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单质硫和含硫矿物对固体沥青中芳烃化合物热演化过程的影响

张延延 李水福 胡守志 方新焰 吴亮亮

张延延, 李水福, 胡守志, 方新焰, 吴亮亮. 单质硫和含硫矿物对固体沥青中芳烃化合物热演化过程的影响[J]. 石油实验地质, 2021, 43(6): 1064-1077. doi: 10.11781/sysydz2021061064
引用本文: 张延延, 李水福, 胡守志, 方新焰, 吴亮亮. 单质硫和含硫矿物对固体沥青中芳烃化合物热演化过程的影响[J]. 石油实验地质, 2021, 43(6): 1064-1077. doi: 10.11781/sysydz2021061064
ZHANG Yanyan, LI Shuifu, HU Shouzhi, FANG Xinyan, WU Liangliang. Effects of elemental sulfur and sulfur-bearing minerals on the thermal evolution of aromatic compounds in solid bitumen[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2021, 43(6): 1064-1077. doi: 10.11781/sysydz2021061064
Citation: ZHANG Yanyan, LI Shuifu, HU Shouzhi, FANG Xinyan, WU Liangliang. Effects of elemental sulfur and sulfur-bearing minerals on the thermal evolution of aromatic compounds in solid bitumen[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2021, 43(6): 1064-1077. doi: 10.11781/sysydz2021061064

单质硫和含硫矿物对固体沥青中芳烃化合物热演化过程的影响

doi: 10.11781/sysydz2021061064
基金项目: 

“十三五”国家科技重大专项 2017ZX05008-002

国家自然科学基金面上项目 41673044

国家自然科学基金面上项目 42073067

中国科学院战略性先导科技专项(B类) XDB10010502

详细信息
    作者简介:

    张延延(1995-), 男, 博士研究生, 从事有机与油气地球化学研究。E-mail: here.yan@qq.com

    通讯作者:

    吴亮亮(1986-), 男, 博士, 副研究员, 从事有机与油气地球化学研究。E-mail: wuliangliang@gig.ac.cn

  • 中图分类号: TE122.113

Effects of elemental sulfur and sulfur-bearing minerals on the thermal evolution of aromatic compounds in solid bitumen

  • 摘要: 前人研究表明,部分芳烃化合物比值参数与有机质成熟度具有良好的线性关系。为了明确常用芳烃化合物比值参数在不同含硫地质条件下的适用性,通过对四川盆地低熟固体沥青样品开展在单质硫和含硫矿物(黄铁矿、硫酸亚铁、硫酸铁和硫酸钙)存在条件下的加水热模拟实验,进而探讨上述含硫物质在固体沥青热演化过程中对其中所赋存的芳烃化合物的影响。研究表明:各类含硫物质均不同程度影响了芳烃化合物甲基化、甲基重排及去甲基化的进程和强度,随之改变了常用芳烃化合物比值参数的适用性及适用范围。但也存在一些在含硫环境下仍能稳定表征有机质成熟度的参数,如萘系化合物的1,2,3-TMN/2,3,6-TMN、菲系化合物的P/(P+∑MP)和甲基菲指数MPI、二苯并噻吩系化合物的4,6-DMDBT/3,6-DMDBT等参数,能够应用于含硫地质体中有机质成熟度的表征。

     

  • 图  1  龙门山北段构造—地层区域分布及采样位置示意

    据参考文献[40]修改。

    Figure  1.  Tectonic-stratigraphic belts and sampling wells in the northern section of Longmen Mountain

    图  2  原始样品芳烃GC-MS谱图

    Figure  2.  GC-MS spectrum of aromatic compounds in solid bitumen samples

    图  3  各系列样品GC-MS的TIC谱图

    Figure  3.  TIC spectra of GC-MS in different samples

    图  4  各系列样品中萘系化合物GC-MS谱图

    a为未知物;1为2-甲基萘;2为1-甲基萘;3为2-乙基萘;4为1-乙基萘;5为2,6+2,7-二甲基萘;6为1,3+1,7-二甲基萘;7为1,6-二甲基萘;8为1,4+2,3-二甲基萘;9为1,5-二甲基萘;10为1,2-二甲基萘;11为1,3,7-三甲基萘;12为1,3,6-三甲基萘;13为1,3,5+1,4,6-三甲基萘;14为2,3,6-三甲基萘;15为1,2,7+1,6,7+2,3,5-三甲基萘;16为1,2,3-三甲基萘

    Figure  4.  GC-MS spectra of naphthalene compounds in different samples

    图  5  各系列样品中MN、DMN和TMN的相对丰度

    Figure  5.  Relative abundance of MN, DMN and TMN in different samples

    图  6  各系列样品中萘系化合物常用比值柱状图及与Ro关系的折线图

    DNR=[2(β), 6(β)-二甲基萘+2(β), 7(β)-二甲基萘]/1(α), 5(α)-二甲基萘;TNR2=[1(α), 3(β), 7(β)-三甲基萘+ 2(β), 3(β), 6(β)-三甲基萘]/[1(α), 3(β), 5(α)-三甲基萘+1(α), 3(β), 6(β)-三甲基萘+1(α), 4(α), 6(β)-三甲基萘]

    Figure  6.  Histograms of common ratios of naphthalene compounds in different samples and line graphs of the relationship with Ro

    图  7  各系列样品中菲系化合物GC-MS谱图

    17为菲;18为3-甲基菲;19为2-甲基菲;20为9-甲基菲;21为1-甲基菲;22为3,5+2,6二甲基菲;23为2,7二甲基菲;24为1,3+3,9+2,10+3,10-二甲基菲;25为1,6+2,9+2,5二甲基菲;26为1,7-二甲基菲;27为2,3+1,9+4, 9+4,10-二甲基菲;28为1,8-二甲基菲;29为1,2-二甲基

    Figure  7.  GC-MS spectra of phenanthrene compounds in different samples

    图  8  各系列样品中菲系化合物常用比值柱状图及与Ro关系折线图

    MPR=[2(β)-MP+3(β)-MP]/[1(α)-MP+9(α)-MP];MPI=1.5(2-MP+3-MP)/(P+1-MP+9-MP)

    Figure  8.  Histograms of common ratios of phenanthrene compounds in different samples and line graphs of the relationship with Ro

    图  9  各系列样品中二苯并噻吩系列化合物GC-MS谱图

    DBT为二苯并噻吩;MDBT为甲基二苯并噻吩;DMDBT为二甲基二苯并噻吩
    b为未知物;30为二苯并噻吩;31为4-甲基二苯并噻吩;32为2,3-甲基二苯并噻吩;33为1-甲基二苯并噻吩;34为4-乙基二苯并噻吩;35为4,6-二甲基二苯并噻吩;36为2,4-二甲基二苯并噻吩;37为2,6-二甲基二苯并噻吩;38为3,6-二甲基二苯并噻吩;39为2,5-二甲基二苯并噻吩;40为2,7+3,7-二甲基二苯并噻吩;41为1,4-二甲基二苯并噻吩;42为1,3+3,4-二甲基二苯并噻吩;43为1,7-二甲基二苯并噻吩

    Figure  9.  GC-MS spectra of dibenzothiophene compounds in different samples

    图  10  各系列样品中二苯并噻吩系化合物常用比值柱状图和与Ro关系折线图

    MDR=4-MDBT/1-MDBT

    Figure  10.  Histograms of common ratios of dibenzothiophene compounds in different samples and line graphs of the relationship with Ro

    图  11  各系列样品中三芳甾类化合物GC-MS谱图

    44为C20-三芳甾烷(1TA20);45为C20-甲基三芳甾烷(2TA21);46为C26-三芳甾烷(20S)(3TA26);47为C26-三芳甾烷(20R)+C27-三芳甾烷(20S)(4TA26+A27);48为C28-三芳甾烷(20S)(5TA28);49为C27-三芳甾烷(20R)(6TA27);50为C28-三芳甾烷(20R)(7TA28)

    Figure  11.  GC-MS spectra of triaromatic steroids in different samples

    图  12  部分系列样品中三芳甾类化合物相对丰度折线图

    图中横坐标化合物代号名称见图 11中的图注。

    Figure  12.  Triaromatic steroids histogram in some series of samples

    表  1  玻璃管热模拟实验条件

    Table  1.   Experimental conditions for glass tube thermal simulations

    温度/℃ 编号 固体沥青/mg H2O/mg 添加剂/mg
    CaSO4 FeS2 FeSO4 Fe2(SO4)3 S
    300 300-1 96.0 24.0
    300-2 98.9 24.0 21.0
    300-3 100.3 24.2 20.8
    300-4 101.6 24.1 21.0
    300-5 103.4 23.9 21.3
    300-6 102.6 24.6 20.5
    330 330-1 99.0 23.7
    330-2 101.6 23.5 20.9
    330-3 101.1 23.6 19.4
    330-4 100.9 23.2 19.8
    330-5 102.1 23.9 21.1
    330-6 99.8 23.3 21.4
    350 350-1 94.6 23.5
    350-2 99.9 25.3 20.8
    350-3 98.3 24.1 20.3
    350-4 101.4 23.7 20.6
    350-5 99.6 23.7 20.9
    350-6 102.9 23.9 21.0
    370 370-1 101.8 23.8
    370-2 103.0 24.5 20.0
    370-3 101.5 23.8 20.9
    370-4 101.3 24.0 22.6
    370-5 103.6 23.6 21.4
    370-6 100.7 24.5 19.7
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  • 收稿日期:  2020-12-03
  • 修回日期:  2021-09-22
  • 刊出日期:  2021-11-28

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