| 浙江省中西部典型地区PM2.5中二次有机气溶胶示踪物的分布特征 |
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| 引用本文: | 方燕珍,周梦婷,江敏,黄伊宁,冯加良.浙江省中西部典型地区PM2.5中二次有机气溶胶示踪物的分布特征[J].环境科学研究,2018,31(12):2094-2102. |
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| 作者姓名: | 方燕珍 周梦婷 江敏 黄伊宁 冯加良 |
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| 作者单位: | 1.浙江省兰溪市环境保护监测站, 浙江 兰溪 321100 |
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| 基金项目: | 兰溪市环保局PM2.5源解析项目(No.dscg-lx2015095-129);国家自然科学基金项目(No.41173097,41473088) |
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| 摘 要: | 为了解我国中小城市地区SOA(二次有机气溶胶)的质量浓度及来源,采集了浙江省中西部典型地区——兰溪市城区和近郊2个站点2016年四季的PM2.5样品,利用GC/MS(气相色谱/质谱)分析了PM2.5中11种指示不同来源的SOA示踪物的质量浓度水平,利用示踪物产率法估算了不同来源前体物对SOC(二次有机碳)的贡献.结果表明:兰溪市PM2.5中ρ(异戊二烯SOA示踪物)的年均值为40.79 ng/m3,约占检测示踪物总质量浓度的89%;ρ(α-蒎烯SOA示踪物)、ρ(β-石竹烯SOA示踪物)和ρ(甲苯SOA示踪物)的年均值分别为4.09、0.36和1.01 ng/m3.ρ(异戊二烯SOA示踪物)和ρ(α-蒎烯SOA示踪物)存在夏季 > 秋季 > 春季 > 冬季的季节性变化趋势,ρ(β-石竹烯SOA示踪物)为秋季、冬季 > 春季、夏季,而ρ(甲苯SOA示踪物)的季节性变化不显著,表明不同类型VOCs(挥发性有机物)前体物排放量的季节性变化明显不同.基于示踪物产率法的估算结果表明:夏季异戊二烯等植物源VOCs可能是兰溪市PM2.5中SOA的主要来源;而春季、秋季、冬季甲苯等人为源VOCs是SOA的主要前体物,贡献了兰溪市PM2.5中ρ(SOC)的60%左右.研究显示,减少人为源VOCs的排放对相关地区灰霾及大气细颗粒物污染的防控具有重要作用.
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| 关 键 词: | 二次有机气溶胶 有机示踪物 PM2.5 GC/MS 兰溪市 |
| 收稿时间: | 2018/2/9 0:00:00 |
| 修稿时间: | 2018/8/28 0:00:00 |
Characterization of Secondary Organic Tracers in PM2.5 in a Representative City in Mid-Western Zhejiang Province |
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| FANG Yanzhen,ZHOU Mengting,JIANG Min,HUANG Yining and FENG Jialiang.Characterization of Secondary Organic Tracers in PM2.5 in a Representative City in Mid-Western Zhejiang Province[J].Research of Environmental Sciences,2018,31(12):2094-2102. |
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| Authors: | FANG Yanzhen ZHOU Mengting JIANG Min HUANG Yining and FENG Jialiang |
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| Institution: | 1.Lanxi Environmental Protection Monitoring Station, Lanxi 321100, China2.School of Environmental and Chemical Engineering, Shanghai University, Shanghai 200444, China |
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| Abstract: | In order to understand the concentrations and sources of the secondary organic aerosols (SOA) in the medium and small cities in China, PM2.5 samples were collected in four seasons in 2016 at an urban site and a suburban site of Lanxi City, a representative city in the middle-west of Zhejiang Province. The mass concentrations of 11 organic tracers for SOA from different precursors in the samples were measured with GC/MS. ρ(SOC from different precursors) and their contributions to the total SOC were estimated with the tracer-based method. Results showed that the annual average ρ(SOA tracers for isoprene) in PM2.5 in Lanxi City was 40.79 ng/m3, accounting for about 89% of the quantified SOA tracers. The annual average ρ(α-pinene SOA tracers), ρ(β-caryophyllene SOA tracers) and ρ(toluene SOA tracers) were 4.09, 0.36 and 1.01 ng/m3, respectively. Similar seasonal trend of summer > autumn > spring > winter was found for ρ(isoprene SOA tracers) and ρ(α-pinene SOA tracers), while it was higher in autumn and winter than that in spring and summer for ρ(β-caryophyllene SOA tracer), the seasonal variation of ρ(toluene SOA tracer) was not significant. The differences in the seasonal variations of the SOA tracers indicated that the seasonal emission trends for the target VOCs were different. ρ(SOC) estimation with the tracer-based method suggested that the biogenic VOCs, such as isoprene, might be the main precursors of the summer SOA in Lanxi City, while in spring, autumn and winter, anthropogenic VOCs, such as toluene, contributed about 60% or more of the ρ(SOC) in PM2.5 in Lanxi City. This study showed that reducing the emissions of the anthropogenic VOCs is very important for controlling haze and fine particles in Lanxi City and other cities. |
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| Keywords: | secondary organic aerosol organic tracer PM2 5 GC/MS Lanxi City |
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