塔里木盆地小二布拉克组主要储层控制因素及成岩演化——以卡尔平地区KPN1井为例

Lihong Liu , Miao Han , Yongjin Gao , Yuanyin Zhang , Chengxin Liu , Ye Duan , Youxing Yang , Kunpeng Jiang
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引用次数: 0

摘要

塔里木盆地卡尔平地区寒武纪盐下白云岩是重要的储量增长点和战略接替区。然而,对该地区优质油气藏的形成机制缺乏明确的认识,阻碍了油气勘探。本研究旨在通过全面描述小二布拉克组的岩石类型和特征来填补这一知识空白。该分析使用了显微镜观测、地球化学分析和对KPN1井测井数据的解释。小二布拉克组可分为四个组,自下而上排列。锰(Mn)含量相对较高(87–137.7ppm),氧同位素组成(δ18O)平均值为−6.37‰,锶同位素比值(87Sr/86Sr)平均值0.7109,表明晓尔布拉克组的白云石化作用可能发生在准同期浅埋期。白云岩的早期形成有助于提高储层的孔隙度和深埋过程中的压实阻力,为储层的形成奠定了基础。肖1号和肖2号成员的碳同位素组成(δ13C)呈现出频繁的Z字形曲线,表明重复的进展/回归过程。颗粒滩相的发育对小2段储层的形成起到了至关重要的作用。构造裂缝和准同生期岩溶作用控制了小3段储层特征。此外,本研究还对KPN1井的成岩演化模型进行了分析,并考察了成岩转化对储层质量的影响。对KPN1井井下数据的系统分析可作为与该地区其他钻井现场进行对比研究的基础参考。这也为今后塔里木盆地西北部的勘探和部署战略提供了宝贵的指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Main reservoir controlling factors and diagenetic evolution of the Xiao'erbulak Formation of Tarim Basin, NW China: A case study of Well KPN1 in Kalpin area

The Cambrian subsalt dolomite in the Kalpin area of the Tarim Basin is an important reserve growth point and strategic replacement area. However, there is a lack of clear understanding regarding the formation mechanism of high-quality reservoirs in this region, which has hindered oil and gas exploration. This study aims to address this knowledge gap by providing a comprehensive description of the rock types and characteristics of the Xiao'erbulak Formation. Microscope observations, geochemical analyses, and interpretations of well logging data from Well KPN1 were used in this analysis. The Xiao'erbulak Formation can be divided into four members, arranged from bottom to top. The relatively high manganese (Mn) content (87–137.7 ppm), oxygen isotope composition (δ18O) with an average value of −6.37‰, and strontium isotope ratio (87Sr/86Sr) with an average value of 0.7109 indicate that dolomitization of the Xiao'erbulak Formation likely occurred during the penecontemporaneous-shallow burial period. The early formation of dolomite contributed to increased reservoir porosity and resistance to compaction during deep burial, which laid the foundation for reservoir formation. The carbon isotope composition (δ13C) of the Xiao 1 and Xiao 2 members exhibit frequent zigzag curves, indicating recurring progression/regression processes. The subsequent development of granular beach facies played a crucial role in reservoir formation in the Xiao 2 Member. Tectonic fractures and penecontemporaneous karstification controlled the reservoir characteristics of the Xiao 3 Member. Furthermore, this study provides an analysis of the diagenetic evolution model of Well KPN1 and examines the impact of diagenetic transformations on reservoir quality. The systematic analysis of downhole data from Well KPN1 serves as a foundational reference for comparative studies with other drilling sites in the area. It also offers valuable guidance for future exploration and deployment strategies in the northwest Tarim Basin.

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