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Environ Sci Technol


Title:Study of Secondary Organic Aerosol Formation from Chlorine Radical-Initiated Oxidation of Volatile Organic Compounds in a Polluted Atmosphere Using a 3D Chemical Transport Model
Author(s):Choi MS; Qiu X; Zhang J; Wang S; Li X; Sun Y; Chen J; Ying Q;
Address:"Zachry Department of Civil and Environmental Engineering, Texas A&M University, College Station, Texas 77843, United States. State Key Joint Laboratory of Environmental Simulation and Pollution Control, School of Environment, Tsinghua University, Beijing 100084, China. State Environmental Protection Key Laboratory of Sources and Control of Air Pollution Complex, Beijing 100084, China. School of Chemistry and Environment, Beihang University, Beijing 100084, China. State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China. Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP3), Fudan Tyndall Centre, Department of Environmental Science & Engineering, Fudan University, Shanghai 200433, China"
Journal Title:Environ Sci Technol
Year:2020
Volume:20201019
Issue:21
Page Number:13409 - 13418
DOI: 10.1021/acs.est.0c02958
ISSN/ISBN:1520-5851 (Electronic) 0013-936X (Linking)
Abstract:"The impact of chlorine (Cl) chemistry on the formation of secondary organic aerosol (SOA) during a severe wintertime air pollution episode is investigated in this study. The Community Multiscale Air Quality (CMAQ) model v5.0.1 with a modified SAPRC-11 gas-phase mechanism and heterogeneous reactions for reactive chlorine species is updated to include the formation of chlorine radical (Cl(*))-initiated SOA (Cl-SOA) from aromatic compounds, terpenes, and isoprene. Reported SOA yield data on Cl-SOA formation from environmental chamber studies are used to derive the mass yield and volatility data for the two-product equilibrium-partitioning model. The heterogeneous reaction of particulate chloride (pCl(-)) leads to a significant increase in the Cl(*) and hydroxyl radical (OH) concentrations throughout the domain. Monthly Cl-SOA concentrations range from 0.7 to 3.0 mug m(-3), with increasing anthropogenic Cl emissions leading to higher Cl-SOA concentrations. Indirectly, this also leads to an increase of monthly SOA by up to 2.5-3.0 g mum(-3) from the traditional OH oxidation pathways as well as the surface uptake of glyoxal and methylglyoxal. Increased OH concentrations, however, do not always lead to higher overall SOA concentrations in the entire domain. High OH reduces the lifetime of glyoxal/methylglyoxal (GLY/MGLY), making them less available to form SOA. In the Sichuan Basin (SCB) and part of Southwest China where high O(3) concentrations meet high pCl emissions, a higher Cl(*)/OH ratio leads to net O(3) loss from the Cl(*) + O(3) reaction, thus reducing SOA formation from the O(3) oxidation of volatile organic compounds (VOCs). Also, the competition between Cl(*) and OH for VOCs could lead to lower overall SOA because the molar yields of the semivolatile products in Cl-VOC reactions are lower than their OH + VOC reaction counterparts. When Cl(*) concentrations are further increased with higher emissions of Cl, precursor gases can be depleted and become the limiting factor in SOA formation. This study reveals the direct and indirect impacts of chlorine chemistry on SOA in polluted winter conditions, which are greatly affected by the Cl emissions, the ambient O(3) level, and the availability of SOA precursors"
Keywords:Aerosols/analysis *Air Pollutants/analysis Atmosphere China Chlorides Chlorine *Volatile Organic Compounds/analysis;
Notes:"MedlineChoi, Min Su Qiu, Xionghui Zhang, Jie Wang, Shuxiao Li, Xinghua Sun, Yele Chen, Jianmin Ying, Qi eng Research Support, Non-U.S. Gov't 2020/10/20 Environ Sci Technol. 2020 Nov 3; 54(21):13409-13418. doi: 10.1021/acs.est.0c02958. Epub 2020 Oct 19"

 
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