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油气包裹体分子组成的热释—色谱—质谱分析

陈彦鄂 张志荣 GREENWOODPaul

陈彦鄂, 张志荣, GREENWOODPaul. 油气包裹体分子组成的热释—色谱—质谱分析[J]. 石油实验地质, 2021, 43(5): 915-920. doi: 10.11781/sysydz202105915
引用本文: 陈彦鄂, 张志荣, GREENWOODPaul. 油气包裹体分子组成的热释—色谱—质谱分析[J]. 石油实验地质, 2021, 43(5): 915-920. doi: 10.11781/sysydz202105915
CHEN Yan'e, ZHANG Zhirong, GREENWOOD Paul. Pyrolysis-gas chromatography-mass spectrometry analyses of oil-bearing fluid inclusions composition[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2021, 43(5): 915-920. doi: 10.11781/sysydz202105915
Citation: CHEN Yan'e, ZHANG Zhirong, GREENWOOD Paul. Pyrolysis-gas chromatography-mass spectrometry analyses of oil-bearing fluid inclusions composition[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2021, 43(5): 915-920. doi: 10.11781/sysydz202105915

油气包裹体分子组成的热释—色谱—质谱分析

doi: 10.11781/sysydz202105915
详细信息
    作者简介:

    陈彦鄂(1994-), 女, 硕士, 从事油气地球化学研究。E-mail: chenyane.syky@sinopec.com

  • 中图分类号: TE135

Pyrolysis-gas chromatography-mass spectrometry analyses of oil-bearing fluid inclusions composition

  • 摘要: 油气包裹体分子组成对油气成藏研究来说具有较大的应用价值。由于油气包裹体中所含物质的量不能满足常规化学仪器分析的要求,因此通常需要研发定制仪器且实现难度较大,从而限制了该技术的推广应用。采用热释-色谱-质谱法对澳大利亚Halibut油田原油的人工合成包裹体、澳大利亚Jabiru油田和塔河油田油气包裹体样品进行了烃类组成分析。正构烃类,单、双以及三环芳烃等组分能够被有效检测到,检出化合物的最高碳数超过了C30。该方法与其他手段分析结果具有较高的可比性,Jabiru油田包裹体热释-色谱-质谱分析与包裹体分子组成离线分析(MCI,Molecular Composition of Inclusion)的结果对比显示,芳烃化合物的成熟度参数仅有微小的差异,两种方法获得的包裹体烃类成熟度均明显低于产出原油,印证了油气流体在被捕获形成包裹体后能够避免后期改造的影响。热释法作为一种通用的常规方法,同样适用于油气包裹体的分析,相比于其他手段,该方法更加便捷。

     

  • 图  1  澳大利亚Halibut油田原油人工包裹体组分对比

    *为柱流失等未知物;CH.环己烷;MCH.甲基环己烷;B.苯;T.甲苯;C2-B.邻+间+对二甲苯;N.萘;Cn.正构烷烃;iCn.异构烷烃;Pr.姥鲛烷;Ph.植烷

    Figure  1.  Hydrocarbon composition of synthetic inclusion from Halibut oil field, Australia

    图  2  澳大利亚Halibut油田Halibut-1A人工包裹体以及原油中正构烷烃和类异戊二烯化合物相对含量对比

    正方形数据为Halibut-1A人工包裹体;菱形数据为原油;连线为正构烷烃;散点为类异戊二烯

    Figure  2.  Relative content of n-alkene and isoprene compounds of synthetic inclusions and crude oil from Halibut oil field, Australia

    图  3  澳大利亚Jabiru油田Jabiru包裹体热释法色谱—质谱分析结果

    Figure  3.  Py-GC-MS of inclusions from Jabiru oil field, Australia

    图  4  澳大利亚Jabiru油田包裹体热释法色谱—质谱分析及芳烃化合物质量色谱图

    MN.甲基萘;EN.乙基萘;DMB.二甲基萘;TMN.三甲基萘;P.菲;MP.甲基菲

    Figure  4.  PAHs chromatograms of petroleum released from fluid inclusion (Jabiru oil field, Australia) with Py-GC-MS

    图  5  澳大利亚Jabiru油田包裹体及原油的成熟度参数对比

    Ph.植烷,Pr.姥鲛烷,Rc.镜质体反射率,CPI.碳优势指数,MPI.甲基菲,TMNR.三甲基萘指数,DMNR.二甲基萘指数,MNR.甲基萘指数;蓝色实线为Jabiru原油;绿色点虚线为热释法色谱—质谱法;红色短划线为包裹体离线MCI法,MCI法以及原油分析结果引自参考文献[13]。

    Figure  5.  Maturity parameters for inclusions and crude oil from Jabiru oil field, Australia

    图  6  塔里木盆地T901井包裹体热释法色谱—质谱分析结果

    化合物命名与前文相同。

    Figure  6.  Py-GC-MS of inclusions from well T901, Tarim Basin

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  • 收稿日期:  2021-05-31
  • 修回日期:  2021-07-12
  • 刊出日期:  2021-09-28

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