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珠江口盆地番禺A油田珠江组"顶钙"发育特征、成因与分布模式
引用本文:张青青,刘可禹,衡立群,刘太勋,路研,孙润平,王健. 珠江口盆地番禺A油田珠江组"顶钙"发育特征、成因与分布模式[J]. 地球科学, 2021, 46(5): 1783-1796. DOI: 10.3799/dqkx.2020.139
作者姓名:张青青  刘可禹  衡立群  刘太勋  路研  孙润平  王健
作者单位:中国石油大学地球科学与技术学院,山东青岛 266580;青岛海洋科学与技术国家实验室,海洋矿产资源评价与探测技术功能实验室,山东青岛 266071;中海石油(中国)有限公司深圳分公司研究院,广东深圳 518054
基金项目:国家科技重大专项课题2017ZX05009001国家自然科学基金项目41772138中国海洋石油集团有限公司“十三五”科技重大项目“双特高海相砂岩油藏精细描述及剩余油定量预测技术”CNOOC-KJ 135ZDXM22 LTD02 SZ2016
摘    要:“顶钙”是砂岩储层中常见的一种碳酸盐胶结类型,其形成机理存在分歧,阻碍了对其分布预测,进而制约油田勘探开发.综合利用常规测井、岩心、XRF扫描、铸体薄片、扫描电镜、阴极发光、电子探针、碳氧稳定同位素等资料,对珠江口盆地番禺A油田珠江组“顶钙”的测井响应、岩矿学特征、物质来源及成因、分布规律、成因分布模式进行系统研究.研究区顶钙岩性主要为含砾砂岩和中粗砂岩,钙质成分主要为铁方解石,呈基底-孔隙式胶结,常与生物碎屑伴生,计算其沉淀温度在55.9~72 ℃;顶钙厚度主要集中在0.4~1.2 m,但不同油层其厚度及顶钙发育率差异较大.研究区顶钙形成于早成岩阶段,主要来自于内源的生物碎屑,其分布主要受到沉积微相和高频层序界面的控制,河口坝为其提供了重要物质来源,其相互叠置可促使顶钙连片和增厚;而高频海泛面可通过延长沉积物保留时间进一步促进顶钙的发育.研究区顶钙成因与分布主要受高能粗粒生物碎屑富集程度和分布的控制,因此通过对层序和沉积作用的分析,可对其分布进行预测. 

关 键 词:顶钙  内源生物碎屑  河口坝  高频层序界面  成因分布模式  珠江组  番禺A油田
收稿时间:2020-06-21

Characteristics and Genetic Distribution Model of Top Calcareous Cementation Layers within Zhujiang Formation in Panyu A Oilfield,Pearl River Mouth Basin
Zhang Qingqing,Liu Keyu,Heng Liqun,Liu Taixun,Lu Yan,Sun Runping,Wang Jian. Characteristics and Genetic Distribution Model of Top Calcareous Cementation Layers within Zhujiang Formation in Panyu A Oilfield,Pearl River Mouth Basin[J]. Earth Science-Journal of China University of Geosciences, 2021, 46(5): 1783-1796. DOI: 10.3799/dqkx.2020.139
Authors:Zhang Qingqing  Liu Keyu  Heng Liqun  Liu Taixun  Lu Yan  Sun Runping  Wang Jian
Abstract:Top calcareous cementation layers (TCCLs) are common type of carbonate cement that caps reservoir sandstone units. There is no consensus on the genetic mechanism of TCCLs at present and thus hindering our understanding of its distribution prediction and restricting the oilfield exploration and development. In this paper a suite of analytical techniques were employed to investigate the genesis and distribution of TCCLs within the Zhujiang Formation in the Panyu A oilfield, Pearl River Mouth basin, including core and log analysis, XRF scanning, casting thin section, scanning electron microscopy, cathodoluminescence, electron microprobe, stable carbon and oxygen isotopes. This enabled us to systematically study the log responses, petrologic characteristics, material source and genesis, distribution patterns, and genetic distribution model of TCCLs. TCCLs in the study area comprise mainly gravel-bearing sandstone and medium-coarse sandstone, and the carbonate cements consist mostly of ferrocalcite in basement-pore contacts accompanied by biological debris, and its precipitation temperature is between 55.9 and 72 ℃. The thickness of TCCLs is mainly in the range of 0.4-1.2 m, but there exist big differences between the thickness and development percentage of TCCLs among different oil-bearing reservoir beds. The analysis indicates that TCCLs were formed in the early diagenetic stage and their material sources are mainly composed of endogenous biological debris. The distribution of TCCLs is mainly controlled by sedimentary microfacies and high-frequency sequence stratigraphy surfaces. The estuary bars provide an important material source, and the superposition of each other contributes to the contiguous thickening of TCCLs, while the high-frequency marine-flooding surface can further promote the development of TCCLs by extending the retention time of sediments. The genesis and distribution of TCCLs in the study area are primarily controlled by the enrichment degree and distribution of bio-debris. Therefore, the spatial distribution of TCCLs can be predicted through the analysis of high-frequency sequence stratigraphy and detailed microfacies characterization. 
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