碳物质平衡法研究排烃及富集页岩油总有机碳含量下限——以济阳坳陷古近系沙河街组三段下亚段页岩为例

Research on lower limit of TOC content for hydrocarbon expulsion and shale oil enrichment using carbon mass balance method: a case study of shale of lower submember of the third member of Paleogene Shahejie Formation in Jiyang Depression

  • 摘要: 目前针对烃源岩排烃和富集页岩油的总有机碳(TOC)含量下限的研究方法各异,所确定的下限值存在较大差异。为准确获取相关下限值,建立基于干酪根化学构成的有机碳分类方法,将有机碳分为可生烃碳和非生烃碳,可生烃碳为含有可降解成烃基团的干酪根中的碳,非生烃碳为不含可降解成烃基团的干酪根中的碳。非生烃碳含量和可生烃碳含量可通过热解烃量(S2)与总有机碳含量的定量关系模型求取。结合济阳坳陷古近系沙河街组沙三下亚段泥页岩总有机碳含量测试、热解分析和生排烃模拟实验数据,计算不同热演化程度下的总有机碳含量下限。结果表明:(1)研究区烃源岩的初始非生烃碳含量约为0.83%,且随热演化程度升高而增加;(2)烃源岩排烃和富集页岩油的总有机碳含量下限值均随演化程度升高而降低:Ro=0.5%时,排烃的原始有机碳含量和残余有机碳含量下限值分别为2.39%和2.20%,富集页岩油的原始有机碳含量和残余有机碳含量下限值分别为2.39%和2.20%;Ro=1.0%时,排烃的原始有机碳含量和残余有机碳含量下限值分别为0.99%和0.91%,富集页岩油的原始有机碳含量和残余有机碳含量下限值分别为1.18%和1.01%。该方法充分考虑生烃有机质的组成与分布特征,强调非生烃碳含量对排烃及富集页岩油总有机碳含量下限的重要影响,获取的下限值更为合理,可适用于低总有机碳含量烃源岩的排烃有效性和富集页岩油可能性的评价。

     

    Abstract: Currently, research methods for determining the lower limit of total organic carbon (TOC) content for hydrocarbon expulsion from source rocks and for shale oil enrichment vary, and the determined lower limit values show significant differences. To accurately obtain the relevant lower limits, an organic carbon classification method based on the chemical composition of kerogen was established, dividing organic carbon into generative organic carbon (valid carbon) and non-generative organic carbon (void carbon). Valid carbon referred to the carbon in kerogen containing degradable hydrocarbon groups, while void carbon referred to the carbon in kerogen without degradable hydrocarbon groups. The contents of void carbon and valid carbon could be calculated using a quantitative relationship model between pyrolysis hydrocarbon yield (S2) and TOC content. Based on TOC content testing, pyrolysis analysis, and hydrocarbon generation and expulsion simulation experiment data of mud shale in the lower submember of the third member of the Paleogene Shahejie Formation (hereinafter referred to as lower Es3 member) in the Jiyang Depression, the lower limits of TOC content at different stages of thermal evolution were calculated. The results showed that: (1) The initial void carbon content of the source rocks in the study area was about 0.83%, and it increased with increasing thermal evolution degree. (2) The lower limits of TOC content for hydrocarbon expulsion from source rocks and for shale oil enrichment both decreased with increasing evolution degree. At Ro=0.5%, the lower limits of original TOC (TOCO) and residual TOC (TOCR) contents for hydrocarbon expulsion were 2.39% and 2.20%, respectively, and the lower limits of TOCO and TOCR contents for shale oil enrichment were 2.39% and 2.20%, respectively. At Ro=1.0%, the lower limits of TOCO and TOCR contents for expulsion were 0.99% and 0.91%, respectively, and the lower limits of TOCO and TOCR contents for enriched shale oil were 1.18% and 1.01%, respectively. The research method fully considers the composition and distribution characteristics of hydrocarbon-generating organic matter and emphasizes the important influence of void carbon content on the lower limit of TOC content for hydrocarbon expulsion and shale oil enrichment. The obtained lower limit values are more reasonable and can be applied to the evaluation of the effectiveness of hydrocarbon expulsion and the possibility of shale oil enrichment in source rocks with low TOC content.

     

/

返回文章
返回