Abstract
Ambient air measurements of volatile organic compounds (VOCs) and oxygenated volatile organic compounds (OVOCs) were conducted and characterised during a two-year grid study in the Pearl River Delta (PRD) region of southern China. The present grid study pioneered the systematic investigation of the nature and characteristics of complex VOC and OVOC sources at a regional scale. The largest contributing VOCs, accounting over 80% of the total VOCs mixing ratio, were toluene, ethane, ethyne, propane, ethene, butane, benzene, pentane, ethylbenzene, and xylenes. Sub-regional VOC spatial characteristics were identified, namely: i) relatively fresh pollutants, consistent with elevated vehicular and industrial activities, around the PRD estuary; and ii) a concentration gradient with higher mixing ratios of VOCs in the west as compared with the eastern part of PRD. Based on alkyl nitrate aging determination, a high hydroxyl radical (OH) concentration favoured fast hydrocarbon reactions and formation of locally produced ozone. The photochemical reactivity analysis showed aromatic hydrocarbons and alkenes together consisted of around 80% of the ozone formation potential (OFP) among the key VOCs. We also found that the OFP from OVOCs should not be neglected since their OFP contribution was more than one-third of that from VOCs alone. These findings support the choice of current air pollution control policy which focuses on vehicular sources but warrants further controls. Industrial emissions and VOCs emitted by solvents should be the next targets for ground-level ozone abatement.
Highlights
Due to rapid economic and industrial development, the Pearl River Delta (PRD) region, situated in southern China, has sufferedP.K.K
Other Volatile organic compounds (VOCs) species were analysed after preconcentration by gas chromatography (GC) with a multi-detector system (consisting of a mass spectrometer detector (MSD), two flame ionization detectors (FIDs) and two electron capture detectors (ECDs))
The most abundant VOCs observed in the study, accounted for more than 80% of the total VOC composition, comparable with results previously reported for other cities (Table 2)
Summary
Due to rapid economic and industrial development, the Pearl River Delta (PRD) region, situated in southern China, has suffered. Since understanding on VOC and OVOC characteristics over the vast area of the PRD region is still limited, a more systematic and larger scale grid study over the region would fill in the data gap for learning the VOC and OVOC characteristics This solidifies the findings and improves the data quality with a high resolution of sampling locations, and more rigorous sample treatment and QA/QC standard. This grid study was the first and foremost large spatialetemporal scale VOCs and OVOCs sampling in the PRD region. The improved spatial coverage of sampling locations has provided representative measurements over the entire study area, including transitional terrains
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