水平层理下页岩储层视野抗拉强度主控因素——以米仓山下古生界牛蹄塘组页岩为例

IF 1.1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Delu Li, Haibin Li, Qianyang He, Jianwen Gao, Wenxing Tao, Shimiao Wang
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引用次数: 0

摘要

了解海相页岩在压裂过程中的力学特征是页岩气开发的关键,而其核心科学问题是哪些因素控制了页岩的力学特性。采用x射线衍射、低场核磁共振(NMR)、EA2000元素分析仪、扫描电镜等手段对米仓山下古生界牛蹄塘组12个页岩样品进行抗拉强度测试,探讨水平层理条件下页岩抗拉强度的主控因素。研究结果如下。(1)页岩抗拉强度较高,在10.05 ~ 20.34 MPa之间。页岩矿物中石英所占比例最大,为53.2% ~ 59.0%,其次为石英和粘土矿物。总有机碳(TOC)浓度范围为1.7 wt%至4.1 wt%。(2)核磁共振结果表明,页岩孔隙结构以介孔为主,占75.76% ~ 88.03%,其次为大孔(12.57% ~ 21.24%)和微孔(0.68% ~ 4.91%)。低压氮气吸附与解吸结果表明,页岩平均孔径为12.58 ~ 16.02 nm,与核磁共振结果基本一致。分形维数d2与抗拉强度呈负相关关系,表明页岩抗拉强度越高,其渗流孔隙复杂性越低。(3)微孔主要存在于粘土矿物中,而石英与介孔含量呈正相关。中孔比例越高,拉伸强度越低。说明中孔是控制抗拉强度的主要因素,矿物中石英含量是制约抗拉强度的次要因素。TOC对拉伸强度的控制作用不大。这为页岩压裂提供了理论基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The main controlling factors of tensile strength in sight of shale reservoir under horizontal bedding: Example of the Lower Paleozoic Niutitang Formation shale from Micangshan, China
Understanding the mechanical characteristics of marine shale during fracturing is essential for shale gas development, and its core scientific problem is what factors in shale control its mechanical properties. The 12 shale samples from the Lower Paleozoic Niutitang Formation in Micangshan are tested for tensile strength and examined using X-ray diffraction, low-field nuclear magnetic resonance (NMR), EA2000 elemental analyzer, and scanning electron microscopy to explore the main controlling factors of shale tensile strength under horizontal bedding conditions. The findings are as follows. (1) The tensile strength of the shale is relatively high, ranging from 10.05 MPa to 20.34 MPa. Quartz is the largest proportion of the shale minerals, accounting for 53.2 wt%–59.0 wt%, followed by anorthose and clay minerals. Total organic carbon (TOC) concentration ranges from 1.7 wt% to 4.1 wt%. (2) NMR results indicate that the pore structure of shale is mainly mesoporous, accounting for 75.76%–88.03%, followed by macropores (12.57%–21.24%) and micropores (0.68%–4.91%). Low-pressure nitrogen adsorption and desorption results indicate that the average pore diameter of shale is 12.58–16.02 nm, which is basically consistent with NMR results. The negative correlation between fractal dimension D 2 and tensile strength indicates that the higher the tensile strength of the shale, the lower the complexity of its seepage pores. (3) Micropores occur mainly in clay minerals, whereas quartz indicates positively correlation with mesoporous content. The higher the proportion of mesopores, the lower the tensile strength. This indicates that the mesopores are the main factor controlling the tensile strength, and the quartz content in minerals is a secondary factor restricting the tensile strength. TOC has little controlling action on the tensile strength. This contribution provides a theoretical basis for shale fracturing.
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来源期刊
CiteScore
2.50
自引率
8.30%
发文量
126
期刊介绍: ***Jointly published by the American Association of Petroleum Geologists (AAPG) and the Society of Exploration Geophysicists (SEG)*** Interpretation is a new, peer-reviewed journal for advancing the practice of subsurface interpretation.
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