309-1042
Journal
Atmospheric Pollution Research
Quellenangaben
Volume: 9,
Issue: 4,
Pages: 627-633
Publisher
Elsevier
Publishing Place
Buca
Non-patent literature
Publications
Reviewing status
Peer reviewed