Caney页岩的多尺度表征——俄克拉荷马州的一个新兴油气藏

Yulun Wang, Guofan Luo, M. Achang, J. Cains, C. Wethington, A. Katende, G. Grammer, J. Puckette, J. Pashin, M. Castagna, H. Chan, G. King, M. Radonjic
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引用次数: 3

摘要

从碳氢化合物的角度来看,Caney页岩一直被认为是一个密封单元,这导致对Caney页岩岩石性质及其水力压裂适用性的研究有限。我们的研究目标是通过多尺度实验室技术的整合来帮助弥合目前的知识差距,并表征Caney页岩的宏观和微观岩石特性。我们采用了一种综合方法来表征Caney,使用了来自俄克拉何马州南部目标井的200英尺(61米)Caney岩心。岩心观察与薄片岩石学分析相结合,表征了一般岩石类型及其相关的组构结构。利用x射线衍射仪(XRD)、扫描电镜/能谱仪(SEM/EDS)和聚焦离子束(FIB)-SEM分析了矿物组成、孔隙系统结构和岩石组构。此外,还进行了回弹硬度和压痕测试,分别测定了岩石的硬度(脆性)和弹性。通过综合多尺度表征,确定了三种混合碳酸盐-硅质碎屑岩类型——泥岩、钙质粉砂岩和粉质碳酸盐——可能代表了斜坡系统远端从低能量环境到相对高能量环境的沉积谱。粉质碳酸盐主要含有颗粒间孔隙。钙质粉砂岩和粉质泥岩具有有机质孔隙和粒间孔隙的组合。每一种岩石类型都显示出独特的矿物组成。泥岩相粘土含量最高,碳酸盐含量最低。钙质粉砂岩碳酸盐和粘土含量适中。粉质碳酸盐碳酸盐含量最高,粘土含量最低。从泥岩-钙质粉砂岩-粉质碳酸盐顺序看,回弹硬度和杨氏模量呈增大趋势。由于岩石-流体相互作用,完井和生产过程中存在潜在的结垢反应,最终可能影响渗透率和产量。总的来说,所提出的多尺度集成方法对于大多数岩石的地质表征至关重要。然而,在以微孔隙和微观结构为主的页岩储层中,工程裂缝有望在储层规模上提供渗透率,因此成功的整合至关重要。Caney页岩的优化、综合地质特征与钻井、完井和生产井的工程设计相结合,最终将实现最佳产量,同时提供安全、环保的作业。
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Multiscale Characterization of the Caney Shale — An Emerging Play in Oklahoma
From a hydrocarbon perspective, the Caney Shale has historically been evaluated as a sealing unit, which resulted in limited studies characterizing the rock properties of the Caney Shale and its suitability for hydraulic fracturing. The objective of our research is to help bridge the current knowledge gap through the integration of multiscale laboratory techniques and to characterize the macro- and microscale rock properties of the Caney Shale. We employed an integrated approach for the characterization of the Caney using 200 ft (61 m) of Caney core from a target well in southern Oklahoma. Core observation and petrographic analysis of thin sections were combined to characterize the general rock types and associated fabrics and textures. Mineralogical composition, pore system architecture, and rock fabric were analyzed using x-ray diffraction (XRD), scanning electron microscopy/energy dispersive x-ray spectroscopy (SEM/EDS), and focused ion beam (FIB)-SEM. In addition, rebound hardness and indentation testing were carried out to determine rock hardness (brittleness) and elasticity, respectively. With the integrated multiscale characterization, three mixed carbonate-siliciclastic rock types were identified — mudstone, calcareous siltstone, and silty carbonate — likely representing a spectrum of deposition from low to relatively high energy environments in the distal portions of a ramp system. Silty carbonate contains mostly interparticle pores. The calcareous siltstones and silty mudstones contain a combination of organic matter pores and interparticle pores. Each of the rock types shows unique mineralogical compositions based on XRD. The mudstone lithofacies has the highest clay content and the least carbonate content. Calcareous siltstones show moderate carbonate and clay content. Silty carbonate indicates the highest carbonate content with the least clay content. In an order of mudstone, calcareous siltstone, and silty carbonate, rebound hardness and Young’s modulus show an increasing trend. As a result of rock-fluid interactions, there are potential scaling reactions during completion and production that could ultimately affect permeability and production rates. Overall, the proposed multiscale integration approach is critical for the geologic characterization of most rocks. However, in shale reservoirs dominated by microporosity and microstructure where engineered fractures are expected to provide permeability at a reservoir scale, successful integration is essential. An optimized, integrated geological characterization of the Caney Shale that is well aligned with the engineering designs in drilling, completing, and producing wellbores will ultimately lead to optimal production while providing safe and environmentally responsible operations.
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