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Please use this identifier to cite or link to this item: http://apo.ansto.gov.au/dspace/handle/10238/2169

Title: Source apportionment of ambient volatile organic compounds in major cities in Australia by positive matrix factorisation.
Authors: Chan, AYC
Christensen, E
Golding, G
King, GF
Gore, W
Cohen, DD
Hawas, O
Stelcer, E
Simpson, R
Denison, L
Wong, N
Keywords: Volatile Matter
Surface Coating
Organic Compounds
Emission
Urban Areas
Australia
Issue Date: May-2008
Publisher: Clean Air Society of Australia and New Zealand
Citation: Chan, A. Y. C., Christensen, E., Golding, G., King, G., Gore, W., Cohen, D. D., et al. (2008). Source apportionment of ambient volatile organic compounds in major cities in Australia by positive matrix factorisation. Clean Air and Environmental Quality, 42(2), 22-29.
Abstract: Source apportionment of the 6-daily, 24 h volatile organic compound (VOC) samples collected during 2003–2004 in Melbourne, Sydney and Brisbane was carried out using the Positive Matrix Factorisation software (PMF2). Fourteen C4-C10 VOCs were chosen for source apportionment. Biogenic emissions were not covered in this study because tracer VOCs such as isoprene were not measured. Five VOC source factors were identified, including the ‘evaporative / fuel distribution’ factor (contribute to 37% of the total mass of the 14 VOCs on average), the ‘vehicle exhaust / petrochemical industry’ factor (24%), the ‘biomass burning’ factor (13%), the ‘architectural surface coatings’ factor (5%) and the ‘other sources’ factor (14%). The relative contributions of the source factors to the ambient VOC concentration at the sampling sites were comparable to the relative emission loads of the local sources in Australian air emission inventories. The high contribution from evaporative emissions indicates that introduction of reduction measures for evaporative emissions could substantially reduce the VOC emissions in Australian cities. The total VOC mass and the contributions from vehicle related sources and biomass burning were higher in winter and autumn, while the contributions from surface coatings were higher in summer. © 2008, Clean Air Society of Australia and New Zealand
URI: http://apo.ansto.gov.au/dspace/handle/10238/2169
ISSN: 1444-2841
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