Particle Number Emissions and Source Signatures of an Industrial Facility

The work presented was conducted within the scope of a larger study investigating impacts of the Stuart Oil Shale project, a facility operating to the north of the industrial city of Gladstone, Australia. The aims of the investigations were threefold:  (a) the identification of the plant signatures...

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Bibliographic Details
Published in:Environmental science & technology 2006-02, Vol.40 (3), p.803-814
Main Authors: Morawska, L, Johnson, G. R, He, C, Ayoko, G. A, Lim, M. C. H, Swanson, C, Ristovski, Z. D, Moore, M
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Air Pollution - prevention & control
Airborne particulates
Applied sciences
Atmospheric pollution
Australia
Cities
Comparative analysis
Distribution
Emissions
Environmental Monitoring
Environmental science
Exact sciences and technology
Industrial plants
Industry
Other pollution sources in industry
Particle Size
Pollution
Pollution sources. Measurement results
Reference Values
Urban areas
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Summary:The work presented was conducted within the scope of a larger study investigating impacts of the Stuart Oil Shale project, a facility operating to the north of the industrial city of Gladstone, Australia. The aims of the investigations were threefold:  (a) the identification of the plant signatures in terms of particle size distributions in the submicrometer range (13−830 nm) through stack measurements, (b) exploring the applicability of these signatures in tracing the source contributions at locations of interest, at a distance from the plant, and (c) assessing the contribution of the plant to the total particle number concentration at locations of interest. The stack measure ments conducted for three different conditions of plant operation showed that the particle size distributions were bimodal with average modal count median diameters (CMDs) of 24 (SD 4) and 52 (SD 9) nm. The average of all the particle size distributions recorded within the plant sector at a site located 4.5 km from the plant, over the sampling period when the plant was operating, also showed a bimodal distribution. The modal CMDs in this case were 27 and 50 nm, similar to those at the stack. This bimodal size distribution is distinct from the size distribution of the most common ambient anthropogenic emission source, which is vehicle emissions, and can be considered as a signature of this source. The average contribution of the plant (for plant sector winds) was estimated to be (10.0 ± 3.8) × 102 particles cm-3 and constituted approximately a 50% increase over the local particle ambient concentration for plant sector winds. This increase in particle number concentration compared to the local background concentra tion, while high compared to the clean environment concentration, is not significant when compared to concentrations generally encountered in the urban environment of Brisbane.
ISSN:0013-936X
1520-5851
DOI:10.1021/es048337e