基于多重岩石力学实验的深层页岩储层脆性定量评价及影响因素分析

Jianhua He , Yong Li , Hucheng Deng , Jianming Tang , Yuanyuan Wang
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引用次数: 6

摘要

由于川南地区海相深层页岩储层在高温高压条件下塑性大大增加,单一脆性评价方法难以有效表征其可压性,严重限制了该地区甜点选择和压裂改造。以川南地区五峰组—龙马溪组深层海相页岩储层为例,通过三轴高温高压实验、断裂韧性实验和x射线衍射实验,研究了页岩储层的力学性质及其影响因素,量化了不同加载条件下的岩石裂缝形态。根据页岩的形态特征,对影响因素进行了分析,并对其脆性进行了综合定量评价。川南深层海相页岩资源可能具有高弹性模量和低I断裂韧性的特征。矿物组成、温度、压力和层理发育程度是决定脆性的主要因素;石英矿物含量高(50%)、围压低(20 MPa)、中低温(60℃)、页岩层理密度高时,实验后样品的分形维数较高;而裂纹的几何形态以复杂剪切裂纹为主,脆性较高。层次分析法通过分析归一化岩石力学参数、应力-应变曲线脆性指数与分形维数之间的关系,建立了综合评价指标。该评价指标能更准确地描述深海海相页岩的脆性。龙马溪组一段31亚层具有较高的脆性指数,是未来页岩气开发的主要目标层。
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Quantitative evaluation and influencing factors analysis of the brittleness of deep shale reservoir based on multiply rock mechanics experiments

Due to a great increase in the plasticity of deep marine shale reservoirs in southern Sichuan under high-temperature and high-pressure conditions, the single brittleness evaluation method is difficult to effectively characterize its fracability, which significantly limits the selection of sweet spots and fracturing reconstruction in the area. In the case of the deep marine shale reservoir of the Wufeng-Longmaxi formations in the southern Sichuan Basin, through triaxial high-temperature and high-pressure experiments, fracture toughness and X-ray diffraction experiments, the mechanical properties and its influencing factors in the shale reservoir are studied, and the rock fracture morphology under various loading conditions is quantified. According to the morphological characteristics of shale, the analysis of influencing factors and comprehensive quantitative evaluation of the brittleness has been carried out. The deep marine shale resource in the southern Sichuan Basin is likely to be characterized by its high elastic modulus and low I fracture toughness. The mineral composition, temperature, pressure, and degree of bedding development are the primary factors for determining the brittleness; with high quartz mineral content (>50%), low confining pressure (<20 MPa), medium and low temperature (<60 °C) and high density of the shale bedding, the fractal dimension of the sample after the experiment is higher; whereas the geometry of cracks are mainly complex shear cracks, and brittleness is higher. The analytic hierarchy approach establishes a comprehensive evaluation index by analyzing the relationship between the normalized rock mechanical parameters, the stress–strain curve's brittleness index, and the fractal dimension. The brittleness of deep marine shale can be more accurately described by this evaluation index. The primary target layer for future shale gas exploitation, the 31 sublayer of the first member of the Longmaxi Formation, is shown to have a high brittleness index.

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