References

ACP

Atmospheric Chemistry and Physics

ACP

Atmos. Chem. Phys.

1680-7324

Copernicus Publications

Göttingen, Germany

10.5194/acp-11-6623-2011

Remarkable dynamics of nanoparticles in the urban atmosphere

Dall'Osto

¹ ⁴ Thorpe

¹ Beddows

D. C. S.

¹ Harrison

R. M.

¹ Barlow

J. F.

² Dunbar

² Williams

P. I.

³ Coe

National Centre for Atmospheric Science, Division of Environmental Health and Risk Management, School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, UK

Department of Meteorology, University of Reading, Earley Gate, P.O. Box 243, Reading Berkshire, RG6, 6BB, UK

National Centre for Atmospheric Science, School of Earth, Atmospheric & Environmental Sciences, University of Manchester, Williamson Building, Oxford Road Manchester M13 9PL, UK

present address: Institute of Earth Sciences "Jaume Almera", Consejo Superior de Investigaciones Científicas (CSIC) C/LLuis Solé i Sabarís s/n, 08028 Barcelona, Spain

12 07 2011

11 13 6623 6637

2011

This work is licensed under the Creative Commons Attribution 3.0 Unported License. To view a copy of this licence, visit https://creativecommons.org/licenses/by/3.0/

This article is available from https://acp.copernicus.org/articles/11/6623/2011/acp-11-6623-2011.html

The full text article is available as a PDF file from https://acp.copernicus.org/articles/11/6623/2011/acp-11-6623-2011.pdf

Nanoparticles emitted from road traffic are the largest source of respiratory exposure for the general public living in urban areas. It has been suggested that adverse health effects of airborne particles may scale with airborne particle number, which if correct, focuses attention on the nanoparticle (less than 100 nm) size range which dominates the number count in urban areas. Urban measurements of particle size distributions have tended to show a broadly similar pattern dominated by a mode centred on 20–30 nm diameter emitted by diesel engine exhaust. In this paper we report the results of measurements of particle number concentration and size distribution made in a major London park as well as on the BT Tower, 160 m aloft. These measurements taken during the REPARTEE project (Regents Park and BT Tower experiment) show a remarkable shift in particle size distributions with major losses of the smallest particle class as particles are advected away from the traffic source. In the Park, the traffic related mode at 20–30 nm diameter is much reduced with a new mode at <10 nm. Size distribution measurements also revealed higher number concentrations of sub-50 nm particles at the BT Tower during days affected by higher turbulence as determined by Doppler Lidar measurements and are indicative of loss of nanoparticles from air aged during less turbulent conditions. These results are suggestive of nanoparticle loss by evaporation, rather than coagulation processes. The results have major implications for understanding the impacts of traffic-generated particulate matter on human health.

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