喀尔巴阡山脉西里西亚单元Menilite层和Istebna层生成潜力的划分——基于热解合集研究

I. Matyasik, M. Labus, M. Kierat, K. Spunda
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摘要

利用各种分析方法对烃源岩进行了研究,以评估其生成潜力并预测有机质的分解产物。选取了喀尔巴阡盆地弱、中烃源岩的西里西亚组Menilite层和Dukla层以及西里西亚组Istebna层样品进行了研究。所分析的烃源岩尽管有机质总体含量大体相当,但其热解生成潜力和产物类型却存在显著差异。Menilite页岩阶段热解生成的烃类(烷烃、烯烃和异烷烃)丰度较高,表明Menilite页岩有机质与istbna烃源岩不同。此外,热重分析显示,Menilite页岩的减重过程为两阶段,而Istebna页岩在较高温度下的减重过程为一阶段。isstebna层主要热解产物为c1 ~ c5段的正构烷烃,证明了该层中分散有机质的成气类型。Rock-Eval分析表明,有机质达到了与早期热催化作用(初始油窗阶段)相对应的成熟程度,因此能够生成液态和气态烃。通过岩石分析和热重分析对有机物的分解温度进行比较,我们得出结论,这两种测量结果相关性很好,可以同样用于评估有机物的热转化水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Differentiation of the Generation Potential of the Menilite and Istebna Beds of the Silesian Unit in the Carpathians Based on a Compiled Pyrolytic Studies
The study of the source rocks was carried out with the use of various analytical methods in order to assess their generation potential and to predict the decomposition products of organic matter. The selected samples from the Menilite Beds from the Silesian and Dukla units, as well as the Istebna layers from the Silesian unit, which are classified as weak and medium source rocks in the Carpathian oil system, were examined. The generation potential and type of the products obtained from the pyrolysis of the analyzed source rocks, despite the often comparable overall content of organic matter, are significantly different. Menilite shale generated a higher abundance of hydrocarbons (alkanes, alkenes, and isoalkanes) by stage pyrolysis, which suggested that the organic matter of Menilite shale is different from the Istebna source rocks. Moreover, the thermogravimetric analysis showed a two-stage weight loss in the case of Menilite shales, while the Istebna shales were characterized by a one-stage weight loss at higher temperature. For the Istebna layers, n-alkanes from the C1–C5 range were detected as the main pyrolysis products, which proves the gas-forming type of the organic matter dispersed in these sediments. Rock-Eval analyses showed that the organic matter reached a degree of maturity corresponding to the early thermocatalytic processes (the initial oil window stage) and therefore was able to generate liquid and gaseous hydrocarbons. The comparison of the decomposition temperatures of the organic matter from the Rock-Eval and TG analyses allowed us to conclude that both measurements correlate well and can be equally used to assess the level of thermal transformations of organic matter.
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