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多芳烃参数定量评价烃源岩成熟度的方法——以银额盆地中生界烃源岩为例

陈治军 张亚雄 王永昌 王希 葛宏选 高志亮 李子梁

陈治军, 张亚雄, 王永昌, 王希, 葛宏选, 高志亮, 李子梁. 多芳烃参数定量评价烃源岩成熟度的方法——以银额盆地中生界烃源岩为例[J]. 石油实验地质, 2022, 44(1): 139-149. doi: 10.11781/sysydz202201139
引用本文: 陈治军, 张亚雄, 王永昌, 王希, 葛宏选, 高志亮, 李子梁. 多芳烃参数定量评价烃源岩成熟度的方法——以银额盆地中生界烃源岩为例[J]. 石油实验地质, 2022, 44(1): 139-149. doi: 10.11781/sysydz202201139
CHEN Zhijun, ZHANG Yaxiong, WANG Yongchang, WANG Xi, GE Hongxuan, GAO Zhiliang, LI Ziliang. Quantitative assessment of source rock maturity with multiple aromatic parameters: a case study of Mesozoic source rocks in Yingen-Ejinaqi Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2022, 44(1): 139-149. doi: 10.11781/sysydz202201139
Citation: CHEN Zhijun, ZHANG Yaxiong, WANG Yongchang, WANG Xi, GE Hongxuan, GAO Zhiliang, LI Ziliang. Quantitative assessment of source rock maturity with multiple aromatic parameters: a case study of Mesozoic source rocks in Yingen-Ejinaqi Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2022, 44(1): 139-149. doi: 10.11781/sysydz202201139

多芳烃参数定量评价烃源岩成熟度的方法——以银额盆地中生界烃源岩为例

doi: 10.11781/sysydz202201139
基金项目: 

国土资源部重点项目“十三五全国油气资源评价” 2017YQZYPJ01

延长集团科技攻关项目“银额盆地哈日凹陷主力烃源岩生烃特征与资源潜力分析” ycsy2020jcyjB-03

详细信息
    作者简介:

    陈治军(1980-), 男, 博士研究生, 高级工程师, 从事油气地球化学研究。E-mail: chenzhijun2203@aliyun.com

    通讯作者:

    张亚雄(1983-), 男, 博士, 高级工程师, 从事石油地质学、沉积学研究工作。E-mail: 157498674@qq.com

  • 中图分类号: TE122.1

Quantitative assessment of source rock maturity with multiple aromatic parameters: a case study of Mesozoic source rocks in Yingen-Ejinaqi Basin

  • 摘要: 芳烃成熟度参数被广泛应用于评价烃源岩或原油成熟度,但实际上生源特征、沉积环境等因素对一些参数的影响可能大于成熟度的控制,导致一些参数在某些研究区的应用效果并不理想,且前人基于单一参数建立的计算视镜质体反射率(Rc)的关系式也并不适用于所有研究区,因此,探索出了一种芳烃参数定量评价烃源岩成熟度的方法。该方法基于研究区一定数量的烃源岩芳烃组分的色谱—质谱(GC-MS)分析数据,通过开展各芳烃成熟度参数与Ro的相关性分析,分别在烷基萘系列、烷基菲系列和烷基二苯并噻吩系列3大类芳烃成熟度参数中找出1个对成熟度最敏感(相关系数最大)的参数,利用数值分析软件对这几个参数和Ro进行多元线性回归,拟合出一个利用多参数定量计算Rc的关系式。该方法在银额盆地哈日凹陷中生界湖相混合型(有机质类型以Ⅱ1—Ⅱ2型为主)烃源岩研究中取得了很好的应用效果。用该方法拟合出的关系式计算的RcRo的相关系数R2高达0.96,相对于单一芳烃参数,相关系数有了大幅度的提高,表明该方法具有可靠性。

     

  • 图  1  萘、菲和二苯并噻吩碳骨架型式

    据文献[15, 18]修改。

    Figure  1.  Carbon skeleton pattern of naphthalene, phenanthrene and dibenzothiophene compounds

    图  2  银额旗盆地哈日凹陷构造位置及相关取样井

    Figure  2.  Tectonic location of Hari Sag in Yingen-Ejinaqi Basin and relevant sampling wells

    图  3  银额盆地哈日凹陷中生界湖相烃源岩样品的TOC(a)、S1+S2(b)分布频率直方图

    Figure  3.  Distribution frequency of TOC (a) and S1+S2 (b) of lacustrine source rock samples from Mesozoic, Hari Sag, Yingen-Ejinaqi Basin

    图  4  银额盆地哈日凹陷中生界湖相烃源岩样品有机质类型划分

    底图据文献[32-33]。

    Figure  4.  Organic matter types of lacustrine source rock samples from Mesozoic, Hari Sag, Yingen-Ejinaqi Basin

    图  5  银额盆地哈日凹陷中生界湖相烃源岩样品芳烃系列相对含量

    Figure  5.  Component of polycyclic aromatic compounds of lacustrine source rock samples from Mesozoic, Hari Sag, Yingen-Ejinaqi Basin

    图  6  银额盆地哈日凹陷中生界湖相烃源岩芳烃参数与Ro相关关系

    Figure  6.  Correlation between maturity parameters of polycyclic aromatic and Ro of lacustrine source rock samples from Mesozoic, Hari Sag, Yingen-Ejinaqi Basin

    图  7  银额盆地哈日凹陷中生界湖相烃源岩样品新模型计算的RcRo相关关系

    Figure  7.  Correlation between Rc calculated by the new model and Ro of lacustrine source rock samples from Mesozoic, Hari Sag, Yingen-Ejinaqi Basin

    表  1  芳烃成熟度参数

    Table  1.   Maturity parameters of aromatic hydrocarbons

    参数类别 参数代号 表达式 资料来源
    烷基萘类 MNR 2-MN/1-MN 文献[1]
    DNR-1 (2,6-DMN+2,7-DMN)/1,5-DMN 文献[1]
    DNR-2 2,7-DMN/1,8-DMN 文献[1]
    DNR-3 2,6-DMN/1,8-DMN 文献[1]
    DNR-4 1,7-DMN/1,8-DMN 文献[1]
    DNR-5 1,6-DMN/1,8-DMN 文献[1]
    TMNr 2,3,6-TMN/(1,4,6-TMN+1,2,5-TMN) 文献[1]
    TMNr1 2,3,6-TMN/(1,4,6-TMN+1,3,5-TMN) 文献[1]
    TMNr2 (2,3,6-TMN+1,3,7-TMN)/(1,4,6-TMN+1,3,5-TMN+1,3,6-TMN) 文献[1]
    TMNr3 1,3,7-TMN/(1,3,7-TMN+1,2,5-TMN) 文献[1]
    TeMNr 1,3,6,7-TeMN/(1,3,6,7-TeMN+1,2,5,7-TeMN) 文献[1]
    PMNr 1,2,4,6,7-PMN/(1,2,4,6,7-PMN +1,2,3,5,6-PMN) 文献[1]
    烷基菲类 MPI1 1.5×(2-MP+3-MP)/(P+1-MP+9-MP) 文献[7]
    MPI2 3×(2-MP)/(P+1-MP+9-MP) 文献[7]
    MPI3 (2-MP+ 3-MP)/(1-MP+9-MP) 文献[5]
    MPR (2-MP)/ (1-MP) 文献[1]
    F1 (3-MP + 2-MP) /(1-MP + 2-MP + 3-MP + 9-MP) 文献[9]
    F2 2-MP /(1-MP + 2-MP + 3-MP + 9-MP) 文献[9]
    DPR (2,6-MP+2,7-MP)/(1,6-MP+2, 10-MP) 文献[2]
    DPR2 2,7-MP/1,8-MP 文献[5]
    烷基二苯并噻吩类 MDR 4-MDBT/1-MDBT 文献[12-13]
    MDBI 4-MDBT/(DBT+1-MDBT+2-MDBT+3-MDBT+4-MDBT) 文献[14]
    DMDBT1 4,6-DMDBT/1,4-DMDBT 文献[10, 12]
    DMDBT2 2,4-DMDBT/1,4-DMDBT 文献[10, 12]
    DMDBT3 2,6-DMDBT/1,4-DMDBT 文献[10, 12]
    DMDBT4 4,6- DMDBT /(1,4- DMDBT +1,6- DMDBT) 文献[11]
    DMDBT5 (2,6 - DMDBT+3,6- DMDBT)/(1,4- DMDBT + 1,6 - DMDBT) 文献[11]
    注:MN.甲基萘;DMN.二甲基萘;TMN.三甲基萘;TeMN.四甲基萘;PMN.五甲基萘;P.菲;MP.甲基菲;DBT.二苯并噻吩;MDBT.甲基二苯并噻吩;DMDBT.二甲基二苯并噻吩
    下载: 导出CSV
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  • 收稿日期:  2021-08-09
  • 修回日期:  2021-12-03
  • 刊出日期:  2022-01-28

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