Aerosol number size distributions over a coastal semi urban location: Seasonal changes and ultrafine particle bursts

Aerosol number size distributions over a coastal semi urban location: Seasonal changes and ultrafine particle bursts

Number-size distribution is one of the important microphysical properties of atmospheric aerosols that influence aerosol life cycle, aerosol-radiation interaction as well as aerosol-cloud interactions. Making use of one-yearlong measurements of aerosol particle number-size distributions (PNSD) over...

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Bibliographic Details
Published in:The Science of the total environment Vol. 563-564; pp. 351 - 365
Main Authors: Babu, S. Suresh, Kompalli, Sobhan Kumar, Moorthy, K. Krishna
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-09-2016
Subjects:
Air masses
Number concentration
Particle size distributions
Ultrafine particle bursts
ISW, India, Kerala, Thiruvananthapuram
Air masses
Number concentration
Particle size distributions
Ultrafine particle bursts
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Summary:Number-size distribution is one of the important microphysical properties of atmospheric aerosols that influence aerosol life cycle, aerosol-radiation interaction as well as aerosol-cloud interactions. Making use of one-yearlong measurements of aerosol particle number-size distributions (PNSD) over a broad size spectrum (~15–15,000nm) from a tropical coastal semi-urban location-Trivandrum (Thiruvananthapuram), the size characteristics, their seasonality and response to mesoscale and synoptic scale meteorology are examined. While the accumulation mode contributed mostly to the annual mean concentration, ultrafine particles (having diameter <100nm) contributed as much as 45% to the total concentration, and thus constitute a strong reservoir, that would add to the larger particles through size transformation. The size distributions were, in general, bimodal with well-defined modes in the accumulation and coarse regimes, with mode diameters lying in the range 141 to 167nm and 1150 to 1760nm respectively, in different seasons. Despite the contribution of the coarse sized particles to the total number concentration being meager, they contributed significantly to the surface area and volume, especially during transport of marine air mass highlighting the role of synoptic air mass changes. Significant diurnal variation occurred in the number concentrations, geometric mean diameters, which is mostly attributed to the dynamics of the local coastal atmospheric boundary layer and the effect of mesoscale land/sea breeze circulation. Bursts of ultrafine particles (UFP) occurred quite frequently, apparently during periods of land-sea breeze transitions, caused by the strong mixing of precursor-rich urban air mass with the cleaner marine air mass; the resulting turbulence along with boundary layer dynamics aiding the nucleation. These ex-situ particles were observed at the surface due to the transport associated with boundary layer dynamics. The particle growth rates from ultrafine particles to accumulation sizes varied between 1 and 15nmh−1, with mean growth rate of ~7.35±2.93nmh−1. [Display omitted] •Yearlong observation of aerosol size distributions over a wide range (15-15000nm)•Significant changes in size distributions with varying synoptic air masses•Diurnal variation in number concentrations due to sea/land breeze circulation•Ultrafine particle bursts due to mixing of air masses during breeze transitions.•Ultrafine particle bursts are aided by local boundary layer dynamics.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.03.246