Atmosphere (Dec 2023)

Particle Number Size Distribution in Three Different Microenvironments of London

  • Gopinath Kalaiarasan,
  • Prashant Kumar,
  • Mamatha Tomson,
  • Juan C. Zavala-Reyes,
  • Alexandra E. Porter,
  • Gloria Young,
  • Mark A. Sephton,
  • Hisham Abubakar-Waziri,
  • Christopher C. Pain,
  • Ian M. Adcock,
  • Sharon Mumby,
  • Claire Dilliway,
  • Fangxing Fang,
  • Rossella Arcucci,
  • Kian Fan Chung

DOI
https://doi.org/10.3390/atmos15010045
Journal volume & issue
Vol. 15, no. 1
p. 45

Abstract

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We estimated the particle number distributions (PNDs), particle number concentrations (PNCs), physicochemical characteristics, meteorological effects, and respiratory deposition doses (RDD) in the human respiratory tract for three different particle modes: nucleation (N6–30), accumulation (N30–300), and coarse (N300–10,000) modes. This study was conducted in three different microenvironments (MEs) in London (indoor, IN; traffic intersection, TI; park, PK) measuring particles in the range of 6 nm–10,000 nm using an electrical low-pressure impactor (ELPI+). Mean PNCs were 1.68 ± 1.03 × 104 #cm−3, 7.00 ± 18.96 × 104 #cm−3, and 0.76 ± 0.95 × 104 #cm−3 at IN, TI, and PK, respectively. The PNDs were high for nucleation-mode particles at the TI site, especially during peak traffic hours. Wind speeds ranging from 0 to 6 ms−1 exhibit higher PNCs for nucleation- and accumulation-mode particles at TI and PK sites. Physicochemical characterisation shows trace metals, including Fe, O, and inorganic elements, that were embedded in a matrix of organic material in some samples. Alveolar RDD was higher for the nucleation and accumulation modes than the coarse-mode particles. The chemical signatures from the physicochemical characterisation indicate the varied sources at different MEs. These findings enhance our understanding of the different particle profiles at each ME and should help devise ways of reducing personal exposure at each ME.

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