原油及石油炼制品指纹特征差异性研究
Differences of fingerprint characteristic between fuel oil and product oils
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摘要: 采用气相色谱质谱联用方法(GC/MS),对原油及石油炼制品(包括柴油、机油、燃料油)进行了指纹图谱分析.通过对4种油品中烷烃类、生物标志物和多环芳烃类化合物的原始图谱及半定量浓度和诊断比值比对分析.结果显示,4种油品相互之间烷烃类化合物图谱具有明显差异,机油存在明显UCM不可分辨的混合物)"鼓包",在nC17/Pr、nC18/Ph、nC17/nC18、Pr/Ph和(nC19+nC20)/(nC19+nC20+nC21+nC22)特征比值上存在显著性差异.4种油品在甾烷类、三芳甾烷类、萜烷类和藿烷类化合物的分布和含量上差异性明显;在多环芳烃化合物的含量和分布上,差异不明显.所选取的29个生物标志物特征比值,其中13.79%的特征比值可体现原油、柴油、机油、燃料油的差异性,可作为原油与石油炼制品之间油种鉴定的重点筛查指标.Abstract: Using gas chromatography mass spectrometry, the characteristic ions were extracted and analyzed for four product oils including crude oil, diesel oil, machine oil, fuel oil. The original fingerprint, relative concentration ratio distribution, characteristic ratio and other indicators about alkane and polycyclic aromatic hydrocarbons were analyzed. As shown by the results of GC-MS study, the original fingerprint of fuel oil and 3 product oils has obvious differences, and the machine oil displyed UCM (unresolved complex mixture)bulge. Remarkable differences in characteristic ratios of nC17/Pr, nC18/Ph, nC17/nC18, Pr/Ph and (nC19+nC20)/(nC19+nC20+nC21+nC22) were found between the fuel oil and 3 products. The distribution and content of fuel oil and 3 product oils has obvious differences in Sterane, triaromatic sterane, terpane and hopane compounds, but there was no obvious difference in the distribution and contents of PAH's in the fuel oil and 3 product oils. The characteristic ratios of 29 biomarker in the oil were selected for comparison, and the differences between fuel oil and 3 product oils were shown by 13.79% of the ratio values. Therefore, these characteristic targets could be applied to the identification of fuel oil and product oils.
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Key words:
- oil /
- refined products /
- oil fingerprinting /
- difference /
- character ratio
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[1] SAMMARCO P W, KOLIAN S R,WARBY R A F, et al. Distribution and concentrations of petroleum hydrocarbons associated with the BP/Deepwater Horizon oil spill, Gulf of Mexico[J]. Marine Pollution Bulletin, 2013, 73(1):129-143. [2] WANG C, CHEN B, ZHANG B, et al. Fingerprint and weathering characteristics of crude oils after Dalian oil spill, China.[J]. Marine Pollution Bulletin, 2013, 71(1-2):64-68. [3] 孙培艳,高振会,崔文林,等.油指纹鉴别技术发展及应用[M].北京:海洋出版社,2007:9-11. SUN P Y, GAO Z H, CUI W L, et al. Development and application of oil fingerprint identification technology[M]. Beijing:Ocean Press,2007:9 -11(in Chinese).
[4] WANG Z D, STOUT S T, FINGAS M. Forensic fingerprinting of biomarkers for oil spill characterization and source identification[J]. Environmental Forensics, 2006, 7(2):105-146. [5] 周佩瑜, 陈畅曙, 胡平,等. 多环芳烃油指纹应用于船舶溢油鉴别研究[J]. 海洋学报, 2014, 36(12):91-102. ZHOU P Y, CHEN C S, HU P, et al. Oil fingerprinting of poly aromatic hydrocarbons applied to the identification study of oil spill from ship[J]. Acta Oceanologica Sinica, 2014, 36(12):91-102(in Chinese).
[6] 刘星,王震,马新东,等.常见亚非原油饱和链烷烃分布特征及主成分分析[]].环境污染与防治,2009,31(8):41-45. LIU X, WANG Z, MA X, et al. Principal component analysis and distribution of paraffinic hydrocarbons in crude oils produced in Asia and Africa[J]. Environmental Pollution & Control, 2009,31(8):41-45(in Chinese).
[7] 赵玉慧,孙培艳,王鑫平,等.多环芳烃指纹用于渤海采油平台原油的鉴别[J].色谱,2008,26(1):43-49. ZHAO H Y, SUN P Y, WANG X P, et al. Identification of crude oils in Bohai by polycyclic aromatic hydrocarbon fingerprinting[J]. Chinese Journal of Chromatography,2008,26(1):43-49(in Chinese).
[8] YIM U H, Ha S Y, An J G, et al. Fingerprint and weathering characteristics of stranded oils after the Hebei Spirit oil spill[J]. Journal of Hazardous Materials, 2011, 197(24):60-69. [9] SALAS N, ORTIZ L, GILCOTO M, et al. Fingerprinting petroleum hydrocarbons in plankton and surface sediments during the spring and early summer blooms in the Galician coast (NW Spain) after the Prestige oil spill[J]. Marine Environmental Research, 2006, 62(5):388-413. [10] 韩彬, 郑立, 宋转玲,等. 渤海相近石油平台原油指纹鉴别规律初探[J]. 环境化学, 2012, 31(2):195-201. HAN B, ZHENG L, SONG Z L, et al. Fingerprint identification of different crude oils from adjacent oil platform in Bohai Sea[J]. Environmental Chemistry, 2012, 31(2):195-201(in Chinese).
[11] WANG Z, FINGAS M F. Development of oil hydrocarbon fingerprinting and identification techniques.[J]. Marine Pollution Bulletin, 2003, 47(47):423-452. [12] DALING P S, FAKENESS L G, HANSEN A B, et al. Improved and standardized methodology for oil spill fingerprinting[J]. Environmental Forensics, 2002, 3(3/4):263-278. [13] [14] [15] 刘星, 王震, 马新东,等. 我国几种常见润滑油的指纹分析[J]. 海洋科学, 2011, 35(6):39-43. LIU X, WANG Z, MA X D, et al. Fingerprints analysis o f the lubricating oils produced in China[J]. Marine Sciences, 2011, 35(6):39-43(in Chinese).
[16] 白红妍, 韩彬, 郑立,等. 燃料油与典型渤海原油指纹特征差异性初探[J]. 理化检验:化学分册, 2013, 49(3):260-265. BAI H Y, HAN B, ZHENG L, et al. Preliminary study on difference of fingerprint characteristics between fuel oil and typical crude oil from Bohai Sea[J]. Physical Testing and Chemical Analysis Part B(Chemical Analysis), 2013, 49(3):260-265(in Chinese).
[17] 满庆祥, 孙延伟, 张颖焱,等. 进口原油与燃料油快速鉴别方法探讨[J]. 化学分析计量, 2008, 17(4):74-75. MAN Q X, SUN Y W, ZHANG Y Y et al. The discussion of rapidly identification method in import of crude oil and fuel oil[J]. Chemical Analysis and Meterage, 2008, 17(4):74-75(in Chinese).
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