Microstructural BIB-SEM investigation of Upper Cretaceous Jordanian carbonate-rich oil shales bearing type II-S kerogen

IF 1.8 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY International Journal of Earth Sciences Pub Date : 2024-07-22 DOI:10.1007/s00531-024-02444-4
J. Klaver, S. Grohmann, G. Gaus, I. S. Abu-Mahfouz, T. Patzek, V. Vahrenkamp, J. L. Urai
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Abstract

In this study, we use Broad Ion Beam polishing and Scanning Electron Microscopy (BIB-SEM) to characterize the microstructure of selected core samples of immature Upper Cretaceous carbonate-rich oil shales from Jordan and to link the observations to porosity and compositional and geochemical data. The aim of this study is to understand the distribution of pore space, primary organic matter, and organic sulfur on a sub-micron scale, particularly in carbonate- and silicate-dominated layers. The thermal maturity of these marine carbonate mudstone samples of pelagic origin was found to be influenced by the elevated sulfur contents in these Type II-S kerogen source rocks. This was confirmed through both organic geochemistry and BIB-SEM observations, which revealed high sulfur content. Porosity in the carbonate mudstone exists within foraminifera, and aggregates of microfossil fragments. Initially, these voids provided significant inter- and intra-particle porosity which were later filled by organic matter during diagenesis. This ‘mobile’ organic matter is interpreted as microscopic bitumen, which exists as a solid or highly viscous fluid at surface conditions. It is likely a residue of low-temperature (“early”) bitumen generation. By examining the samples before and after dichloromethane (DCM) extraction and subsequent BIB-SEM analyses, we observed that the specimens contained a significant amount of soluble organic matter (SOM), mostly present in the micropores associated with calcite. The microscopic solid bitumen is observed to remain stable even under various conditions, such as in vacuum oven conditions of 105 °C (24 h), or exposure to ultra-high vacuum, broad ion beam (heat > 70 °C) and an electron beam of 15 keV. This suggests that the solid bitumen acts as a solid at elevated temperatures and confining pressures (85 °C and 250 MPa), and its presence can lead to the buildup of significant fluid overpressures. Our observations indicate that the pores associated with calcite provide high storage capacity in the shales during the early stages of hydrocarbon generation. In contrast, it suggests that siliciclastic-rich samples are more prone to hydrofracturing as the (early) generated hydrocarbons cannot be expelled easily. These findings highlight the complex distribution and behavior of pore space, organic matter, and sulfur in shales, shedding light on their potential for hydrocarbon generation and storage.

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约旦上白垩统富含碳酸盐的油页岩显微结构 BIB-SEM 研究(含 II-S 型角质
在这项研究中,我们使用宽离子束抛光和扫描电子显微镜(BIB-SEM)来表征约旦未成熟的上白垩统富含碳酸盐的油页岩岩芯样本的微观结构,并将观察结果与孔隙度、成分和地球化学数据联系起来。这项研究的目的是了解亚微米尺度的孔隙空间、原始有机物和有机硫的分布情况,特别是在以碳酸盐和硅酸盐为主的地层中的分布情况。研究发现,这些海洋碳酸盐泥岩样品的热成熟度受到这些 II-S 型角质源岩中硫含量升高的影响。这一点通过有机地球化学和 BIB-SEM 观察得到了证实,BIB-SEM 观察显示硫含量较高。碳酸盐泥岩中的孔隙存在于有孔虫和微化石碎片的聚集体中。最初,这些空隙提供了大量的颗粒间和颗粒内孔隙,后来在成岩过程中被有机质填充。这种 "移动 "有机物被解释为微观沥青,在地表条件下以固体或高粘性流体形式存在。它很可能是低温("早期")沥青生成的残留物。通过对样品进行二氯甲烷(DCM)萃取前后的检查和随后的 BIB-SEM 分析,我们观察到样品中含有大量可溶性有机物(SOM),主要存在于与方解石相关的微孔中。据观察,即使在各种条件下,如在 105 °C 的真空烘箱条件下(24 小时),或暴露于超高真空、宽离子束(70 °C 的热量)和 15 keV 的电子束中,微观固体沥青仍能保持稳定。这表明,固体沥青在高温和约束压力(85 °C和250兆帕)条件下起着固体的作用,它的存在会导致流体超压的显著增加。我们的观察结果表明,在生成碳氢化合物的早期阶段,与方解石相关的孔隙在页岩中提供了很高的储存能力。相反,这表明富含硅质岩的样本更容易发生水力破裂,因为(早期)生成的碳氢化合物不容易排出。这些发现突显了页岩中孔隙、有机物和硫的复杂分布和行为,揭示了页岩生成和储存碳氢化合物的潜力。
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来源期刊
International Journal of Earth Sciences
International Journal of Earth Sciences 地学-地球科学综合
CiteScore
4.60
自引率
4.30%
发文量
120
审稿时长
4-8 weeks
期刊介绍: The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including - Dynamics of the lithosphere - Tectonics and volcanology - Sedimentology - Evolution of life - Marine and continental ecosystems - Global dynamics of physicochemical cycles - Mineral deposits and hydrocarbons - Surface processes.
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