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Sci Total Environ


Title:"Airborne submicron particulate (PM1) pollution in Shanghai, China: chemical variability, formation/dissociation of associated semi-volatile components and the impacts on visibility"
Author(s):Shi Y; Chen J; Hu D; Wang L; Yang X; Wang X;
Address:"Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP(3)), Fudan Tyndall Centre, Department of Environmental Science & Engineering, Fudan University, Shanghai 200433, China. Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP(3)), Fudan Tyndall Centre, Department of Environmental Science & Engineering, Fudan University, Shanghai 200433, China. Electronic address: jmchen@fudan.edu.cn. Chinese Acad Sci, State Key Lab Organ Geochem, Guangzhou Inst Geochem, Guangzhou 510640, China. Electronic address: wangxm@gig.ac.cn"
Journal Title:Sci Total Environ
Year:2014
Volume:20131223
Issue:
Page Number:199 - 206
DOI: 10.1016/j.scitotenv.2013.12.024
ISSN/ISBN:1879-1026 (Electronic) 0048-9697 (Linking)
Abstract:"Hourly mass concentrations of water-soluble ions in PM1 and gasses (NH3, HNO3, HCl) were on-line measured with a Monitor for AeRosols and Gases Analyzer (MARGA) in Shanghai from Oct. 1 to Nov. 16, 2012. During the field campaign, 7 haze episodes (total 157 h) were identified. 845 h were identified as non-haze periods, excluding fog events and wet precipitation. The average mass concentration of PM1 and total water-soluble ions (TWSI) in PM1 in haze episodes were 78.9 +/- 29.9 mug/m(3) and 47.2 +/- 17.2 mug/m(3), 3.11 times (from 1.49 to 4.06 times) and 3.28 times (1.96 to 4.34 times) as those in non-haze periods, respectively. TWSI accounted for 60.4 +/- 18.8% of PM1 mass loading in the whole campaign. With the ascending PM1 mass concentration from 2.5 to 125.0 mug/m(3) from non-haze periods to haze episodes, average contribution of TWSI to PM1 mass loading decreased from 86.1% to 54.2%, while different species altered. Contribution of NO3(-) increased from 14.0% to 26.8%, while SO4(2-) decreased from 39.5% to 15.0% and NH4(+) remained around 13.7%. Relationship of visibility with PM1 and TWSI was addressed in specific RH ranges. It was found that hourly TWSI mass concentration showed better correlation with visibility. Formation/dissociation of semi-volatiles (NH4NO3 and NH4Cl) was also investigated and demonstrated. NH4NO3 and NH4Cl tended to partition into gas phase in non-haze periods. Particularly, strong dissociation from 11:00 LT to 17:00 LT was observed. In haze episodes, HNO3 and HCl tended to react with NH3 to form particulate matters. Interestingly, we found that formation/dissociation of NH4NO3 and NH4Cl exerted great impacts on visibility. Excluding the strong dissociation hours (11:00 LT to 17:00 LT) in correlation analysis of PM1 and visibility, correlation coefficients (R(2)) increased from 0.5762 to 0.7738 at RH<50%. No significant difference was observed in other RH ranges. In addition, Strong NH3 and HNO3 reaction resulted in the enhancement of NH4NO3 mass fraction, therefore increased associated water content in PM1 under high RH condition and contributed to visibility degradation"
Keywords:Air Pollutants/*analysis China *Environmental Monitoring Particulate Matter/*analysis Volatile Organic Compounds/analysis Gas/particle partitioning Pm(1) Semi-volatile components Visibility degradation Water content Water-soluble ions;
Notes:"MedlineShi, Yang Chen, Jianmin Hu, Dawei Wang, Lin Yang, Xin Wang, Xinming eng Research Support, Non-U.S. Gov't Netherlands 2013/12/29 Sci Total Environ. 2014 Mar 1; 473-474:199-206. doi: 10.1016/j.scitotenv.2013.12.024. Epub 2013 Dec 23"

 
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