基于构造—地层学的隐蔽圈闭预测——以松南十屋断陷深层为例

综合运用高精度层序地层学、构造一地层学方法,认为十屋断陷深层发育的各类隐蔽圈闭是下一步勘探工作的重要目标。同时,由于构造对沉积的控制作用,在断陷内部不同的构造部位具有不同的隐蔽圈闭分布特征。十屋断陷西部皮家地区、北部张家屯一八屋地区位于油气主要运移指向区,分别由断裂坡折带和以挠曲型褶皱为特征的弯折带控制的储集砂体十分发育,盖层及保存条件也十分优越,是深部原生岩性、地层油气藏最有利的勘探目标区带。     

伊通盆地莫里青断陷双一段油气成藏模式

莫里青断陷为伊通盆地最南端的一个二级构造单元,古近纪以来经历了张扭、热沉降、压扭和挤压构造演化阶段。通过对莫里青断陷双一段油气特征及分布的分析,厘清了高凝油、天然气的来源,分析了油气的输导体系和成藏过程,建立成藏模式,以指导油气勘探。双一段高凝油主要分布在凹陷的东西斜坡带,其成因与烃源岩的有机质类型和环境有关,分布与有机质低成熟及运移特征有一定关系;天然气主要分布在东南高部位,具有低熟特征。双一段油气主要来源于双阳组,凹陷斜坡带的扇三角洲、湖底扇砂岩体、断层及不整合面为油气侧向运移的良好通道。凹陷的远端则可能由于运移动力的不足或者输导体系不连通而难以到达。烃源岩分布、砂体展布、断层发育和不整合面结构分布是油气成藏主控因素。伊6区块晚期基底拱张,低熟气以断层和低渗储层为通道于高部位聚集成藏。     

大巴山前缘地区龙王庙组油气成藏条件

川中地区龙王庙组的天然气勘探已经取得重大发现,然而大巴山前缘地区龙王庙组尚未取得勘探突破,原因可能是缺少油气成藏条件研究。从烃源岩、沉积相、储层、构造条件等多方面入手,探讨了该区龙王庙组的油气成藏条件, 结果表明：①该区寒武系发育筇竹寺组优质烃源岩,烃源条件较好;②该区龙王庙组储层主要储集空间为粒间溶孔、晶间溶孔,储层呈现低孔、低渗特征,大巴山前缘地区龙王庙组的储层主要发育在台缘带颗粒滩叠合岩溶发育区城口—奉节—兴山—利川一带;③该区寒武系油气成藏条件好,“筇竹寺组烃源岩+龙王庙组储层+高台组厚层膏盐岩盖层”这套优越生储盖组合为油气藏的形成奠定了基础。圈闭形成时间与油气运移匹配,有利于油气聚集。在成藏条件分析的基础上,认为城口—巫山地区为大巴山前缘地区龙王庙组的有利勘探区带。     

东海陆架盆地东南部白垩系油气成藏条件

目前东海陆架盆地的勘探形势良好,在新生界陆续发现多个油气田,但在盆地中生界尚未有大的勘探突破。为提高油气勘探效率,利用含油气系统的理论与方法对研究区白垩系油气成藏要素及成藏作用进行了分析,总结出了研究区油气成藏模式。结果表明：研究区白垩系烃源岩主要发育在基隆凹陷,岩性推测为海湾相暗色泥岩,有机质丰度高,类型好;储层主要为中―新生代砂岩,储集空间主要为原生孔隙和次生裂缝,白垩系砂岩整体为中孔中渗储层,新生界储集性能较好,并以始新统平湖组和渐新统花港组砂岩最为重要;中新生代盖层主要为泥岩,发育两套生储盖组合;受构造演化所控制,基隆凹陷可能经历了白垩纪晚期、古近纪、新近纪―至今3次生烃,其他地区只经历了后两次生烃;油气主要是通过优势输导砂体、不整合面、断裂和裂缝所组成的输导体系向周围圈闭运移;东海陆架东南部白垩系油气主要存在3种油气藏类型。本次研究结果可以为东海陆架盆地东南部白垩系的油气资源评估提供依据。     

下刚果盆地油气成藏条件及勘探潜力分析

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。     

马来盆地前I群油气成藏条件及富集规律

马来盆地前I群(即J、K、L、M群,渐新统—下中新统)具有良好的油气成藏条件:①发育多期有利于成藏的构造运动:前中新世伸展断裂阶段,湖相烃源岩大量发育;早、中中新世构造沉降阶段,并伴随盆地反转,形成前I群油气系统的储盖系统;②烃源岩优越:烃源岩为湖相富含藻类的页岩,成熟度较高,有机质含量较高;③储集层丰富:K群储集层为辫状河砂岩,J群储集层为河口湾河道砂岩和潮间砂岩;④盖层良好:主要盖层为盆地海侵期沉积的前J群三角洲—浅海相泥岩,次要盖层为K、L和M群内的湖泊相泥岩;⑤油气运移通道畅通:上倾侧向运移为主;⑥有利的生储盖组合:自生自储和下生上储的组合方式有利于油气藏的形成。前I群油气系统位于马来盆地的东南部,以生油为主。分析认为盆地的油气分布主要受烃源岩的分布、质量和成熟度以及构造圈闭形成的相对时间和油气运移方式的控制。     

南海北部珠江口盆地西区文昌B凹陷油气运聚成藏模式

以南海北部珠江口盆地西部文昌B凹陷构造沉积演化分析为基础,以不同构造带和含油气层系油气成藏特征为依据,将文昌B凹陷及周缘油气运聚成藏模式划分为南部陡坡带扇三角洲骨架砂岩近源垂向运移的古近系断层圈闭聚集成藏模式、南部陡坡带断裂+砂岩垂向运移的新近系背斜圈闭聚集成藏模式、北部缓坡带骨架砂岩近源侧向运移的古近系地层超覆圈闭聚集成藏模式及北部凸起区骨架砂岩+断裂长距离侧向运移的新近系背斜圈闭聚集成藏模式4种类型。在此基础上进一步分析了不同类型油气成藏模式的"源-汇-聚"等油气运聚成藏特征,指出了不同类型油气藏形成与分布的主控因素。同时,根据不同类型油气藏分布富集规律,对文昌B凹陷及周缘有利勘探目标进行了评价预测并经钻探获得了证实,取得了较好勘探成效。     

伊通盆地莫里青断陷地温地压系统与油气成藏关系

基于地温和地压实测数据及声波测井资料等,利用地温-地压系统的原理,对伊通盆地莫里青断陷的地温场、压力场及温压系统特征进行了剖析,并从油气生成、保存及分布角度探讨了温压系统与油气成藏的关系。研究表明,断陷内各区带地温梯度较高,有利于有机质的成熟与烃类生成;泥岩欠压实段主要出现在双阳组,强化了油气的封闭作用;斜坡带泥岩不发育异常压力,以毛细管压力封闭为主;莫里青断陷发育弱高压型复式温压系统,上下2套温压系统流体能量相差较小,油气垂向运聚活动很少,深部弱高压型温压系统内部最有利于油气富集成藏,双阳组含油气系统是最重要的勘探对象。     

东海西部台北坳陷中生界油气成藏模式研究

东海陆架盆地是在元古界、古生界复杂基底上发展形成的中—新生代叠合含油气盆地,蕴藏丰富的油气资源,对中国的能源战略意义重大,东海陆架盆地中生界将是未来中国东部油气勘探新区及重要领域。台北坳陷位于东海陆架盆地西部坳陷带南部,中生界陆相河湖沉积体系发育福州组泥岩、石门潭组泥岩两套主力烃源岩。根据台北坳陷烃源岩、储盖组合、输导体系等油气藏形成的静态要素为基础,结合油气来源和成藏期次分析,研究其成藏过程,明确了台北坳陷以福州组、石门潭组为主力烃源,福州组、石门潭组及始新世瓯江组砂体为主要储层,油气沿着凹陷边缘的砂体、活动的断层运移,砂体尖灭和断层封闭时期,油气早期成藏;始新世末－渐新世的全盆性挤压反转,油气重新调整聚集成藏。从而建立起台北坳陷中生界早期成藏,后期调整的成藏模式。     

歧口凹陷张东地区沙河街组油气成藏条件与主控因素研究

歧口凹陷张东地区油气勘探工作开展较晚,通过基础地质研究认为张东地区油气成藏条件优越。砂岩输导层、断层和不整合面三大输导体在研究区不同的构造位置相互交叉、叠置、连通构成了复杂多变的输导体系,进而控制了研究区油气聚集部位与油气藏的分布,而不同的沉积相带直接影响到储层物性的好坏,对油气富集高产具有决定作用。     

高邮凹陷南断阶许庄—竹墩地区断层发育演化和油气成藏

为了揭示高邮凹陷南断阶许庄—竹墩地区复杂断裂系统的成因、演化与油气成藏的关系,通过对不整合面地层剥蚀量计算、构造演化剖面分析等方法,系统地总结了许庄—竹墩地区断层的发育演化规律。吴堡运动和三垛运动时期是断裂活动最强烈的时期,许庄—竹墩地区的地层受到较强的剥蚀作用。本区主要断层的发育顺序依次为真①断层、纪③断层、真②’断层和真③断层,同一断层在不同的地质时期和平面上的不同位置,发育强度有明显的差异性。断层的活动一方面形成了一系列的断块圈闭,另一方面是油气垂向运移的主要通道,因此在本区形成了一系列的断块圈闭油藏。     

Mechanisms for permeability modification in the damage zone of a normal fault,northern Perth Basin,Western Australia

Faults and their associated damage zones in sedimentary basins can be sealing, impeding fluid flow and creating permeability barriers, or open, creating fluid pathways. This impacts the reservoir potential of rocks in fault damage zones. Stylolitization and fracturing severely impacted permeability through compartmentalization and cementation of Apium-1, an exploration hole drilled in the northern Perth Basin, Western Australia. Apium-1 is located 1 km into the hanging wall block damage zone of a major NNW-trending normal fault. The drill core consists of fine- to medium-grained quartz arenite overlain by a coarse-grained lag and capped by impermeable shale. It was quantitatively characterized by sedimentary and structural logging, and microstructural and porosity-permeability analysis. Fractures and stylolites in the damage zone of the major fault are shown to have been sealed. Extensional cracks have been sealed by quartz precipitation; shear fractures that locally preserve brecciation are always quartz and siderite cemented; stylolites are common and contain halos of quartz cementation. In each case, porosity was reduced to approximately 1%, with concomitant reduction of permeability to <<0.01 mD. These structures are observed to be interconnected in the core and are likely to form a larger-scale 3D network of steeply-dipping fractures and shallowly-dipping stylolites. The bulk permeability of the damage zone would reflect the permeability of the fractures and stylolites, compartmentalizing the Mesozoic rocks in the northern Perth Basin into elongate NW-SE trending blocks if the magnitude of stress does not exceed the cemented rock strength.     

渤海湾盆地南堡凹陷断裂控藏特征研究

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。     

北部湾盆地海中凹陷油气成藏条件分析

海中凹陷位于北部湾盆地西南部,其勘探程度低,对油气成藏条件欠缺系统的认识和深入的研究。以含油气系统理论为指导,在简要介绍地层与构造特征的基础上,重点论述了烃源岩、储集层、圈闭及输导介质等油气系统的基本要素,认为海中凹陷发育多套烃源岩、多套储集层、多种类型圈闭和复合的输导介质,具备油气系统形成的基本条件,具有较为广阔的油气勘探前景。     

通王断裂带沙河街组油气成藏主控因素研究

通王断裂带地区位于济阳坳陷东营凹陷南斜坡东部,沙河街组是本区的主要含油层系。通过烃源岩分析、储集层类型划分、孔隙流体动力场的描述、优质输导体系类型及断裂构造特征的研究,认为牛庄洼陷烃源岩主要为沙四上和沙三段深湖相一半深湖相暗色泥岩、油页岩,油气以生油洼陷为中心,呈环状或半环状分布;沙三段大型三角洲相储集砂体、沙四段中上部的滨浅湖近岸砂坝、远岸砂坝和席状砂岩储层是主要储集层类型;砂体一断层类输导体系是本区优质输导体系,牛庄洼陷北部发育的高压型复式温压系统,使油气顺着断层、砂体向南部通王断裂带常压常温和常压高温区运移。通王断裂带的油气藏主要是受断裂控制的构造油气藏,王家岗油田往西的中浅层是断层类油藏的有利地区,王家岗地区北部和陈官庄地区的西北部,是沙三段隐蔽油气藏以及断层-岩性复合型油气藏勘探的有利勘探地区。     

加里曼丹岛库泰盆地海相成藏组合特征及油气富集区分带性分析

通过系统收集和分析库泰盆地钻井岩屑样品及野外露头样品,首次对下中新统海相油气系统进行了评价。结果发现该区域以生物礁碳酸盐岩为标志层,发育多套海相沉积旋回,海相沉积油气系统具有自生自储自封堵特征:暗色海相泥岩为主力烃源岩,海相砂岩为有利储层,同时,海相泥岩作为有效盖层。下中新统海相烃源岩样品有机质类型为Ⅱ/Ⅲ型,以Ⅱ型为主,总有机碳质量分数(TOC)平均值1.92%,有机质处于低熟-成熟阶段,为有效烃源岩,烃源岩厚度较大,指示良好的生烃潜力;储层多期发育,具有低阻特征。自西向东,库泰盆地油气成藏系统时代变新、层系变浅:①盆地东部望加锡海峡深水-半深水区域以上中新统-上新统深水沉积成藏系统为主;②中部马哈坎三角洲-浅海区域以中中新统三角洲相成藏组合为主;③马哈坎褶皱带以下中新统海相成藏组合为主;④盆地西部以渐新统-始新统裂谷期成藏组合为主。新层段海相油气成藏系统的发现,揭示了库泰盆地有利成藏组合的分带规律,指明了库泰盆地中西部区域的未来油气勘探方向。     

Study on fault-controlled hydrocarbon migration and accumulation process and models in Zhu I Depression

Through the analysis of the faults and their internal structure in Zhu I Depression, it is found that the internal structure of the late fault is obviously segmented vertically. It develops unitary structure(simple fault plane) in shallow layers, binary structure(induced fracture zone in hanging wall and sliding fracture zone in footwall) in middle, layers and ternary structure(induced fracture zone in hanging wall and sliding fracture zone in middle,and induced fracture zone in footwall) in deep layers. Because the induced fracture zone is a high porosity and permeability zone, and the sliding fracture zone is a low porosity and ultra-low permeability zone, the late fault in middle layers has the character of "transporting while sealing". The late fault can transport hydrocarbon by its induced fracture zone in the side of the hanging wall and seal hydrocarbon by its sliding fracture zone in the side of the footwall. In deep layers, the late fault has the character of "dual-transportation", induced fracture zones in both sides of hanging wall and footwall can transport hydrocarbon. The early fault that only developed in the deep layers is presumed to be unitary structure, which plays a completely sealing role in the process of hydrocarbon migration and accumulation due to inactivity during the hydrocarbon filling period. Controlled by hydrocarbon source, early/late faults, sand bodies and traps, two reservoir-forming models of "inverted L" and "stereo-spiral"can be proposed in middle layers, while two reservoir-forming models of "cross fault" and "lateral fault sealing"are developed in the deep layers of Zhu I Depression.     

Hydrocarbon migration and accumulation of the Suqiao buried-hill zone in Wen'an Slope,Jizhong Subbasin,Bohai Bay Basin,China

The hydrocarbon migration and accumulation of the Suqiao deep buried-hill zone, in the Jizhong Subbasin, the Bohai Bay Basin, eastern China, was investigated from the perspective of paleo-fluid evidence by using fluid inclusions, quantitative fluorescence techniques (QGF), total scanning fluorescence method (TSF) and organic geochemical analysis. Results show that the current condensate oil-gas reservoirs in the study area once were paleo-oil reservoirs. In addition, the reservoirs have experienced at least two stages of hydrocarbon charge from different sources and/or maturities. During the deposition of the Oligocene Dongying Formation (Ed), the deep Ordovician reservoirs were first charged by mature oils sourced from the lacustrine shale source rocks in the fourth member of Shahejie and Kongdian Formations (Es₄+Ek), and then adjusted at the end of Ed period subsequently by virtue of the tectonic movement. Since the deposition of the Neogene Minghuazhen Formation (Nm), the reservoirs were mainly charged by the gas that consisted of moderate to high-maturity condensate and wet gas sourced from the Es₄+Ek lacustrine shale source rocks and mature coal-derived gas sourced from the Carboniferous-Permian (C-P) coal-bearing source rocks. Meanwhile, the early charged oil was subjected to gas flushing and deasphalting by the late intrusion of gas. The widely distributed hydrocarbon inclusions, the higher QGF Index, and FOI (the frequency of oil inclusions) values in both gas-oil and water zone, are indicative of early oil charge. In addition, combined with the homogenization temperatures of the fluid inclusions (<160 °C) and the existence of solid-bitumen bearing inclusions, significant loss of the n-alkanes with low carbon numbers, enrichments of heavier components in crude oils, and the precipitation of asphaltene in the residual pores suggest that gas flushing may have played an important role in the reservoir formation.     

Impacts of the tectonic stress field on natural gas migration and accumulation: A case study of the Kuqa Depression in the Tarim Basin,China

Stress, fluid and temperature are three of the major factors that impact natural gas migration and accumulation. In order to study the influences of tectonic stress field on natural gas migration and accumulation in low-permeability rocks, we take the Kuqa Depression as an example and analyze the evolution of the structure and tectonic stress field at first. Then we study the influences of tectonic stress field at different tectonic episodes on fractures and fluid potentials through the numerical simulation method on the section across the KL2 gas field. We summarize two aspects of the impact of the tectonic stress field on natural gas migration and accumulation. Firstly, under the effects of the tectonic stress field, the rock dilation increases with the added stress and strain, and when the shear stress of rock exceeds its shear strength, the shear fractures are well developed. On one hand, the faults which communicate with the hydrocarbon source rocks become the main pathways for natural gas migration. On the other hand, these positions where fractures are well developed near faults can become good reservoirs for natural gas accumulation. Secondly, because fluid potentials decrease in these places near the faults where fractures are well developed, natural gas can migrate rapidly along the faults and accumulates. The impact of tectonic stress fields on natural gas migration and accumulation allows for hydrocarbon migration and accumulation in the low-permeability rocks in an active tectonic compressive setting.