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塔里木盆地巴楚凸起H气田奥陶系裂缝主控因素及演化序列研究

李树博 姜伟 张效恭 王爱霞

李树博, 姜伟, 张效恭, 等, 2019. 塔里木盆地巴楚凸起H气田奥陶系裂缝主控因素及演化序列研究. 地质力学学报, 25 (4): 518-526. DOI: 10.12090/j.issn.1006-6616.2019.25.04.050
引用本文: 李树博, 姜伟, 张效恭, 等, 2019. 塔里木盆地巴楚凸起H气田奥陶系裂缝主控因素及演化序列研究. 地质力学学报, 25 (4): 518-526. DOI: 10.12090/j.issn.1006-6616.2019.25.04.050
LI Shubo, JIANG Wei, ZHANG Xiaogong, et al., 2019. THE MAIN CONTROLLING FACTORS AND EVOLUTIONARY SEQUENCE OF ORDOVICIAN FRACTURE IN H GAS FIELD OF BACHU UPLIFT, TARIM BASIN. Journal of Geomechanics, 25 (4): 518-526. DOI: 10.12090/j.issn.1006-6616.2019.25.04.050
Citation: LI Shubo, JIANG Wei, ZHANG Xiaogong, et al., 2019. THE MAIN CONTROLLING FACTORS AND EVOLUTIONARY SEQUENCE OF ORDOVICIAN FRACTURE IN H GAS FIELD OF BACHU UPLIFT, TARIM BASIN. Journal of Geomechanics, 25 (4): 518-526. DOI: 10.12090/j.issn.1006-6616.2019.25.04.050

塔里木盆地巴楚凸起H气田奥陶系裂缝主控因素及演化序列研究

doi: 10.12090/j.issn.1006-6616.2019.25.04.050
基金项目: 

国家自然科学基金项目 41572124

详细信息
    作者简介:

    李树博(1990-), 男, 硕士、助理工程师, 研究方向构造地质学。E-mail:328071277@qq.com

  • 中图分类号: P618.13

THE MAIN CONTROLLING FACTORS AND EVOLUTIONARY SEQUENCE OF ORDOVICIAN FRACTURE IN H GAS FIELD OF BACHU UPLIFT, TARIM BASIN

  • 摘要: 塔里木盆地巴楚凸起H气田奥陶系储层是低孔低渗裂缝型碳酸盐岩储层,裂缝系统作为储层渗流通道,其空间分布和主要控制因素复杂,具有多期次叠加和演化的特征。文章采用岩心描述、镜下观察、成像解释等手段分析H气田奥陶系碳酸盐岩裂缝发育特征,明确裂缝主要控制因素,建立了裂缝演化序列。结果表明:巴楚凸起H气田奥陶系以剪切缝为主,张性缝次之,张剪缝最少,裂缝发育的主要控制因素为断层、褶皱及岩性等,与断层相关的裂缝主要发育在距断层460 m的范围内;地层变形程度越强,裂缝越发育;裂缝发育程度还受岩性的控制,灰岩的粒径或晶粒越大,构造裂缝越发育。根据已有碳氧同位素测试研究成果,并结合岩心观察发现:H气田奥陶系构造裂缝至少经历了三期演化活动,分别为加里东运动中期少量低角度北东东向和北北西向剪切缝发育期,海西运动晚期中-高角度北西西向张性缝和北东东向、北西向张剪缝以及南北向、北东向中-高角度剪切缝发育期,喜马拉雅运动早期大量高角度北东东向、北北东向剪切缝发育期,主要造缝期为喜马拉雅运动早期。

     

  • 图  1  H气田构造位置示意图

    Figure  1.  The tectonic location of H gas field

    图  2  H气田奥陶系岩心裂缝特征

    a—X8井生物灰岩段,2395 m,全充填剪切缝;b—X1井生物灰岩段,1867.4 m,剪切缝相互切割交错;c—X6井生物灰岩段,2469.24 m,剪切缝相互切割交错;d—X5井生物灰岩段,2299.3 m,全充填张剪缝;e—X6井生物灰岩段,2413.8 m,全充填张剪缝;f—X5井生物灰岩段,2160.36 m,半充填张剪缝;g—X3井生物灰岩段,1670.1 m,全充填张性缝;h—X6井生物灰岩段,2276.87 m,半充填张性缝

    Figure  2.  Ordovician core fracture characteristics in H gas field

    图  3  H气田奥陶系裂缝发育特征

    Figure  3.  Ordovician fracture development characteristics in H gas field

    图  4  H气田断层与构造裂缝发育程度关系

    Figure  4.  The relationship between fault and structural fracture development in H gas field

    图  5  H气田奥陶系不同岩性裂缝体密度分布

    a——不同类型灰岩裂缝体密度分布;b——不同粒径灰岩裂缝体密度分布

    Figure  5.  Density distribution of different Ordovician lithologic fractures in H gas field

    图  6  H气田奥陶系裂缝演化序列示意图

    Figure  6.  Ordovician fracture evolution sequence in H gas field

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