川西坳陷大邑构造上三叠统须家河组三段超致密砂岩储层裂缝发育特征及主控因素

Fracture development characteristics and main controlling factors of ultra-tight sandstone reservoirs in third member of Upper Triassic Xujiahe Formation, Dayi structure, Western Sichuan Depression

  • 摘要: 受多期构造运动叠加及复杂成岩演化作用影响,盆地深部致密砂岩储层中裂缝普遍发育。以四川盆地川西坳陷大邑构造上三叠统须家河组三段(须三段)为研究对象,综合运用野外露头调查、岩心观察、铸体薄片与扫描电镜分析、成像测井解释、流体包裹体均一温度测定及碳氧同位素分析等多种技术手段,系统刻画了裂缝的宏微观发育特征,明确了裂缝发育期次,并进一步揭示了其主控因素与储层改造效应。研究结果表明,大邑地区须三段裂缝类型丰富,包括高角度缝、斜缝、低角度缝及平缝,整体以构造缝为主,仅少量沉积—成岩缝。裂缝优势走向为NNE—SSW、NE—SW及近S—N向;充填特征以半充填—全充填为主,充填矿物主要为方解石、石英及泥质。研究区须三段共记录3期裂缝构造事件,形成时期分别对应印支期、晚白垩世(燕山中晚期)、渐新世—中新世(喜马拉雅期)。裂缝发育受控于构造背景与岩性组合的联合作用,其中距断层距离、地层曲率、砂泥互层结构及脆性矿物含量为关键影响因素。不同期次裂缝有效性差异显著:早期裂缝经受强烈成岩改造,充填程度高,有效性显著降低;而喜马拉雅期裂缝形成时间较晚,受后期破坏作用弱,且与现今应力场匹配度高,成为目前储层中最有效的渗流通道,对改善储层物性具有核心贡献。

     

    Abstract: Influenced by multi-phase tectonic superimposition and complex diagenetic evolution, fractures are widely developed in deep tight sandstone reservoirs within the basin. Taking the third member of the Xujiahe Formation (Xu-3 member) in the Dayi structure of the Western Sichuan Depression, Sichuan Basin, as the research object, and integrating multiple technical methods including outcrop surveys, core observations, cast thin sections and scanning electron microscopy analyses, imaging logging interpretation, homogenization temperature measurement of fluid inclusions, and carbon-oxygen isotope analysis, this study systematically characterized the macro- and micro-scale fracture development features, determined the fracture development stages, and further revealed the main controlling factors and reservoir modification effects. The results indicated that fractures in the Xu-3 member of the Dayi area were diverse in types, including high-angle, oblique, low-angle, and horizontal fractures. Overall, tectonic fractures were dominant, with only a small proportion of sedimentary-diagenetic fractures. The dominant fracture orientations were NNE-SSW, NE-SW, and nearly S-N. The filling was mainly semi-filled to fully filled, and the filling minerals primarily consisted of calcite, quartz, and argillaceous matter. Three phases of fracture tectonic events were recorded in the Xu-3 member of the study area, corresponding to the Indosinian, the Late Cretaceous (Middle to Late Yanshanian), and the Oligocene-Miocene (Himalayan period). Fracture development was jointly controlled by structural setting and lithological assemblage, among which the distance to faults, formation curvature, sand-mud interbedding structure, and brittle mineral content were the key influencing factors. The effectiveness of fractures from different periods varied significantly. Early-stage fractures, affected by intense diagenetic modification, had a high filling degree and their effectiveness was significantly reduced. In contrast, Himalayan-stage fractures formed relatively later, experienced weak subsequent damage, and closely aligned with the current stress field, making them the most effective seepage pathways in the present reservoir and playing a core role in enhancing reservoir physical properties.

     

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