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深圳大气PM2.5中水溶性有机物的来源特征
引用本文:孙逸飞,李孟林,江家豪,戴静,高茂尚,黄晓锋,何凌燕. 深圳大气PM2.5中水溶性有机物的来源特征[J]. 中国环境科学, 2020, 40(5): 1869-1876
作者姓名:孙逸飞  李孟林  江家豪  戴静  高茂尚  黄晓锋  何凌燕
作者单位:北京大学深圳研究生院城市人居环境科学与技术实验室, 广东 深圳 518055
基金项目:国家自然科学基金资助项目(91744202)、深圳市科技计划资助项目(JCYJ20170306164713148)
摘    要:
对2017年9月~2018年8月深圳市北部大气PM2.5中水溶性有机物(WSOM)的质量浓度、质谱及来源结构进行测量和分析.结果表明:PM2.5的质量浓度为(32.3±18.4)μg/m3,WSOM的质量浓度为(9.4±5.7)μg/m3,占颗粒物总有机物的(77.6%±14.0%).质谱分析显示,WSOM的氧碳比(O/C)平均值达到(0.57±0.09),属于二次有机物的O/C值范围,且生物质燃烧排放的离子碎片C2H4O2+的丰度显著,说明WSOM的来源中有显著的生物质燃烧排放的有机气溶胶.为了明确WSOM的来源结构,利用正矩阵因子分解法(PMF)模型进行来源解析,发现3个合理因子:高氧化态有机气溶胶(MO-OOA),低氧化态有机气溶胶(LO-OOA)和生物质燃烧(BBOA),贡献比例分别为51.7%,31.8%和16.5%.MO-OOA和BBOA贡献浓度均呈现秋冬高、春夏低的季节变化特征,反向轨迹分析显示其与...

关 键 词:水溶性有机物(WSOM)  正矩阵因子分解法(PMF)  14C同位素  来源分析
收稿时间:2019-10-22

Source apportionment of water-soluble organic matter in PM2.5 in Shenzhen
SUN Yi-fei,LI Meng-lin,JIANG Jia-hao,DAI Jing,GAO Mao-shang,HUANG Xiao-feng,HE Ling-yan. Source apportionment of water-soluble organic matter in PM2.5 in Shenzhen[J]. China Environmental Science, 2020, 40(5): 1869-1876
Authors:SUN Yi-fei  LI Meng-lin  JIANG Jia-hao  DAI Jing  GAO Mao-shang  HUANG Xiao-feng  HE Ling-yan
Affiliation:Key Laboratory of Urban Human Residential Environmental Science and Technology, Shenzhen Graduate School, Peking University, Shenzhen 518055, China
Abstract:
This study systematically analyzed the Water-Soluble Organic matter (WSOM) in PM2.5 collected during September 2017 to August 2018 in the northernzone in Shenzhen. The mass concentration, mass spectraand sources of WSOM were obtained. The average mass concentration of PM2.5 was (32.3±18.4)μg/m3. WSOM was determined to be 77.6%±14.0% of the organic matter (OM), with anaverage mass concentration of (9.4±5.7)μg/m3. As shown in the mass spectrometry, the average O/C ratio of WSOM was 0.57±0.99, which was within thetypical range ofthe O/C valuesof SOA. Meanwhile, the abundant C2H4O2+ proved that biomass burning organic aerosol (BBOA) contributed significantly to the WSOM. Furthermore, positive matrix factorization (PMF) model was applied to perform source apportionment of WSOM and three reasonable factors were identified, including BBOA, more oxidized oxygenated OA (MO-OOA) and less oxidized oxygenated OA (LO-OOA), accounting for 16.5%, 51.7% and 31.8%, respectively. Compared to spring and summer, BBOA and MO-OOAcontributed more in autumn and winter,which was more closely related to inland pollution transport based on backward trajectory analysis. Thelittle variation of LO-OOA in different air masses possibly impliedits local sources. 14C measurement was conducted to help separate fossil and non-fossil emissions of WSOM, and the fossil fuel-derived secondary organic matterwas found to dominate the WSOM mass (53.9%). Therefore, it's necessary to strengthen the control of fossil fuel sources in order to reduce WSOM pollution.
Keywords:water-soluble organic matter (WSOM)  positive matrix factorization (PMF)  14C measurement  source apportionment  
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