Characterisation of particulate matter in different types of archives

To determine the composition of particulate matter (PM) in the indoor environments of four different types of archives (three naturally ventilated and one filtered), intensive size-resolved sampling was performed for four seasons of the year. For reconstituting indoor PM, nine aerosol components wer...

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Bibliographic Details
Published in:Atmospheric environment (1994) 2015-04, Vol.107, p.217-224
Main Authors: Maskova, Ludmila, Smolik, Jiri, Vodicka, Petr
Format: Article
Language:English
Subjects:
Archive
Chemical composition
Indoor particles
Mass closure
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Summary:To determine the composition of particulate matter (PM) in the indoor environments of four different types of archives (three naturally ventilated and one filtered), intensive size-resolved sampling was performed for four seasons of the year. For reconstituting indoor PM, nine aerosol components were considered. Organic matter was the dominant component of both fine and coarse fractions and represented approximately 50–80% of the PM. In the fine fraction, the next most abundant components were elemental carbon and sulphate, and in the coarse fraction the next most abundant were crustal matter, sulphate and nitrate. The resulting mass closure explained 95(±13)% and 115(±38)% of the gravimetric indoor PM in the fine and coarse size fractions, respectively. The results revealed that all the particles found indoors can be considered to be potentially threatening to the stored materials. The results also showed that the most important source of indoor PM in the naturally ventilated archives was penetration from the outdoor air, whereas in the filtered archive, the concentrations of particles were strongly reduced. In naturally ventilated archives the influence of domestic heating, road traffic and local sources (industrial pollution, camp fires) was observed. Furthermore, activities of the staff were identified as an indoor source of coarse particles in all archives. •Chemical compositions of size-resolved particles were investigated in four archives.•Organic matter was the dominant component of indoor aerosols.•Chemical components explained 95% and 115% of indoor PM1 and PM10-1, respectively.
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2015.02.049