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« Previous Abstract[Characteristics and Reactivity of VOCs in a Typical Industrial City in Summer]    Next AbstractHanseniaspora uvarum prolongs shelf life of strawberry via volatile production »

Huan Jing Ke Xue


Title:[Comparison of VOCs Pollution Characteristics Between an Urban Site and a Background Site in Summer in Zibo]
Author(s):Qin T; Xu B; Wang XW; Li LM; Yang W; Wang XL; Geng CM;
Address:"College of Environmental Science & Safety Engineering, Tianjin University of Technology, Tianjin 300384, China. State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environmental Sciences, Beijing 100012, China. Shandong Zibo Eco-Environmental Monitoring Center, Zibo 255000, China"
Journal Title:Huan Jing Ke Xue
Year:2022
Volume:43
Issue:3
Page Number:1286 - 1295
DOI: 10.13227/j.hjkx.202107133
ISSN/ISBN:0250-3301 (Print) 0250-3301 (Linking)
Abstract:"To study the differences in volatile organic compound (VOCs) pollution characteristics between an urban site and a background site in summer, ambient VOCs were monitored using an online gas chromatograph (GC) at an urban site and a background site (Mt. Lu) in Zibo in July 2020. The VOCs pollution characteristics and chemical reactivity were analyzed, and the sources of VOCs were identified using the positive matrix factorization model(PMF). The results showed that rho(TVOC) and rho(NO(x)) were higher at the urban site, but rho(O(3)) was higher at the background site. Diurnal average characteristics of rho(TVOC) and rho(NO(x)) were high at night and low during the day at the urban site, and there were no obvious variation characteristics at the background site. The diurnal average characteristics of rho(O(3)) were consistent at the urban and background sites, showing low level at night and high level during the day; however, the peak in the background site was later than that at the urban site. The average rho(TVOC) at the urban site and background site were (44.9+/-27.5) mug.m(-3) and (17.3+/-9.1) mug.m(-3), respectively, and the mass fraction of each component was ordered as alkanes>aromatics>alkenes>alkynes in both sites. The average ozone formation potentials(OFP)were (115.5+/-63.1) mug.m(-3) and (38.0+/-20.2) mug.m(-3), and the contribution of each component was ordered as alkenes>aromatics>alkanes>alkynes. The respective average values of.OH radical loss rate(L(.OH)) were (3.9+/-2.3) s(-1) and (1.0+/-0.6) s(-1), with the highest contribution of alkenes and the lowest contribution of alkynes in both sites. The average values of secondary organic aerosol formation potential(SOA(p)) were (0.5+/-0.3) mug.m(-3) and (0.2+/-0.06) mug.m(-3), respectively, with aromatic being the most abundant group. According to the source appointment by the PMF model, the main source of VOCs in the urban site was traffic sources (52.4%), followed by petroleum evaporation (19.2%), solvent evaporation (17.3%), and oil and biological sources (11.1%). The source of VOCs in the background site mainly came from traffic sources (40.2%), followed by solvent evaporation (31.3%), combustion sources (19.3%), and biological sources (9.2%). Zibo City should strengthen the management and control of motor vehicle emissions, petroleum evaporation, and the use of industrial solvents"
Keywords:*Air Pollutants/analysis China Environmental Monitoring/methods *Ozone/analysis Vehicle Emissions/analysis *Volatile Organic Compounds/analysis ozone formation potential (OFP) secondary organic aerosol formation potential (SOAp) source apportionment volat;
Notes:"MedlineQin, Tao Xu, Bo Wang, Xin-Wu Li, Li-Ming Yang, Wen Wang, Xiao-Li Geng, Chun-Mei chi China 2022/03/09 Huan Jing Ke Xue. 2022 Mar 8; 43(3):1286-1295. doi: 10.13227/j.hjkx.202107133"

 
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