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从浅水陆架走向深水陆坡——南海深水扇系统的研究

彭大钧 庞雄 陈长民 舒誉 叶斌 甘其刚 吴昌荣 黄先律

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文章导航 > 沉积学报  > 2005 >  23(1): 1-11
彭大钧, 庞雄, 陈长民, 舒誉, 叶斌, 甘其刚, 吴昌荣, 黄先律. 从浅水陆架走向深水陆坡——南海深水扇系统的研究[J]. 沉积学报, 2005, 23(1): 1-11.
引用本文: 彭大钧, 庞雄, 陈长民, 舒誉, 叶斌, 甘其刚, 吴昌荣, 黄先律. 从浅水陆架走向深水陆坡——南海深水扇系统的研究[J]. 沉积学报, 2005, 23(1): 1-11.
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PENGDa-jun, PANGXiong, CHENChang-min, YUShu, YEBing, GANJi-gang, WUChang-rong, HUANG Xian-lu. From Shallow-water Shelf to Deep-water Slope——the study on deep-water fan systems in South China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 1-11.
Citation: PENGDa-jun, PANGXiong, CHENChang-min, YUShu, YEBing, GANJi-gang, WUChang-rong, HUANG Xian-lu. From Shallow-water Shelf to Deep-water Slope——the study on deep-water fan systems in South China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 1-11.
shu

从浅水陆架走向深水陆坡——南海深水扇系统的研究

  • 1.

    成都理工大学,成都 610059;

  • 2.

    中国海洋石油总公司深圳分公司技术部,广州 510240

基金项目: 国家自然科学基金委员会重点项目“南海深水扇系统及油气资源(40238060)”;中国海洋石油总公司联合资助
详细信息
    作者简介:

    彭大钧,男,1934年出生,教授,博士生导师,隐蔽油气藏及油气富集规律。

  • 中图分类号: P744.4

From Shallow-water Shelf to Deep-water Slope——the study on deep-water fan systems in South China Sea

  • 1.

    Chengdu University of Technology,Chengdu610059;

  • 2.

    Tachnology Department, Shenzhen,CNOOC Ltd,Guangzhou 510240

    摘要
  • 摘要: 南海深水扇系统是近年来在南海海域的重大发现,证实自30Ma以来深水扇系统密集地分布在我国的近海海域内,并以其宏大的规模、典型的结构及巨大的勘探前景引起国内外的关注。深入展开深水扇系统的研究将是我国油气界与科学界的重大任务。近20年来,深水扇系统已成为国际石油产量与储量增长的主体,已经有60多个国家进行深水扇研究,并在国际学术界获得高度重视。据认为:“深水浊流及其有关储层在今后至少25年内将成为油气勘探开发研究的前缘”。南海珠江口盆地深水扇系统发育区域的地质条件与国际上已有重大油气发现的深水扇系统发育区有许多重要的相似。古珠江大河充足的物源供应,长期沉降的深水凹陷与海平面周期性下降是纵向上呈良好叠置状态的深水扇系统发育的要素;而立足于精度较好,保真程度较高的高分辨地震剖面是识别层序界面,识别低水位体系域,辨识陆架坡折带的技术关键,这就使研究领域从浅水陆架进入到深水陆坡。应当给深水扇系统赋予科学的定义;然而国际学术界对深水扇系统的沉积物性质、类型及预测方法技术存在争议。但是,毫无疑义的是,深水扇系统具有可识别性,它对油气的运移、聚集、隐蔽圈闭的形成以及指导油气勘探有着重要的意义。
    Abstract: Oil and gas are strategic resources. China became oil input country since 1993. In order to ensure the energy security, one of the best energy policies is to find out several giant oil-gas fields in the coastal ocean regions and to establish new petroleum strategic base. The deep-water fan system in South China Sea could become the break through area. The deep-water fan systems play a dominant role for the international oil production and reserve increasing in the last 20 years, more than 60 countries doing well for the research of deep-water fan system. This subject attracts the international academic attention and considered as"one of the principal scientific technical and environmental challenges for the new century"and"deep-water turbidite and related reservoirswill be at the forefront of oil and gas exploration and production for at least the next 25 years. "(D. A. V. Stow, et al. 2000). Deep-water fan system which being discovered recentlywith the characteristics in South China Sea of huge scale,densely distribution, typical architecture and great exp loration future. The deep study for the deep-water fan systems is becoming the major subject for oil and gas industry and scientific academy. This article gives a definition for deep-water fan system, and points out the discovery of large-scale deep-water fan systems in the South China Sea has significant economic potentials and academic values.
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    • 参考文献(1)
  • [1] 1 Dajun Peng,Changmin Chen,Xiong Pang,Xianlu Huang. Discovery of deep-water fan system in Pearl River Mouth Basin[A].Barcelona,2003.

    2 陈长民,施和生,许仕策. 珠江口盆地(东部)第三系油气藏形成条件[M].北京:科学出版社,2003.

    3 邱中建,龚再升. 中国油气勘探[M].北京:地质出版社,1999.

    4 ChenChangmin,Pang Xiong. The deep-water lowstand fan and its exploration potential of Pearl River Mouth Basin PRMB[Z].2001.

    5 DorrikA,Stow V,Mike Mayall. Deep-Water sedimentary systems:New models for the 21st century[J].Marine and Petroleum Geology,2000.125-135.

    6 ShanmugamG. 50 years of the turbidite paradigm (1950s~1990s): deep-water processes and facies models-a critical perspective[J].Marine and Petroleum Geology,2000,(17): 285-342.

    7 RichardsM,Bowman M. Submarine fans and related depositional systems Ⅱ: Variability in reservoir architecture and wireline log character[J].Marine and Petroleum Geology,1998.821-839.doi:10.1016/S0264-8172(98)00042-7.

    8 GallowayWE,Huang Chunju. Slope and base-of-slope depositional system[J].AAPG Bulletin,1998,(04):569-595.

    9 JackCaldwell. Deep water exploration opportunities: South Atlantic African Basins[J].Petroconsultants,1997.

    10 Apps G M,Peel F J,Travis C J,Yeilding CA. Structural controls on Tertiary deep water deposition in the northern Gulf of Mexico[A].1994.1-7.

    11 Luca Baruffini,Carlo Cavalli,Lorenzo Papani. Detailed stratal correlation and stacking patterns of the Gremiasco and Lower Castagnola turbidite systems, Tertiary Piedmont Basin, Northwestern Italy[A].1994.9-21.

    12 Arnold H,Bouma H,Deville Wickens,Tanqua Karoo. Ancient analog for fine-grained submarine fans[A].1994.23-34.

    13 Carlos H L Bruhn,Roger G Walker. High-Resolution Stratigraphy and reservoir geometry of turbidites from the marine transgressive Megasequence of Campos (Late Cretaceous) and Espirito Santo (Early Eocene) Basin, Brazil[A].1994.34-35.

    14 Cesar Cainelli. Shelf Processes and Canyon/Channel Evolution Controlling Turbidite Systems: Examples from the Sergipe-Alagoas Basin, Brazil[A].1994.39-50.

    15 ElverhoiA,Norem H,Anderson E S,Dowdeswell J A,. On the origin and flow behavior of submarine slides on deep-sea fans along the Norwegian-Barents Sea Continental Margin[J].Geo-Marine Letters,1997. 119-125.

    16 ReadingHG,Richards M. Turbidite systems in deep-water basin margins classified by grain size and feeder system[J].AAPG Bulletin,1994.792-22.

    17 WellsNA. Clastic sedimentology-deep sea[J].Geotimes,1998.31-32.
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出版历程
  • 收稿日期:  2004-03-09
  • 修回日期:  2004-07-08
  • 刊出日期:  2005-03-10

目录

    从浅水陆架走向深水陆坡——南海深水扇系统的研究

    • 1. 成都理工大学,成都 610059;
    • 2. 中国海洋石油总公司深圳分公司技术部,广州 510240
      • 基金项目:  国家自然科学基金委员会重点项目“南海深水扇系统及油气资源(40238060)”;中国海洋石油总公司联合资助
      作者简介:

      彭大钧,男,1934年出生,教授,博士生导师,隐蔽油气藏及油气富集规律。

    • 收稿日期: 2004-03-09
    • 修回日期: 2004-07-08
    • 刊出日期: 2005-03-10

    • 中图分类号: P744.4

    摘要: 南海深水扇系统是近年来在南海海域的重大发现,证实自30Ma以来深水扇系统密集地分布在我国的近海海域内,并以其宏大的规模、典型的结构及巨大的勘探前景引起国内外的关注。深入展开深水扇系统的研究将是我国油气界与科学界的重大任务。近20年来,深水扇系统已成为国际石油产量与储量增长的主体,已经有60多个国家进行深水扇研究,并在国际学术界获得高度重视。据认为:“深水浊流及其有关储层在今后至少25年内将成为油气勘探开发研究的前缘”。南海珠江口盆地深水扇系统发育区域的地质条件与国际上已有重大油气发现的深水扇系统发育区有许多重要的相似。古珠江大河充足的物源供应,长期沉降的深水凹陷与海平面周期性下降是纵向上呈良好叠置状态的深水扇系统发育的要素;而立足于精度较好,保真程度较高的高分辨地震剖面是识别层序界面,识别低水位体系域,辨识陆架坡折带的技术关键,这就使研究领域从浅水陆架进入到深水陆坡。应当给深水扇系统赋予科学的定义;然而国际学术界对深水扇系统的沉积物性质、类型及预测方法技术存在争议。但是,毫无疑义的是,深水扇系统具有可识别性,它对油气的运移、聚集、隐蔽圈闭的形成以及指导油气勘探有着重要的意义。

    English Abstract

    彭大钧, 庞雄, 陈长民, 舒誉, 叶斌, 甘其刚, 吴昌荣, 黄先律. 从浅水陆架走向深水陆坡——南海深水扇系统的研究[J]. 沉积学报, 2005, 23(1): 1-11.
    引用本文: 彭大钧, 庞雄, 陈长民, 舒誉, 叶斌, 甘其刚, 吴昌荣, 黄先律. 从浅水陆架走向深水陆坡——南海深水扇系统的研究[J]. 沉积学报, 2005, 23(1): 1-11.
    shu
    PENGDa-jun, PANGXiong, CHENChang-min, YUShu, YEBing, GANJi-gang, WUChang-rong, HUANG Xian-lu. From Shallow-water Shelf to Deep-water Slope——the study on deep-water fan systems in South China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 1-11.
    Citation: PENGDa-jun, PANGXiong, CHENChang-min, YUShu, YEBing, GANJi-gang, WUChang-rong, HUANG Xian-lu. From Shallow-water Shelf to Deep-water Slope——the study on deep-water fan systems in South China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 1-11.
    shu

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