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南海南北陆缘盆地储盖组合差异及其主控因素 总被引:1,自引:0,他引:1
南海南北陆缘盆地油气成藏条件差异较大,目前南部盆地的油气产量远大于北部盆地。根据储集层和盖层的环境特征,大致可将南海南北陆缘盆地储盖组合划分为4种类型:陆相砂+局部盖层组合,海陆交互相砂+局部/区域性盖层储盖组合,滨浅海碎屑砂体/碳酸盐岩生物礁+浅海相泥岩区域性盖层储盖组合以及深水碎屑岩/浅海砂体+深水泥岩储盖组合。相对于北部盆地,南部盆地的碳酸盐岩+海相泥岩储盖组合发育更加广泛。分析认为,构造活动差异是造成南北陆缘盆地储盖组合特征及其差异的第一控制因素;此外,区域地质和环境背景的演变也是造成这种差异的重要影响因素。 相似文献
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澳大利亚西北陆架中生界生储盖组合特征 总被引:6,自引:0,他引:6
澳大利亚西北陆架是一个贫油富气的地区,在近年的勘探开发中显示出广阔的前景。区域上包含4个盆地和1个造山带:北卡那封盆地、柔布克盆地、布劳斯盆地、波拿巴盆地和帝汶—班达褶皱带。西北陆架油气绝大多数集中在中生界。中生界发育4套主要烃源岩:三叠系湖相泥页岩、下—中侏罗统海相和海陆交互相碳质泥岩和煤系、上侏罗统海相页岩及下白垩统海相泥页岩;主要储集岩为中—上三叠统三角洲—边缘海相砂岩、下—中侏罗统砂岩、上侏罗统砂岩和白垩系砂岩;主要区域性盖层是下白垩统海相泥页岩。根据生储盖组合的沉积环境,主要发育海生海储海盖型和陆生陆储陆盖型两大生储盖组合类型。海生海储海盖型生储盖组合广泛分布于西北大陆架,是区域最重要的成藏组合。 相似文献
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曾母盆地为一非典型的前陆盆地,盆地的类型决定了地层沉积模式,同时也决定了含油气盆地成藏的基本条件。盆地内多旋回的持续沉降形成了多套有利的生储盖组合,包括区域生储盖组合和各层序内的生储盖组合。相区在空间的分布具有三分性,最有利的含油相带区为西部台北-碎屑岩混合相区,南部碎屑岩相区和北部台地相区,优越的构造岩相带使春具备了形成大型油气田的基本条件。 相似文献
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南海北部琼东南盆地具有准被动大陆边缘性质,其深水区具有较好的勘探前景.综合利用地震、钻井等资料,从层序地层研究出发,探讨了等时地层格架内新近系储层沉积特征,总结了浅水(陆表海)背景和深水(陆坡)背景下的储层沉积模式.根据储盖层沉积背景,并结合已有钻井资料,指出深水区新近系主要发育深水沉积和浅水沉积两大类型储盖组合:浅水... 相似文献
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环北极深水盆地群油气资源丰富,资源量达2 200亿桶油当量,但总体勘探程度较低,是未来深水油气勘探开发重要的战略接替区。对环北极深水盆地群中巴伦支海盆地、东格陵兰盆地、北极斜坡盆地和斯沃特里普盆地4个含油气盆地做了详细调研,得出以下结论:环北极深水区油气主要富集在中生界,本区共发育有三叠系、中—上侏罗统泥页岩2套区域性主力烃源岩和上二叠统、下侏罗统和白垩系泥页岩3套局部主力烃源岩;发育二叠系、三叠系、侏罗系和白垩系砂岩4套储集岩;发育三叠系、侏罗系和白垩系页岩3套盖层。根据生储盖组合的沉积环境及主力烃源岩及储层所处的构造期次得出本区的主力生储盖组合为裂谷期海生海储海盖型生储盖组合,主要圈闭类型为构造圈闭。 相似文献
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以油气地质理论为指导,在构造、沉积地层特征研究的基础上,重点分析了西北沙巴盆地不同构造区烃源岩、储集层、圈闭等油气地质特征,并分析了构造对盆地油气成藏的控制作用。认为该盆地的主要烃源岩是Stage Ⅳ泥/页岩;有利储集层为由Stage ⅣC、Stage ⅣD砂岩组成的上砂岩单元、Stage ⅣA砂岩组成的下砂岩单元以及Stage ⅣC、Stage ⅣD滑塌形成的深水浊积扇;总结出下、上及深水3套储盖组合。盆地各烃源岩、储集层受构造—地貌控制分布于不同的构造区;受不同时期变形作用的影响,盆地各构造区内发育不同类型的圈闭,进而控制了盆地油气藏的形成和分布。 相似文献
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In some areas of the Murzuq Basin, SW Libya, the lower Silurian member comprises highly radioactive shales (Hot Shale), which are regarded as the most significant factor controlling petroleum generation in the basin. In this context, it was the goal of our project to study the distribution and maturity of the Hot Shale in the framework of basin evolution. Organic geochemical, organic petrological and basin modelling methods were used to obtain a more thorough understanding. Four wells from the northern and central part of the Awbari Trough have been selected for this study. 相似文献
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The Late Miocene Zeit Formation is exposed in the Red Sea Basin of Sudan and represents an important oil-source rock. In this study, five (5) exploratory wells along Red Sea Basin of Sudan are used to model the petroleum generation and expulsion history of the Zeit Formation. Burial/thermal models illustrate that the Red Sea is an extensional rift basin and initially developed during the Late Eocene to Oligocene. Heat flow models show that the present-day heat flow values in the area are between 60 and 109 mW/m2. The variation in values of the heat flow can be linked to the raise in the geothermal gradient from margins of the basin towards offshore basin. The offshore basin is an axial area with thick burial depth, which is the principal heat flow source.The paleo-heat flow values of the basin are approximately from 95 to 260 mW/m2, increased from Oligocene to Early Pliocene and then decreased exponentially prior to Late Pliocene. This high paleo-heat flow had a considerable effect on the source rock maturation and cooking of the organic matter. The maturity history models indicate that the Zeit Formation source rock passed the late oil-window and converted the oil generated to gas during the Late Miocene.The basin models also indicate that the petroleum was expelled from the Zeit source rock during the Late Miocene (>7 Ma) and it continues to present-day, with transformation ratio of more than 50%. Therefore, the Zeit Formation acts as an effective source rock where significant amounts of petroleum are expected to be generated in the Red Sea Basin. 相似文献
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Li Sanzhong Xu Shumei Shan Yehu Li Xishuang Zhou Lihong Hao Yinquan Fan Zheqing Liang Huilan 《海洋学报(英文版)》2000,19(4):91-105
According to multi-disciplinary research advances in recent years, three blocks which named Jiaoliao-Bohai block, central North China block and Ordos block are divided.The differences of the tectonic association, types, styles and features in the space, and ewlution fmm Archaean to Cenozoic in the time, between the former two blocks are discussed.Tectonic features and evolution in the four tectonic stages of Precambrian, Indo-China, Yanshanian and Cenozoic are emphasized especially here.All of them described above have inherit and neogenic property.The temporal-spatial change and interaction among basin assemblages in the above four stagers are analyzed.Escape tectonic model is employed to interpret coeval compressive and extensional basins in the study area. 相似文献
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本文根据厦门港湾12个柱样沉积物的抱粉分析结果,划分出三个饱粉带,探讨了其沉积环境与古气候演化史。Ⅲ榛属-藜科-水龙骨科带,以榛和草本为主,表明为稀树草原植被和温凉干燥气候,陆相沉积,形成于晚更新世晚期至早全新世;Ⅱ栎属、栲属、栗属一水龙骨科带,表明为繁盛的常绿阔叶林和茂密的灌木草本植被,气候最湿润暖热,为冰后期海面最高时期,海相沉积,形成于中全新世;I松属-禾本科-蕨属、水龙骨科带,由成类、草本和针叶树组成,表明主要为针叶树和栽培植被,气候转为暖干,现代沉积,即晚全新世。 相似文献
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下刚果盆地油气资源非常丰富,有较大勘探前景。但由于其储层是碳酸盐岩储层,受复杂的盐岩活动影响,其构造特征及油气成藏特征也非常复杂,因此给地质认识带来了很大的困难。此文通过对该区区域地质背景、油气成藏条件和勘探潜力的综合分析,认为下刚果盆地构造演化经历了前裂谷期、同裂谷期、过渡期和漂移期四个时期。主要发育盐下和盐上两套主力烃源岩。盐上及盐下地层均具有良好的储盖组合。盐上地层构造经历了三期构造演化和两个演化序列。研究区主要发育盐下生-盐下储、盐下生-盐上储、盐上生-盐上储共三种成藏组合。认为白垩系碳酸盐岩构造具有良好的勘探前景,盐上地层是下一步勘探需要重点关注的区域,盐下构造也是较好的潜在勘探领域。研究成果对我国石油公司参与下刚果盆地或类似盆地的研究和油气勘探具有一定的借鉴意义。 相似文献
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Poul Schiøler Karyne Rogers Richard Sykes Chris J. Hollis Brad Ilg Dylan Meadows Lucia Roncaglia Chris Uruski 《Marine and Petroleum Geology》2010
Detailed palynofacies analysis of sidewall core samples taken from below, within and above the Tartan Formation (Thanetian, Late Paleocene, 58.7–55.8 Ma), a potential source rock in the epeiric Great South Basin, shows that the formation is characterised by very high percentages of degraded brown phytoclasts, rare marine algae and amorphous organic matter and thereby represents a mix of terrestrial and marine kerogen. The results indicate that the formation was deposited in a marginally marine (hyposaline), proximal environment under bottom conditions that varied from anoxic to oxic along a nearshore–offshore transect. Samples from the upper part of the underlying Wickliffe Formation indicate deposition in a marginal to normal marine, proximal environment under anoxic to oxic bottom environments. The lower part of the overlying Laing Formation was deposited in an open marine, relatively distal setting under anoxic to oxic bottom environments. 相似文献
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从有机碳含量、可溶有机质含量及其转化率、热解参数、饱和烃的生物表示化合物特征、有机岩石学特征几个方面分析了民和盆地侏罗系烃源岩的有机质丰度、类型和成熟度,并进行了地球化学特征分析和生烃潜力评价。分析认为盆地发育湖相泥岩和煤系两大类烃源岩,有机质以较富含低等水生生物原始母质的腐泥腐殖型为主,主要分布于中侏罗统。通过对盆地石油地质条件的评价,结合各区带落实认识程度和资料品质条件认为:武家鼻隆构造带是最有利的勘探区带,万泉堡鼻状构造带具有良好勘探潜力,大庄构造带是寻找浅层次生油气藏的有利区带。永登凹陷面积大,资源丰富,勘探认识程度低,具有良好勘探前景。 相似文献
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渤海湾盆地南堡凹陷断裂控藏特征研究 总被引:1,自引:0,他引:1
南堡凹陷为渤海湾盆地的一个新生代富生烃凹陷,内部断层十分发育,大量的油气藏都围绕断裂分布。根据断裂平面及剖面组合特征,断裂平面组合样式可分为4种:平行状、交织状、梳状和帚状;剖面组合分为3种:复“y”形组合、花状组合及阶梯式组合。根据断裂、砂体及油气藏的分布特征,发现二级和三级生长断层凹面储集厚度较大、且砂体孔渗性较好,是油气运移的主要方向。反向旋转断层组合的断层下盘和同向旋转断层组合的断层上盘是油气聚集的有利部位。但由于断层带的分带性,上诱导裂缝带相对下诱导裂缝带渗透性好。上诱导裂缝带利于油气运移,下诱导裂缝带利于封堵油气,油气的最有利聚集部位为反向旋转断层组合的下盘。 相似文献
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The Triassic formation is a possible new giant hydrocarbon generated formation in Northwest China and Mid-Asia. Taking the Upper Triassic formation in the Sikeshu Sag in Junggar Basin as an example, based on the comprehensive analysis on the geochemical characteristics of the cores and the dark mudstone of the outcrops and reservoir formation conditions, we have evaluated the Upper Triassic source rocks by comparing with those in the Ulungu Depression, and reached the following findings. Firstly, the Upper Triassic formation is mainly composed of dark mudstone and sandy mudstone deposits, and the hydrocarbon source rock is mainly distributed in the middle and upper parts with a thickness range of 100–150 m and area of 3500 km2. Secondly, the source rock, moderate in organic matter abundance (with TOC range of 1%–3%), has the material basis for hydrocarbon generation. Thirdly, the organic matter has high percentage of sapropelinite, and is dominated by type II2. Fourthly, the degree of the thermal evolution is moderate, and the source rock with Ro higher than 0.7% has a distribution area of about 1800 km2, providing the conditions of massive hydrocarbon generation. Fifthly, the source rock has great burial depth and wide distribution; the source rock with a Ro of higher than 0.7% and thickness of more than 100 m has an area of around 1400 km2, implying huge resource potential. Sixthly, the next step exploration should focus on highly mature hydrocarbon generation central area in the Upper Triassic - Lower Jurassic in the east of the sag to search for and confirm favorable traps. The research findings have important reference value for promoting the resource status of, deepening the understanding of reservoir formation, and clarifying the exploration direction in the Sikeshu Sag and other periphery Mid-Asia areas. 相似文献