摘要
用Andersen六段分级大流量采样器(粒径为:10~7.2μm,7.2~3.0μm,3.0~1.5μm,1.5~0.95μm,0.95~0.49μm,≤0.49μm)采集了广州市荔湾区4个季度的大气颗粒物样品,用气相色谱(GC)定量分析了其中的正构烷烃(n-alkanes)组分,用气相色谱-质谱(GC-MS)定量分析了其中的多环芳烃(PAHs)组分。CPI2(代表石油成因的碳优势指数)、CPI3(代表生物成因的碳优势指数)和Wax(植物蜡含量)表明了石油成因的烷烃倾向于富集在细颗粒物上,而生物成因的烷烃倾向于富集在粗颗粒物上。正构烷烃和低相对分子质量多环芳烃表现出双峰模型分布,高相对分子质量多环芳烃呈现单峰模型分布,仅在细颗粒段有一峰值。烷烃和芳烃秋冬季的MMDs(质量中值直径)比春夏季的大。在高温季节化合物优先富集在细颗粒物上,而在低温季节则向粗的颗粒物方向偏移。
Seasonal aerosol samples were collected by Andersen Hi-Vol pumping system equipped with a five-stage cascade impactor and a backup filter (size range: 10~7.2μm, 7.2 ~3.0μm, 3.0 ~1.5 μm, 1.5 ~0. 95 μm,0. 95 ~ 0.49 μm, and 〈 0.49 μm) in the Liwan district, Guangzhou. n-Alkanes were measured using gas chromatography and PAHs using gas chromatography-mass spectrometry analysis. CPI2(values for hydrocarbons of petroleum origin), CPI3 (values for biogenic n-alkanes) and Wax (values for vegetable wax content) reveal that the n-alkanes of petroleum origin preferentially accumulate in the smaller aerosol, and biogenic n-alkanes larger aerosol. The log-normal distributions of n-alkanes and semi-volatile PAHs (low relative molecular mass) are of bimodal model, while non-volatile PAHs (high relative molecular mass) of unimodal, model and the peak value is only in the smaller particle. In addition, the different MMDs (mass median diameters) for n-alkanes and PAHs are observed in warm periods and cold periods. The MMDs for n-alkanes and PAHs in autumn/winter are higher than those in spring/summer. The seasonal effect is related to the hydrocarbon content in the individual particulate fractions, showing a preferential association of n-alkanes and PAHs with large particles in the cold season.
出处
《地球化学》
CAS
CSCD
北大核心
2005年第5期508-514,共7页
Geochimica
基金
中国科学院知识创新工程重要方向项目(KZCX3-SW-121)
国家自然科学基金(40343006)~~
关键词
气溶胶
粒径
季节
正构烷烃
多环芳烃
广州市
aerosol
size distribution
season
n-alkanes
PAHs
Guangzhou City
