东营凹陷古近系页岩组构及典型岩相储集特征
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王伟庆(1969—),男,山东济宁人,高级工程师,博士,从事石油地质实验及油气勘探研究。E-mail:wangweiqing062.slyt@sinopec.com。

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中国石化股份公司重点实验室项目“济阳坳陷古近系细粒沉积特征与古湖泊演化”(KJ21042)。


Paleogene shale fabric and typical lithofacies reservoir characteristics in Dongying Sag
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    摘要:

    基于岩石薄片、扫描电镜、显微荧光和阴极发光等图像学分析方法,结合核磁共振、氮气吸附等测试技术,对东营凹陷古近系碳酸盐矿物类页岩相和混合类页岩相2 种典型岩相进行研究。根据矿物组分和产状将页岩划分为碳酸盐纹层和泥质纹层2 类结构单元,通过分析两者的矿物类型及相关孔隙发育特征,揭示了2 种典型岩相储集特征,并根据埋藏过程中地质要素的相对变化,讨论了页岩层系储集空间发育条件。研究结果表明:东营凹陷古近系页岩矿物组分多样,以多组分碳酸盐矿物普遍发育、多来源长英质碎屑颗粒局部集中以及黏土矿物和有机质等流变性组分塑性充填为特征。骨架颗粒限定了有机组分的分布边界,有机组分内部又包含部分自生矿物,孔隙充填物受原油沥青质和蜡质含量高、地表凝固点高等因素的影响,有机组分与无机矿物间显示出多重嵌合特征。页岩组构与复杂的演化过程共同决定了孔隙类型和发育机制的多样性,碳酸盐矿物类页岩相发育纳米级晶内孔隙和微米级晶间孔隙及溶蚀孔隙,以孔隙大且连通好为特征,孔隙度相对偏低;混合类页岩相发育纳米-微米级黏土矿物片间孔隙,孔隙小且连通差,孔隙度相对偏高。层间缝发育区具有良好的储集性,储集空间由富含基质孔隙的多尺度孔缝网络构成,在整体富有机质的背景下,古近系富碳酸盐页岩具有基质普遍含油和纹层界面富集的特征。

    Abstract:

    Based on image analysis methods such as rock thin sections, scanning electron microscopy, micro fluorescence,and cathodoluminescence, combined with testing techniques such as nuclear magnetic resonance and nitrogen adsorption,two typical lithofacies of the Paleogene carbonate mineral shale and mixed shale in Dongying Sag were studied. According to the mineral composition and occurrence, shale was divided into two types of structural units: carbonate laminas and mudstone laminas. By analyzing the mineral types and related pore development characteristics of them, two typical lithofacies reservoir characteristics were revealed. In view of the relative changes in geological elements during burial, the development conditions of shale reservoir space were discussed. The research results indicate that the Paleogene shale in Dongying Sag has diverse mineral components,characterized by the widespread development of multi-component carbonate minerals, local concentration of multiple sources of felsic detrital particle,and plastic filling of rheological components such as clay minerals and organic matter. The skeletal particles limit the distribution boundaries of organic components, and the organic components contain some autogenous minerals.The pore filling materials are influenced by factors such as the high content of crude oil asphaltene and wax, as well as high surface solidification points. The organic components and inorganic minerals exhibit multiple chimeric characteristics. The shale fabric and complex evolution process jointly determine the diversity of pore types and development mechanisms. The carbonate mineral shale develops nanoscale intracrystalline pores and micrometer-scale intergranular (solution) pores, characterized by large and well-connected pores, with relatively low porosity. Mixed shale develops nano-sub micron-sized interlamellar pores of clay minerals, which are small and poorly connected, with relatively high porosity. The interlayer fracture development zone has good reservoir properties, and the reservoir space is composed of multi-scale networks rich in matrix pores. In the overall background of rich organic matter, the Paleogene rich carbonate shale has the characteristics of the oil enrichment in matrix pores and at the laminae planes.

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王伟庆,刘惠民,李军亮.东营凹陷古近系页岩组构及典型岩相储集特征[J].油气地质与采收率,2024,31(2):1~16

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  • 收稿日期:2024-01-30
  • 最后修改日期:2024-02-20
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  • 在线发布日期: 2024-04-23
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