Pasquale Avino 1, Francesco Lopez2, Maurizio Manigrasso1

  • 1 DIPIA, INAIL Settore Ricerca, via IV Novembre 144, I-00187 Rome, Italy
  • 2 Department of Agriculture Environment Food, University of Molise, via De Sanctis, I-86100 Campobasso, Italy

Received: June 8, 2013
Revised: August 27, 2013
Accepted: August 27, 2013
Download Citation: ||https://doi.org/10.4209/aaqr.2013.06.0189  

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Cite this article:
Avino, P., Lopez, F. and Manigrasso, M. (2013). Regional Deposition of Submicrometer Aerosol in the Human Respiratory System Determined at 1-s Time Resolution of Particle Size Distribution Measurements. Aerosol Air Qual. Res. 13: 1702-1711. https://doi.org/10.4209/aaqr.2013.06.0189


 

ABSTRACT


Submicrometer aerosol size number distributions have been measured in downtown Rome with 1 s time resolution. From these data, the particle deposition in the human respiratory system has been assessed for infants, children and adults under different exercise levels. The estimates are reported as size segregated percentages and as total particle numbers deposited. The greatest percentages of particles are deposited in the alveolar interstitial region. Deposited doses, expressed per unit body weight or per unit alveolar surface area, indicate that children and infants are more at risk than adults. Following vehicle exhausts, nucleation particle concentrations increase within a few seconds and decrease in the time scale of tens of seconds. In accordance with traffic cycles, such particles are very common during the day, and decrease at night, when accumulation mode particles are more prevalent. As a consequence, the exposure scenario, in proximity to traffic, may be represented by a sequence of short-term peak exposures. The appraisal of such brief exposures depends on the time resolution of measurements, being underestimated if aerosol measurements are performed with resolutions on the time scale of minutes. The health relevance of such exposure patterns needs to be investigated, and the relevant measurement averaging time should also be defined.


Keywords: Ultrafine Particles; Submicrometer aerosol; FMPS; Respiratory system; Regional deposition


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