渤海湾C油田馆陶组Ⅲ段低电阻率油层成因机制

doi:10.13278/j.cnki.jjuese.20230238.

吉林大学学报(地球科学版) ›› 2025, Vol. 55 ›› Issue (3): 721-730.doi: 10.13278/j.cnki.jjuese.20230238.

渤海湾C油田馆陶组Ⅲ段低电阻率油层成因机制

郭敬民，陈建波，张章，谭捷，曲炳昌

中海石油（中国）有限公司天津分公司渤海石油研究院，天津300452

出版日期:2025-05-26 发布日期:2025-06-06
作者简介:郭敬民(1986-), 男, 高级工程师, 主要从事河流相储层构型、地质建模及底水油藏综合调整方面的研究，E-mail: guojm6@cnooc.com.cn
基金资助:
国家科技重大专项(2024ZD1403800)

Genetic Mechanism of Low Resistivity Reservoir: A Case Study of NgⅢ Formation of C Oilfield in Bohai Bay Basin

Guo Jingmin，Chen Jianbo，Zhang Zhang，Tan Jie，Qu Bingchang

Bohai Oilfield Research Institute，Tianjin Branch of CNOOC China Limited， Tianjin 300452， China

Online:2025-05-26 Published:2025-06-06
Supported by:
Supported by the National Science and Major Project of China (2024ZD1403800)

摘要/Abstract

摘要： 渤海湾C油田馆陶组Ⅲ段油层部分区域电阻率异常，呈低阻油层特征。为实现高效开发，本文分析了储层电阻率的影响因素。通过X射线衍射定量分析、扫描电镜分析、铸体薄片观察、阳离子交换实验(CEC)等方法，对黏土矿物成分及形态、骨架颗粒接触关系、储层导电能力等微观特征开展了定量研究。研究表明：研究区正常油层的蒙脱石在黏土矿物中的体积分数为23%~44%，低阻油层的蒙脱石在黏土矿物中的体积分数为39%~64%，根据研究区不同区域储层的阳离子交换实验，黏土矿物中蒙脱石含量与阳离子交换能力呈正相关性。研究区蒙脱石主要以伊/蒙混层的形式存在，伊/蒙混层的分布形态呈两类，第一类为膜状，包裹骨架颗粒，致使骨架颗粒表面形成了一层导电膜，膜状伊/蒙混层体积分数为80%左右；第二类为絮状、分散状存于粒间，粒间伊/蒙混层体积分数为20%左右，絮状伊/蒙混层比较分散，未能构成连续导电结构。根据铸体薄片，馆陶组骨架颗粒呈点接触-线接触，促进了骨架颗粒表面伊/蒙混层导电层相接触，形成了连续的导电结构。当伊/蒙混层呈膜状，且骨架颗粒相互接触，伊/蒙混层易形成连续的导电结构，储层导电性明显增强。

关键词: 渤海湾油田, 馆陶组, 黏土矿物导电性, 黏土矿物形态, 低电阻率油层

Abstract: A typical low resistivity reservoir is developed in the NgⅢ Formation (3rd Member of Neogene Guantao Formation) of C oilfield， Bohai Bay basin. Analyzing the influential factors of reservoir resistivity is of great significance to the efficient development. In this research， X-ray diffraction (XRD)， scanning electron microscopy （SEM）， blue-dye thin sections， and cation exchange capacity test (CEC) were used to quantitatively characterize the micro-features, including the clay mineral content and morphology， rock framework grain contact， and reservoir conductivity. The results showed that the content of smectite in clay minerals of the normal resistance reservoir is 23%-44%， while that of the low resistance reservoir is 39%-64%. According to the CEC experiments of reservoirs in different regions， the content of illite-smectite mixed layers is positively related to the cation exchange capacity. The smectite in the study area mainly exists in the form of illite-smectite mixed layers, and the illite-smectite mixed layers are distributed in two types. The first type is thin film， which wraps rock framework grains， leading to the formation of a conductive film on the surface of rock framework grains， this type accounts for about 80%; The second type exists between rock grains in flocculent and dispersed form， and accounts for about 20%， this type is relatively dispersed and fails to form a continuous conductive structure. Moreover， the low resistivity reservoir in the study area is mainly in Guantao Formation， according to the observation of blue-dye thin section, the rock framework grains are in point contact to line contact due to compaction, which leads to the contact of illite-smectite mixed layers conductive film on the surface of rock framework grains and the formation of continuous conductive structure. When illite-smectite mixed layers are in film shape and rock framework grains are in contact with each other, illite-smectite mixed layers can easily form a continuous conductive structure.

Key words: Bohai Bay oilfield, Guantao Formation, conductivity of clay minerals, clay mineral morphology, low resistivity reservoir

中图分类号:

P618.13

郭敬民, 陈建波, 张章, 谭捷, 曲炳昌. 渤海湾C油田馆陶组Ⅲ段低电阻率油层成因机制[J]. 吉林大学学报(地球科学版), 2025, 55(3): 721-730.

Guo Jingmin, Chen Jianbo, Zhang Zhang, Tan Jie, Qu Bingchang. Genetic Mechanism of Low Resistivity Reservoir: A Case Study of NgⅢ Formation of C Oilfield in Bohai Bay Basin[J]. Journal of Jilin University(Earth Science Edition), 2025, 55(3): 721-730.

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渤海湾C油田馆陶组Ⅲ段低电阻率油层成因机制

Genetic Mechanism of Low Resistivity Reservoir: A Case Study of NgⅢ Formation of C Oilfield in Bohai Bay Basin

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