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苏北盆地黄桥地区盐城组氦气成藏地质条件及富集规律

姚红生 陈兴明 周韬

姚红生, 陈兴明, 周韬. 苏北盆地黄桥地区盐城组氦气成藏地质条件及富集规律[J]. 石油实验地质, 2024, 46(5): 906-915. doi: 10.11781/sysydz202405906
引用本文: 姚红生, 陈兴明, 周韬. 苏北盆地黄桥地区盐城组氦气成藏地质条件及富集规律[J]. 石油实验地质, 2024, 46(5): 906-915. doi: 10.11781/sysydz202405906
YAO Hongsheng, CHEN Xingming, ZHOU Tao. Geological conditions and enrichment patterns of helium reservoir in Yancheng Formation, Huangqiao area, Subei Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2024, 46(5): 906-915. doi: 10.11781/sysydz202405906
Citation: YAO Hongsheng, CHEN Xingming, ZHOU Tao. Geological conditions and enrichment patterns of helium reservoir in Yancheng Formation, Huangqiao area, Subei Basin[J]. PETROLEUM GEOLOGY & EXPERIMENT, 2024, 46(5): 906-915. doi: 10.11781/sysydz202405906

苏北盆地黄桥地区盐城组氦气成藏地质条件及富集规律

doi: 10.11781/sysydz202405906
基金项目: 

中国石化先导项目 YTBXD-FCZY-2024-1-07-001

详细信息
    作者简介:

    姚红生(1968—), 男, 正高级工程师, 从事油气资源勘探开发研究及管理工作。E-mail: yaohs.hdsj@sinopec.com

    通讯作者:

    周韬(1983—), 男, 硕士, 副研究员, 从事油气勘探研究。E-mail: happyxiy01@163.com

  • 中图分类号: TE122

Geological conditions and enrichment patterns of helium reservoir in Yancheng Formation, Huangqiao area, Subei Basin

  • 摘要: 苏北盆地黄桥地区新近系盐城组天然气中He含量介于1.05%~1.40%,普遍高于工业品位,为壳—幔复合型氦气资源。目前,对于这种来源的氦气富集主控因素以及勘探目标评价的研究较为薄弱,为此,系统剖析了黄桥地区典型富氦气藏氦气成因、来源及圈闭特征,重点分析了幔源断裂对富氦气藏输导作用、盐城组圈闭条件的影响,提出了黄桥地区盐城组富氦气藏富集模式。结果表明:(1)黄桥地区南新街深大断裂在盐城组沉积时期持续活动,导致幔源物质上涌,伴随着火山活动及CO2、N2以及氦气沿断裂运移至浅层;(2)黄桥地区盐城组埋深为370~400 m, 盐城组底部砂岩厚度约为40 m,上覆10~40 m泥岩,储盖组合有利, 富氦气层由东往西尖灭;(3)黄桥地区盐城组整体为单斜构造,盐城组底部界面与下伏地层呈角度不整合,通过地震标定及解释,刻画出了富氦气层岩性—地层复合圈闭面积。黄桥地区盐城组富氦气藏具有断裂沟通地幔输导、砂岩储集、泥岩作为盖层、岩性—地层复合圈闭富集等特征,该认识对黄桥地区氦气有利目标评价具有重要意义。

     

  • 图  1  苏北盆地新生代构造区划及研究区位置

    Figure  1.  Cenozoic tectonic zoning of Subei Basin and location of study area

    图  2  苏北盆地黄桥地区二维测线、三维工区及区域断裂分布

    a.黄桥地区构造沉积剖面位置;b.南新街凸起—黄桥地震剖面位置;c.黄浅11井—黄浅1井地震连井剖面位置。

    Figure  2.  Two-dimensional surveying lines, three-dimensional working area, and regional fault distribution in Huangqiao area of Subei Basin

    图  3  苏北盆地黄桥地区构造地层剖面

    剖面位置见图 2a

    Figure  3.  Tectonic and stratigraphic profile of Huangqiao area in Subei Basin

    图  4  苏北盆地与中国西部含油气盆地He同位素分布特征

    Figure  4.  Distribution characteristics of helium isotopes in Subei Basin and petroleum-bearing basins in western China

    图  5  苏北盆地黄桥地区黄浅12井—黄浅6井—黄浅1井—黄浅14井盐城组地层对比

    1ft=0.304 8 m。

    Figure  5.  Stratigraphic correlation of Yancheng Formation in wells Huangqian 12, 6, 1, and 14 in Huangqiao area of Subei Basin

    图  6  苏北盆地黄桥地区盐城组地震解释剖面

    Figure  6.  Seismic interpretation section of Yancheng Formation in Huangqiao area of Subei Basin

    图  7  苏北盆地黄桥三维工区盐城组含气层顶面构造

    此图范围见图 2

    Figure  7.  Top surface structure of gas-bearing layer of Yancheng Formation in 3D working zone of Huangqiao area in Subei Basin

    图  8  苏北盆地南新街凸起—黄桥地震剖面

    剖面位置见图 2b

    Figure  8.  Seismic profile from Nanxinjie uplift to Huangqiao area in Subei Basin

    图  9  苏北盆地黄浅11井—黄浅1井地震剖面

    剖面位置见图 2c

    Figure  9.  Seismic profile from well Huangqian 11 to Huangqian 1 in Subei Basin

    图  10  苏北盆地黄桥地区富氦气藏富集模式

    Figure  10.  Enrichment model of helium-rich gas reservoirs in Huangqiao area of Subei Basin

    表  1  苏北盆地黄桥地区部分钻井中气体组分和同位素组成

    Table  1.   Gas and isotope composition of some wells in Huangqiao area of Subei Basin

    井号 层位 主要成分/% δ13C1/‰ δDCH4/‰ δ13CCO2/‰ 40Ar/36Ar 3He/4He/10-6 R/Ra
    CO2 CH4 C2+ N2 He
    黄浅1 Ny 13.8 26.6 53.5 1.4
    黄浅2 Ny 8.9 26.8 1.5 59.2 1.2 -36.2 -193.5 -9.4 717 4.9 3.49
    黄浅4 Ny 12.7 19.7 62.2 1.05 -40.3
    N6 K2p 97.3 0.1 0 2.6
    T1q -39.1 -3.3
    黄验1 K2p 98.2 0.2 0 0.052 -40.1
    P1q 94.3 0.1 0 4.5 -41.7 -254.7 -3.9 725 4.9 3.5
    C3c 97.6 0.7 0.1
    C1g 95.6 2.2 0.9
    苏174 P1q 95.7 微量 微量 3.3 0.008 -3.3 717
    D3w 97.4 0.8 0.1 2.3 0.002 -29.6 -3.4 711 5.5 3.96
    S3m 97.2 1.7 0.5 0.1
    S2f 73.1 19.6 0.5 10.5 -37.6 -5.5
    下载: 导出CSV
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  • 收稿日期:  2023-12-28
  • 修回日期:  2024-08-03
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