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1.
南海北部莺-琼盆地油气勘探活动已经历了30余年,勘探发现的油气田主要以构造型油气藏为主。随着勘探程度的加深,寻找非构造的隐蔽圈闭油气藏以改变莺-琼盆地油气勘探的被动局面显得日益重要。根据油气勘探工作需要将莺-琼盆地隐蔽圈闭划分为低位盆底扇型圈闭、砂岩上倾尖灭型圈闭、浊积砂岩型圈闭、地层超覆型圈闭、古水道型圈闭、三角洲前缘砂体型圈闭。南海北部莺-琼盆地具备形成隐蔽圈闭油气藏的有利条件:莺-琼盆地有丰富的烃源基础;在历史时期内水平面的频繁变化,使得岩性带在纵横向上都发生交织变化而产生岩性油气藏,尤以在盆地低水位期形成的盆底扇、斜坡扇等低位扇为主;另外历史时期构造活动频繁,而形成多个构造面和构造不整合面,与之相适应地产生了多种地层不整合油气藏等。 相似文献
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南海南部油气地质特征 总被引:1,自引:0,他引:1
本文通过对万安、曾母等几个盆地有关油气地质特征的综合分析,认为南海南部新生代沉积盆地十分发育,具有较好的生烃条件、多层位、多类型的油气储岩,丰富多彩圈闭类型,短距离的油气运移和良好的盖层及保存条件,其中,曾母、沙巴一文莱和万安等盆地的均具有良好的油气地质条件,蕴藏着丰富的油气资源。 相似文献
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南沙海域石油地质概况 总被引:2,自引:0,他引:2
本文通过对万安、曾母等9个盆地有关油气地质特征的综合分析,认为南沙海域新生代沉积盆地十分发育,具有较好的生烃条件,多层位、多类型的油气储集岩,丰富多彩的圈闭类型,短距离的油气运移和良好的盖层及保存条件.其中,曾母、沙巴-文莱和万安盆地均具有良好的油气地质杂件,蕴藏着丰富的油气资源. 相似文献
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琼东南盆地深水区长昌凹陷勘探潜力 总被引:1,自引:0,他引:1
长昌凹陷位于琼东南盆地深水区中央坳陷东部,是深水勘探新区。通过对凹陷成藏条件分析认为,长昌凹陷供烃充足;存在三角洲砂岩、滨海相砂岩、海底扇及水道砂岩等4种类型储层,且储盖组合发育;发育多层系构造圈闭,面积普遍较大;油气成藏条件优越。在上述研究基础上,对长昌凹陷A、B、C、D、E 5个次一级洼陷勘探潜力进行了评价,认为长昌环A洼成藏特征好,发育大型有利目标。落实万宁X-1、万宁X-2、长昌X-1等多个大中型"构造+岩性"圈闭,圈闭含油气信息好,潜在资源量大,是琼东南盆地深水区下步勘探的重点。 相似文献
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陈惠玲 《海洋地质与第四纪地质》1993,(1)
1993年3月23日,广州海洋地质调查局第二海洋地质调查大队《奋斗四号》物探船从广州启航,开赴南沙群岛曾母盆地、万安盆地进行油气普查。 本航次将在南沙曾母盆地完成6500km~2综合地球物理区域普查的任务后,再赴万安盆地开展1500km~2局部构造带普查,以查明曾母盆地次级构造单元的分布和构造特征,初步评价其含油气远景。对万安盆地除对其局部构造带和主要圈闭进行含油气远景评价外,还要求提供普查井位。 南沙海域面积达80万km~2,其中有万安北盆地、万安盆地、曾母盆地、文莱—沙巴盆地和礼乐盆地等13个新生代盆地,盆地面积达37万km~2,沉积厚度逾万米。据地质资料计算,这些盆地的油气资源达294亿吨,占我国油气资源总储量的1/3,其中曾母盆地面积最大,为18万km~2,油气资源达107亿吨,在我国传统海疆域内达80亿吨。 相似文献
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南海北部深水区东西构造差异性及其动力学机制 总被引:1,自引:0,他引:1
南海北部深水区位于南海洋陆转换带,构造运动活跃,构造特征复杂。同时,南海北部深水区石油、天然气、天然气水合物等矿产资源丰富。因此,加强南海北部深水盆地构造特征分析,揭示南海北部陆缘构造属性与南海形成演化机制,对于南海深部过程演变研究、油气资源评价与地质灾害防治等具有重要的意义。本论文通过对南海北部深水区陆架-陆坡结构、盆地构造特征与演化规律的分析,指出研究区东西存在明显的构造差异性,并分析了其动力学机制。南海北部深水区东部陆架-陆坡结构为宽洼窄隆型,而西部为窄洼宽隆型。东部珠江口盆地深水凹陷均为半地堑结构,剖面上呈不对称的箕状;西部琼东南盆地除北礁凹陷为南段北超的小型半地堑外,其它凹陷均为地堑结构,为南北双断式沉积体系。在构造演化方面,东部中中新世末结束裂后期进入新构造活动期,白云凹陷构造活动性增强,表现为快速的沉降和显著的晚期断裂作用;而西部晚中新世末才进入新构造活动期,深水区表现为快速沉积作用,断裂活动较弱。 相似文献
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南海北部陆缘盆地与坎坡斯盆地 总被引:3,自引:1,他引:2
我国南海是西太平洋最大的边缘海,其北部陆缘盆地深水区位于琼东南与珠江口盆地南侧.通过对该地区烃源条件、储层条件、圈闭条件及成藏模式等的初步研究,认为其具有良好的石油地质条件,有效勘探面积和勘探潜力巨大,具有良好的勘探前景.坎坡斯盆地位于巴西大西洋大陆边缘,是一个中生代到古新近纪含油气盆地,其内部的Garoupa, Carapeba, Namorado, Roncador, Marlim等深水油田的地质储量十分丰富,随着各个油田开发的深入,对该地区的深水含油气系统有了更加清晰的了解.本文通过两个地区在构造演化,烃源条件,储层条件,圈闭条件以及成藏模式的对比研究,对南海北部陆缘盆地深水区有了进一步的认识. 相似文献
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我国南海是西太平洋最大的边缘海,其北部陆缘盆地深水区位于琼东南与珠江口盆地南侧。通过对该地区烃源条件、储层奈件、圈闭条件及成藏模式等的初步研究,认为其具有良好的石油地质条件,有效勘探面积和勘探潜力巨大,具有良好的勘探前景。坎坡斯盆地位于巴西大西洋大陆边缘,是一个中生代到古新近纪含油气盆地,其内部的Garoupa,Carapeba,Namorado,Roncador,Marlim等深水油田的地质储量十分丰富,随着各个油田开发的深入,对该地区的深水含油气系统有了更加清晰的了解。本文通过两个地区在构造演化,烃源条件,储层条件,圈闭条件以及成藏模式的对比研究,对南海北部陆缘盆地深水区有了进一步的认识。 相似文献
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琼东南盆地深水区东区凹陷带,即松南—宝岛—长昌凹陷,位于琼东南盆地中央坳陷东端。在大量地震资料解释的基础上,对38条主要断层进行了详细分析。获得以下认识:(1)琼东南盆地深水区东区凹陷带平面上表现为近EW向展布的平行四边形,剖面结构表现为自西向东由半地堑—不对称的地堑—半地堑有规律变化。(2)琼东南盆地深水区东区凹陷带断裂系统可划分控制凹陷边界断层、控制洼陷沉积中心断层和调节性断层3类。(3)琼东南盆地深水区东区凹陷带古近纪时期受到太平洋板块俯冲和南海海盆扩张的双重影响,构造应力场发生NW—SE→SN转变。构造演化可划分为3个阶段:~32Ma,应力场以区域性NW—SE向伸展为主,断裂系统以NE—SW向为主,控制凹陷边界;32~26Ma,以南海海盆近SN向拉张应力场为主,断裂系统以NWW—SEE向为主,断层活动控制凹陷沉积中心;26~Ma,区域性伸展与南海海盆扩张应力均逐渐减弱,NE—SW向和NWW—SEE向断裂继承性发育。(4)琼东南盆地深水区东区凹陷带内部主要断层在渐新统崖城组和陵水组沉积时期活动速率快,地形高差大、沉积水体深、沉积厚度大,控制了崖城组和陵水组的大规模沉积,有利于烃源岩的发育。圈闭以受断层控制的断鼻和断块为主,长昌主洼凹中隆起带发育2个最为理想的构造圈闭。 相似文献
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本文主要针对南海北部大陆边缘发育的5个沉积盆地——台西南盆地、珠江口盆地、琼东南盆地、莺歌海盆地和中建南盆地,分析了近年来利用地球物理方法研究南海北部天然气渗漏系统的成果,重点包括3个方面:天然气水合物的储藏、流体运移通道以及海底表面渗漏特征。其中表征天然气水合物存在的似海底反射BSR在台西南和珠江口盆地发育明显,莺歌海盆地发现有大型气田;5个盆地流体运移活跃,其内发现了多样的运移通道:断层、底辟、气烟囱、多边形断层及水道(峡谷)等破裂结构;海底表面渗漏特征也在台西南、珠江口、莺歌海和中建南盆地均有发现。南海北部大陆边缘天然气渗漏系统广泛发育,值得进一步深入研究。 相似文献
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琼东南盆地新生代构造研究现状及展望 总被引:1,自引:0,他引:1
琼东南盆地属于南海北部陆缘拉张盆地,但是由于其不同的发育历史及红河断裂的影响,具有与东部陆缘盆地不同的构造特征。琼东南盆地和珠江口盆地在地壳结构、基底特征等方面存在差异,但是这种差异的原因还不清楚。新生代沉降速率发生多期变化,并存在裂后异常沉降、沉降延迟等现象,其形成机制尚需要进一步研究;平面上,构造具有迁移性,但是对不同地质时期的构造迁移方向仍存在不同的看法。盆地沉降中心和沉积中心经历了由裂陷期和裂后早期的较好重合到裂后晚期的逐步分离,直至完全分离的过程。盆地形成与地幔流的关系,以及红河断裂对盆地裂后沉降迁移的影响,也都是需要进一步确定的工作。鉴于以上各方面存在的问题,对琼东南盆地与南沙的共轭关系、盆地异常沉降、红河断裂及内部构造转换带对构造迁移的影响、以及琼东南盆地与珠江口盆地的比较等方面的研究是下一步工作的重点。 相似文献
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There are many large-scale Cenozoic sedimentary basins with plentiful river deltas, deep-water fans and carbonate platforms in the southern South China Sea. The Crocker Fan was deposited as a typical submarine fan during the late Eocene–early Miocene, and stretches extensively across the entire Sarawak–Sabah of the northern Borneo area. However, systematic analyses are still lacking regarding its sediment composition and potential source suppliers. No consensus has been reached yet on the provenance evolution and sedimentary infilling processes, which seriously impeded the oil-and-gas exploration undertakings. By combining with sedimentary-facies identification, heavy mineral assemblages, elemental geochemistry and detrital zircon U-Pb dating, this paper aims to generalize an integrated analysis on the potential provenance terranes and restore source-to-sink pathways of the Crocker Fan. In general, the Crocker Fan was initially formed over the Cretaceous–lower/middle Eocene Rajang Group by an angular Rajang unconformity. The continual southward subduction of the proto-South China Sea resulted in magmatic activities and subsequent regional deformation and thrusting along the Lupar Line in the northern Borneo. The lowermost Crocker sequence is featured by a thick conglomerate layer sourced from in-situ or adjacent paleo-uplifts. From the late Eocene to the early Miocene, the Crocker Fan was constantly delivered with voluminous detritus from the Malay Peninsula of the western Sundaland. The Zengmu Basin was widely deposited with delta plain and neritic facies sediments, while the Brunei-Sabah Basin, to the farther east, was ubiquitously characterized by turbiditic sequences. The Crocker Fan successions are overall thick layers of modest-grained sandstones, which formed high-quality reservoirs in the southern South China Sea region. 相似文献
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琼东南盆地中央坳陷带拆离断层及其控盆作用 总被引:4,自引:1,他引:3
Using regional geological, newly acquired 2D and 3D seismic, drilling and well log data, especially 2D long cable seismic profiles, the structure and stratigraphy in the deep-water area of Qiongdongnan Basin are interpreted. The geometry of No.2 fault system is also re-defined, which is an important fault in the central depression belt of the deep-water area in the Qiongdongnan Basin by employing the quantitative analysis techniques of fault activity and backstripping. Furthermore, the dynamical evolution of the No.2 fault sys-tem and its controls on the central depression belt are analyzed. This study indicates that the Qiongdongnan Basin was strongly influenced by the NW-trending tensile stress field during the Late Eocene. At this time, No.2 fault system initiated and was characterized by several discontinuous fault segments, which controlled a series small NE-trending fault basins. During the Oligocene, the regional extensional stress field changed from NW-SE to SN with the oceanic spreading of South China Sea, the early small faults started to grow along their strikes, eventually connected and merged as the listric shape of the No.2 fault system as ob-served today. No.2 fault detaches along the crustal Moho surface in the deep domain of the seismic profiles as a large-scale detachment fault. A large-scale rollover anticline formed in hanging wall of the detachment fault. There are a series of small fault basins in both limbs of the rollover anticline, showing that the early small basins were involved into fold deformation of the rollover anticline. Structurally, from west to east, the central depression belt is characterized by alternatively arranged graben and half-graben. The central depression belt of the Qiongdongnan Basin lies at the extension zone of the tip of the V-shaped northwest-ern ocean sub-basin of the South China Sea, its activity period is the same as the development period of the northwestern ocean sub-basin, furthermore the emplacement and eruption of magma that originated from the mantle b 相似文献
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南海北部为我国重要的含油气区之一, 但目前南海北部盆地的演化史及其与周边构造事件的关系仍不明确。基于钻孔和地震资料, 通过数学模拟, 反演了琼东南盆地和珠江口盆地的构造应力演化特征和初始地壳厚度。结果表明, 南海北部盆地具有较薄的初始地壳厚度和岩石圈厚度。珠江口盆地存在两期应力松弛期, 而琼东南盆地在深水区和浅水区分别存在一期应力松弛期。南海北部第一期应力松弛在空间上具有连续性, 主要分布在深水区, 在时间上东早西晚; 第二期应力松弛空间上存在东西分异性。分析认为, 南海北部深水区应力松弛期由东至西的演化应为西北次海盆由东至西的剪刀式张裂所致。珠江口盆地第二期构造应力松弛与局部岩浆侵入有关, 琼东南盆地浅水区的构造应力松弛期与红河走滑断裂平静期相对应。 相似文献
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Geology and hydrocarbon accumulations in the deepwater of the northwestern South China Sea——with focus on natural gas 总被引:3,自引:0,他引:3
WANG Zhenfeng SUN Zhipeng ZHANG Daojun ZHU Jitian LI Xushen HUANG Baoji GUO Minggang JIANG Rufeng 《海洋学报(英文版)》2015,34(10):57-70
The deepwater of the northwestern South China Sea is located in the central to southern parts of the Qiongdongnan Basin(QDN Basin),which is a key site for hydrocarbon exploration in recent years.In this study,the authors did a comprehensive analysis of gravity-magnetic data,extensive 3D seismic survey,cores and cuttings,paleontology and geochemical indexes,proposed the mechanism of natural gas origin,identified different oil and gas systems,and established the model of hydrocarbon accumulations in the deep-water region.Our basin tectonic simulation indicates that the evolution of QDN Basin was controlled by multiple-phased tectonic movements,such as Indochina-Eurasian Plate collision,Tibetan Uplift,Red River faulting and the expansion of the South China Sea which is characterized by Paleogene rifting,Neogene depression,and Eocene intensive faulting and lacustrine deposits.The drilling results show that this region is dominated by marineterrestrial transitional and neritic-bathyal facies from the early Oligocene.The Yacheng Formation of the early Oligocene is rich in organic matter and a main gas-source rock.According to the geological-geochemical data from the latest drilling wells,Lingshui,Baodao,Changchang Sags have good hydrocarbon-generating potentials,where two plays from the Paleogene and Neogene reservoirs were developed.Those reservoirs occur in central canyon structural-lithologic trap zone,Changchang marginal trap zone and southern fault terrace of Baodao Sag.Among them,the central canyon trap zone has a great potential for exploration because the various reservoirforming elements are well developed,i.e.,good coal-measure source rocks,sufficient reservoirs from the Neogene turbidity sandstone and submarine fan,faults connecting source rock and reservoirs,effective vertical migration,late stage aggregation and favorable structural–lithological composite trapping.These study results provide an important scientific basis for hydrocarbon exploration in this region,evidenced by the recent discovery of the significant commercial LS-A gas field in the central canyon of the Lingshui Sag. 相似文献
18.
我国南海历史性水域线的地质特征 总被引:3,自引:1,他引:2
40a的海洋地质、地球物理实测研究表明,九段线不仅是显示我国南海主权的历史性水域线,而且总体上也是南海与东部、南部和西部陆区及岛区的巨型地质边界线。根据实测数据,本文将从地质成因、来源、演化的角度论述此南海历史性水域线的合理性。主要结论包括:历史性水域线的东段在地形上基本与马尼拉海沟一致,海沟西侧为南海中央海盆洋壳区,东侧为菲律宾群岛。根据国际地质研究的资料,菲律宾群岛始新世以前位于较偏南的纬度,后来于中晚中新世(距今16~10Ma)仰冲于南海中央海盆之上,因此菲律宾群岛是一个外来群岛。而黄岩岛在马尼拉海沟以西,是中央海盆洋壳区的一个岛礁,与菲律宾群岛成因不同。南海历史性水域线的南段在地形上基本与南沙海槽一致,伴随南沙地块由北部陆缘向南裂离,古南海洋壳沿此海槽以南俯冲至加里曼丹岛陆壳之下,因此南沙地块与加里曼丹陆块为两个来历不同的地块。南海历史性水域线西段的分布在地形上与越东巨型走滑断裂带基本一致,可能与西沙地块、中沙地块、南沙地块从南海北部陆缘向南滑移有关。南沙地块北缘陡直的正断层结构,突显中央海盆是拉裂形成,其基底和中新生代地层与北部珠江口盆地的地层结构可以对比,说明南沙岛礁原属我国华南大陆南缘,后因南海的形成裂离至现今的位置。 相似文献
19.
Drilling has shown that there is a large petroleum reserve in the Liushagang Formation of the Fushan Depression, South China Sea from reservoirs of the sublacustrine fans. To reduce the risk associated with exploration, the sedimentary characteristics of the sublacustrine fans should be identified and described. Analysis of the drilling cores, well data and 3D seismic data was conducted to identify and interpret the sublacustrine fans which formed in a lacustrine succession as the low-stand fan of the 2nd member of Liushagang Formation (SQEls2). The reservoirs were commonly associated with pebbly conglomerates, mudstone shivers, muddy debris, various deformation structures including micro-faults, liquified deformation structure, ball and pillow structure, slump and stress-release deformation. Further contrastive analysis of sedimentary characteristics and palaeogeomorphology between the western and eastern sublacustrine fans indicates that they belong to two different types of sublacustrine system in continental basins. More specifically, the western fan, controlled by the multi-level step-fault belt, is a typical gravel-rich sublacustrine system which is characterised by structurally controlled, high gradient (2.8–3.3°), admixtures of muddy debris and pebbly conglomerates and poor reservoir quality, while the eastern fan, controlled by the flexure slope-break belt, is a sand-rich sublacustrine system dominated by relatively low gradient (2.0–2.5°), general fining-upwards trend with good reservoir quality. Therefore, the development of future exploration should be conducted at different levels in the Fushan Depression. 相似文献