Nocturnal new particle formation events in urban environments

Few studies have investigated nocturnal new particle formation (NPF) events, and none of them were conducted in urban environments. Nocturnal NPF can potentially be a significant source of particles in urban areas, and studying them would improve our understanding of nucleation mechanisms. To addres...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2017-01, Vol.17 (1), p.521-530
Main Authors: Salimi, Farhad, Rahman, Md. Mahmudur, Clifford, Sam, Ristovski, Zoran, Morawska, Lidia
Format: Article
Language:English
Subjects:
Air masses
Atmospheric aerosols
Atmospheric circulation
Children & youth
Childrens health
Confidence intervals
Daylight
Generalized linear models
Growth rate
Nucleation
Observations
Outdoor air quality
Particle dynamics
Particle formation
Particle size distribution
Pattern analysis
Physical characteristics
Physical properties
Precursors
Quality control
Regression analysis
Size distribution
Statistical analysis
Studies
Trajectory analysis
Trends
Urban areas
Urban environments
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Summary:Few studies have investigated nocturnal new particle formation (NPF) events, and none of them were conducted in urban environments. Nocturnal NPF can potentially be a significant source of particles in urban areas, and studying them would improve our understanding of nucleation mechanisms. To address this, our study was conducted in an urban environment to investigate the physical characteristics of NPF events, with a particular focus on nocturnal events and the differences between them and the daytime NPF events. Particle number size distribution (PNSD) was measured for 2 weeks at each of 25 sites across an urban environment. A new method was proposed to automatically categorise NPF events based on growth rate (GR) in order to remove the bias related to the manual procedure. Out of 219 observed events, 118 and 101 were categorised into class I and II respectively and 73 happened during the nighttime which included more than 30 % of the events. GR and condensation sink (CS) were calculated and a slight negative relationship between GR and CS was observed. Nocturnal events displayed higher GRs compared to daylight ones which were on average about 10 %. Back trajectory analysis was also conducted to estimate the locations of the sources of daylight and nocturnal precursors. While the precursors related to daylight events originated from different locations with no particular pattern, back-trajectory analysis showed many air masses associated with nocturnal NPF events were transported from over the ocean. Overall, nocturnal NPF events were found to be a significant source of particles in the studied environment with different physical characteristics and/or sources compared to daylight events.
ISSN:1680-7324
1680-7316
1680-7324
DOI:10.5194/acp-17-521-2017