Six-day measurement of size-resolved indoor fluorescent bioaerosols of outdoor origin in an office

[Display omitted] •Indoor/outdoor size resolved fluorescent bioaerosol concentrations were measured continuously.•Correlations of indoor/outdoor bioaerosol concentrations showed concentration-attenuation and time-lag.•A two-parameter model was proposed and verified.•Penetration and deposition factor...

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Bibliographic Details
Published in:Particuology 2017-04, Vol.31, p.161-169
Main Authors: Xie, Yangyang, Fajardo, Oscar A., Yan, Weizhuo, Zhao, Bin, Jiang, Jingkun
Format: Article
Language:English
Subjects:
Concentrations
Fluorescent bioaerosols
Indoor air
Outdoor air
Particle size distributions
Waveband integrated bioaerosol sensor (WIBS)
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Summary:[Display omitted] •Indoor/outdoor size resolved fluorescent bioaerosol concentrations were measured continuously.•Correlations of indoor/outdoor bioaerosol concentrations showed concentration-attenuation and time-lag.•A two-parameter model was proposed and verified.•Penetration and deposition factors of bioaerosols are close to the values for normal particles. Indoor airborne bioaerosols of outdoor origin play an important role in determining the exposure of humans to bioaerosols because people spend most of their time indoors. However, there are few studies focusing on indoor bioaerosols originating from outdoors. In this study, indoor versus outdoor size-resolved concentrations and particle asymmetry factors of airborne fluorescent bioaerosols in an office room were measured continuously for 6days (144h) using a fluorescent bioaerosol detector. The windows and door of this room were closed to ensure that there was only air infiltration; moreover, any human activities were ceased during sampling to inhibit effects of indoor sources. We focused on fine particles, since few coarse particles enter indoor environments, when windows and doors are closed. Both indoor and outdoor fluorescent bioaerosol size distributions were fit with two-mode lognormal distributions (indoor R2=0.935, outdoor R2=0.938). Asymmetry factor distributions were also fit with lognormal distributions (indoor R2=0.992, outdoor R2=0.992). Correlations between indoor and outdoor fluorescent bioaerosol concentrations show significant concentration-attenuation and a time lag during the study period. A two-parameter, semi-empirical model was used to predict concentrations of indoor fluorescent bioaerosols of outdoor origin. The measured and predicted concentrations had a linear relationship for the studied size fractions, with an R2 for all size fractions of larger than 0.83.
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2016.09.004