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    渤海海域秦南凹陷东南缘沙一段混积岩优质储层成因及勘探意义

    薛永安 庞小军 郝轶伟 冯冲

    薛永安, 庞小军, 郝轶伟, 冯冲, 2020. 渤海海域秦南凹陷东南缘沙一段混积岩优质储层成因及勘探意义. 地球科学, 45(10): 3527-3542. doi: 10.3799/dqkx.2020.154
    引用本文: 薛永安, 庞小军, 郝轶伟, 冯冲, 2020. 渤海海域秦南凹陷东南缘沙一段混积岩优质储层成因及勘探意义. 地球科学, 45(10): 3527-3542. doi: 10.3799/dqkx.2020.154
    Xue Yong'an, Pang Xiaojun, Hao Yiwei, Feng Chong, 2020. Genesis of High-Quality Mixed Rock Reservoir and Its Exploration Significance in Es1 around Southeast Margin of Qinnan Sag, Bohai Sea. Earth Science, 45(10): 3527-3542. doi: 10.3799/dqkx.2020.154
    Citation: Xue Yong'an, Pang Xiaojun, Hao Yiwei, Feng Chong, 2020. Genesis of High-Quality Mixed Rock Reservoir and Its Exploration Significance in Es1 around Southeast Margin of Qinnan Sag, Bohai Sea. Earth Science, 45(10): 3527-3542. doi: 10.3799/dqkx.2020.154

    渤海海域秦南凹陷东南缘沙一段混积岩优质储层成因及勘探意义

    doi: 10.3799/dqkx.2020.154
    基金项目: 

    国家科技重大专项 2016ZX05024-003

    详细信息
      作者简介:

      薛永安(1963-), 男, 博士, 教授级高级工程师, 主要从事海上油气勘探研究和技术管理工作.ORCID:0000-0002-1634-8779.E-mail:xueya@cnooc.com.cn

    • 中图分类号: P618.13

    Genesis of High-Quality Mixed Rock Reservoir and Its Exploration Significance in Es1 around Southeast Margin of Qinnan Sag, Bohai Sea

    • 摘要: 为了查明秦南凹陷东南缘沙一段混积岩优质储层的成因,利用常规物性、铸体薄片、扫描电镜、碳氧同位素等分析化验资料,对Q29、L25和Q30构造沙一段混积岩储层特征以及优质储层控制因素进行了研究.结果表明:(1)构造背景控制了沙一段混积岩储层的类型、厚度、成分和整体物性,是混积岩优质储层差异的主因.Q29构造沙一段主要发育陡坡带混积扇,由扇三角洲夹生屑滩组成的旋回为主,粒度粗,砾石含量高,陆源碎屑中中酸性火山岩岩屑和砾石含量最高,石英含量低,整体物性较差,但厚度大,以溶蚀孔为主,见大量生物体腔孔.L25构造沙一段主要发育缓坡带混积滩,由扇三角洲与生屑滩的交互、或生屑滩夹扇三角洲为主,粒度细,砾石含量低,陆源碎屑中长石和石英含量高,整体物性较好,厚度中等,溶蚀孔和原生孔发育,见大量生物体腔孔.Q30构造沙一段主要发育水下局部隆起带生屑滩,陆源碎屑含量低,整体物性相对稍差,厚度最薄,溶蚀孔和生物体腔孔为主.(2)受控于不同构造背景下沉积作用的差异,Q29、L25和Q30构造遭受的成岩作用既具有相似性,又具有差异性,咸化湖泊、强波浪淘洗、低泥质含量、早期白云石化、含大量的生物碎屑和泥晶包壳以及酸性溶蚀作用是形成沙一段混积岩优质储层的共同特点.但不同构造遭受的大气淡水淋滤、压实作用、胶结作用、溶解作用强度具有明显的差异性.(3)混积岩储层具有较大的埋深下限,在混积岩优质储层影响因素的约束下,寻找能够形成大中型油气藏的规模较大的陡坡带混积岩储层和物性较好的缓坡带混积岩储层,是目前渤海海域古近系中深层勘探的重要目标之一.

       

    • 图  1  研究区位置(a)、沉积相展布(b)及连井地层对比(c)

      Fig.  1.  Location of study area (a), distribution of sedimentary facies (b) and comparison map of stratum with continuous well (c)

      图  2  研究区混积岩岩性三角分类图

      Ⅰ.陆源碎屑岩体系;Ⅱ.以陆源碎屑为主的混积岩;Ⅲ.以化学碳酸盐为主的混积岩;Ⅳ.组分均未超50%的混积岩;Ⅴ.以生物成因碳酸盐颗粒为主的混积岩;Ⅵ.碳酸盐岩体系; 据叶茂松等(2018)

      Fig.  2.  Triangle classification of lithology of mixed rock in the study area

      图  3  秦南凹陷东南缘混积岩储层物性分布

      a.孔隙度与渗透率交会图;b.孔隙度与深度交会图;c.渗透率与深度交会图;d.孔隙度分布直方图;e.渗透率分布直方图

      Fig.  3.  Physical property distribution of mixed rock reservoirs in the southeast margin of Qinnan sag

      图  4  秦南凹陷东南缘混积岩储层储集空间微观特征

      a.白云质砂岩,粒间孔,岩屑溶蚀孔(粒内孔、铸模孔),胶结物溶蚀孔,Q-29-B井,3 370.05 m,单偏光;b.含砂生屑白云岩,生物体腔孔,胶结物溶蚀孔,岩屑溶蚀孔,Q-29-B井,3 350.00 m,单偏光;c.含砂生屑白云岩,生物体腔孔,胶结物溶蚀孔,Q-29-B井,3 375.76 m,单偏光;d.含生屑砾岩,生物体腔孔,裂缝,Q-29-A井,3 311.50 m,单偏光;e.白云质砂岩,粒间孔,铸模孔,长石溶蚀孔,L-25-A井,3 306.00 m,单偏光;f.白云质砂岩,铸模孔,长石溶蚀孔,胶结物溶蚀孔,L-25-A井,3 295.00 m,单偏光;g.含砂生屑白云岩,生物体腔孔,铸模孔,胶结物溶蚀孔,L-25-A井,3 287.50 m,单偏光;h.含砂生屑白云岩,生物体腔孔,白云石溶蚀孔,L-25-B井,3 352.82 m,单偏光;i.含砂生屑白云岩,生物体腔孔,长石、中酸性火山岩、白云石溶蚀孔,Q-30-A井,3 057.00 m,单偏光

      Fig.  4.  Microscopic characteristics of reservoir space of mixed rock reservoirs in the southeast margin of Qinnan sag

      图  5  研究区混积岩储层发育的构造背景模式

      a.秦南凹陷东南缘混积岩发育的古地貌背景;b.陡坡带混积扇;c.局部水下隆起带生屑滩;d.缓坡带混积滩

      Fig.  5.  Tectonic background model of mixed rock reservoir development in the study area

      图  6  研究区沙一段沉积环境图解

      a.碳氧同位素湖泊类型判别;b.古盐度与古温度交会图

      Fig.  6.  Illustration of the sedimentary environment of the Es1

      图  7  研究区沉积相差异与储层物性的关系

      Fig.  7.  Relationship between sedimentary facies differences and reservoir physical properties in the study area

      图  8  秦南凹陷沙一段混积岩储层大气淡水淋滤特征

      a.垂直淋滤缝,Q-29-A井,3 375.40~3 375.45 m,岩心;b.淋滤缝中和砂砾岩周围充填的蚀变高岭石,Q-29-B井,3 374.71 m,扫描电镜;c.粒状白云石,粒间差异溶蚀,粒间孔发育,Q-29-B井,3 375.77 m;d.粒状白云石,粒间溶蚀孔、铸模孔发育,Q-29-A井,3 433.00 m,单偏光;e.粒间蚀变高岭石,高岭石边缘呈不规则状,L-25-B井,3 350.00 m;f.大量粒间溶蚀孔、粒内溶蚀孔、铸模孔,L-25-A井,3 306.00 m;g.钾长石遭受强烈淋滤,L-25-A井,3 311.50 m,扫描电镜;h.粒状白云石,漂浮在孔隙中,长石溶蚀较彻底,形成铸模孔,L-25-B井,3 374.00 m

      Fig.  8.  Atmospheric freshwater leaching characteristics of the mixed rock reservoirs in the Es1 in Qinnan sag

      图  9  研究区陆源碎屑为主混积岩储层的压实与胶结作用对孔隙度的影响

      Fig.  9.  The effect of compaction and cementation on the porosity of the terrestrial debris-based mixed rock reservoirs in the study area

      图  10  秦南凹陷东南缘沙一段混积岩储层典型成岩作用镜下特征

      a.颗粒以点接触为主,颗粒之间被白云石包壳阻隔,泥晶白云石包壳发育(发棕色-棕黄色-暗红色光),粒间被白云石(发橘红色光)和少量方解石(发亮黄色光)充填,溶蚀孔内充填高岭石(发靛蓝色光),Q-29-B井,3 373.51 m,阴极发光;b.泥晶白云石、亮晶白云石、含铁方解石胶结,Q-29-A井,3 045.00 m,正交光;c.铁白云石充填于粒间,Q-29-B井,3 325.00 m,单偏光;d.粒间充填大量的白云石、高岭石和少量的次生石英、伊利石,Q-29-B井,3 342.70 m,扫描电镜;e.颗粒点接触为主,颗粒表面发育泥晶白云石包壳,发育粒间孔,见少量生物碎屑,L-25-B井,3 391.00 m,单偏光;f.生屑大量发育,生屑骨架成分主要为白云石,见大量白云石包壳,白云石包壳中可见少量方解石充填,L-25-C井,3 353.83 m,正交光;g.颗粒边缘被白云石包壳包裹,见少量含铁方解石,粒间充填大量的高岭石,长石强烈溶蚀形成大量的铸模孔,L-25-A井,3 295.00 m,单偏光;h.泥晶白云石包壳、高岭石、伊利石充填粒间,L-25-B井,3 370.00 m,扫描电镜;i.铸模孔内充填大量鳞片状高岭石,铸模孔被白云石包壳包裹,L-25-B井,3 352.22 m;j.生屑骨架主要为白云石,颗粒表面被白云石包壳包裹,Q-30-A井,3 057.10 m,单偏光;k.含白云石粉砂岩,粒间充填泥晶白云石,Q-30-A井,3 058.47 m,单偏光;l.泥云岩,发育大量泥晶白云石,Q-30-A井,3 054.49 m,单偏光

      Fig.  10.  Microscopic characteristics of typical diagenesis of mixed rock reservoir in the Es1 in southeast margin of Qinnan sag

      图  11  研究区储层胶结作用与物性的关系

      a.白云石与孔隙度的关系;b.方解石与孔隙度的关系;c.含铁碳酸盐胶结物与面孔率的关系;d.火山岩岩屑、长石与溶蚀孔的关系

      Fig.  11.  Relationship between cement and physical properties in the study area

      图  12  研究区混积岩储层白云石成因判别图

      a.白云石胶结物碳、氧同位素散点图,底图据吴仕玖等(2019);b.白云石碳、氧同位素组成分布,底图据曹家鑫等(2018)

      Fig.  12.  Discrimination of genesis of dolomite in mixed rock reservoir of the study area

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    • 收稿日期:  2020-05-25
    • 刊出日期:  2020-11-17

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