Abstract
Abstract. Ambient volatile organic compounds (VOCs) were measured using an online system, gas chromatography–mass spectrometry/flame ionization detector (GC-MS/FID), in Beijing, China, before, during, and after Asia-Pacific Economic Cooperation (APEC) China 2014, when stringent air quality control measures were implemented. Positive matrix factorization (PMF) was applied to identify the major VOC contributing sources and their temporal variations. The secondary organic aerosols potential (SOAP) approach was used to estimate variations of precursor source contributions to SOA formation. The average VOC mixing ratios during the three periods were 86.17, 48.28, and 72.97 ppbv, respectively. The mixing ratios of total VOC during the control period were reduced by 44 %, and the mixing ratios of acetonitrile, halocarbons, oxygenated VOCs (OVOCs), aromatics, acetylene, alkanes, and alkenes decreased by approximately 65, 62, 54, 53, 37, 36, and 23 %, respectively. The mixing ratios of all measured VOC species decreased during control, and the most affected species were chlorinated VOCs (chloroethane, 1,1-dichloroethylene, chlorobenzene). PMF analysis indicated eight major sources of ambient VOCs, and emissions from target control sources were clearly reduced during the control period. Compared with the values before control, contributions of vehicular exhaust were most reduced, followed by industrial manufacturing and solvent utilization. Reductions of these three sources were responsible for 50, 26, and 16 % of the reductions in ambient VOCs. Contributions of evaporated or liquid gasoline and industrial chemical feedstock were slightly reduced, and contributions of secondary and long-lived species were relatively stable. Due to central heating, emissions from fuel combustion kept on increasing during the whole campaign; because of weak control of liquid petroleum gas (LPG), the highest emissions of LPG occurred in the control period. Vehicle-related sources were the most important precursor sources likely responsible for the reduction in SOA formation during this campaign.
Highlights
Beijing, the capital of China, is one of the world’s megacities, with a population of more than 20 million and a vehicle fleet of more than 5 million (Beijing Municipal Bureau of Statistics, 2014)
The mixing ratios of total volatile organic compounds (VOCs) increased to an average of 72.97 ppbv
Mixing ratios of C2–C12 VOCs were measured at an urban site in Beijing before, during and after the Asia-Pacific Economic Cooperation (APEC) China 2014
Summary
The capital of China, is one of the world’s megacities, with a population of more than 20 million and a vehicle fleet of more than 5 million (Beijing Municipal Bureau of Statistics, 2014). In November 2014, China hosted the Asia-Pacific Economic Cooperation (APEC) Meeting in Beijing, including the Concluding Senior Officials’ Meeting on 5–6 November, the 26th APEC Ministerial Meeting on 7–8 November, and the 22nd APEC Economic Leaders’ Meeting on 10– 11 November. As the host city, Beijing set rigorous plans to reduce emissions of air pollutants in Beijing and neighbouring regions from 1 to 12 November 2014, which resulted in a period of air quality control.
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