Hydrocarbon accumulation characteristics in basement reservoirs and exploration targets of deep basement reservoirs in onshore China

Based on the global basement reservoir database and the dissection of basement reservoirs in China,the characteristics of hydrocarbon accumulation in basement reservoirs are analyzed,and the favorable conditions for hydrocarbon accumulation in deep basement reservoirs are investigated to highlight the exploration targets.The discovered basement reservoirs worldwide are mainly buried in the Archean and Precambrian granitic and metamorphic formations with depths less than 4500 m,and the relatively large reservoirs have been found in rift,back-arc and foreland basins in tectonic active zones of the Meso-Cenozoic plates.The hydrocarbon accumulation in basement reservoirs exhibits the characteristics in three aspects.First,the porous-fractured reservoirs with low porosity and ultra-low permeability are dominant,where extensive hydrocarbon accumulation occurred during the weathering denudation and later tectonic reworking of the basin basement.High resistance to compaction allows the physical properties of these highly heterogeneous reservoirs to be independent of the buried depth.Second,the hydrocarbons were sourced from the formations outside the basement.The source-reservoir assemblages are divided into contacted source rock-basement and separated source rock-basement patterns.Third,the abnormal high pressure in the source rock and the normal–low pressure in the basement reservoirs cause a large pressure difference between the source rock and the reservoirs,which is conducive to the pumping effect of hydrocarbons in the deep basement.The deep basement prospects are mainly evaluated by the factors such as tectonic activity of basement,source-reservoir combination,development of large deep faults(especially strike-slip faults),and regional seals.The Precambrian crystalline basements at the margin of the intracontinental rifts in cratonic basins,as well as the Paleozoic folded basements and the Meso-Cenozoic fault-block basements adjacent to the hydrocarbon generation depressions,have favorable conditions for hydrocarbon accumulation,and thus they are considered as the main targets for future exploration of deep basement reservoirs.

Geochronological Records of Oil-Gas Accumulations in the Permian Reservoirs of the Northeastern Ordos Basin

Geochronology of oil-gas accumulation （OGA） is a challenging subject of petroleum geology in multi-cycle superimposed basins.By K-Ar dating of authigenic illite （AI） and fluid inclusion （FI） analysis combined with apatite fission track （AFT） thermal modeling,a case study of constraining the OGA times of the Permian reservoirs in northeast Ordos basin （NOB） has been conducted in this paper.AI dating of the Permian oil-gas-bearing sandstone core-samples shows a wide time domain of 178-108 Ma.The distribution of the AI ages presents 2-stage primary OGA processes in the Permian reservoirs,which developed in the time domains of 175-155 Ma and 145-115 Ma with 2-peak ages of 165 Ma and 130 Ma,respectively.The FI temperature peaks of the samples and their projected ages on the AFT thermal path not only present two groups with a low and a high peak temperatures in ranges of 90-78℃ and 125-118℃,respectively corresponding to 2-stage primary OGA processes of 162-153 Ma and 140-128 Ma in the Permian reservoirs,but also appear a medium temperature group with the peak of 98℃ in agreement with a secondary OGA process of c.～30 Ma in the Upper Permian reservoirs.The integrated analysis of the AI and FI ages and the tectono-thermal evolution reveals that the Permian reservoirs in the NOB experienced at least 2-stage primary OGA processes of 165-153 Ma and 140-128 Ma in agreement with the subsidence thermal process of the Mid-Early Jurassic and the tectono-thermal event of the Early Cretaceous.Then,the Upper Permian reservoirs further experienced at least 1-stage secondary OGA process of c.～30 Ma in coincidence with a critical tectonic conversion between the slow and the rapid uplift processes from the Late Cretaceous to Neogene.

Origin, hydrocarbon accumulation and oil-gas enrichment of fault-karst carbonate reservoirs: A case study of Ordovician carbonate reservoirs in South Tahe area of Halahatang oilfield, Tarim Basin

Based on comprehensive analysis of tectonic and fault evolution, core, well logging, seismic, drilling, and production data, the reservoir space characteristic, distribution, origin of fault-karst carbonate reservoir in Yueman block of South Tahe area, Halahatang oilfield, Tarim Basin, were studied systematically. And the regular pattern of hydrocarbon accumulation and enrichment was analyzed systematically based on development practice of the reservoirs. The results show that fault-karst carbonate reservoirs are distributed in the form of "body by body" discontinuously, heterogeneously and irregularly, which are controlled by the development of faults. Three formation models of fault-karst carbonate reservoirs, namely, the models controlled by the main deep-large fault, the secondary fault and the secondary internal fault, are built. The hydrocarbon accumulation and enrichment of fault-karst carbonate reservoirs is controlled by the spatiotemporal matching relation between hydrocarbon generation period and fault activity, and the size and segmentation of fault. The study results can effectively guide the well deployment and help the efficient development of fault-karst carbonate reservoirs of South Tahe area, Halahatang oilfield.

Introduction of geomechanical restoration method and its implications for reservoir assessment of unconventional oil-gas resource in China

New technologies are in urgent need of unconventional hydrocarbon exploration and development in China.This paper provides a brief introduction and analysis of a new three-dimensional(3D)geomechanical restoration method developed in recent years.After an in-depth discussion on the technical principle and specific characteristics of the fields,we designed a feasible workflow for two oil-gas fields with great unconventional oil-gas resource potentials in China(Weiyuan and Jiulongshan oil-gas fields of Sichuan).After discussing the major challenges and limitations of the new technology,we also suggest its research efforts and future application prospect It is shown that the new technology will be an effective method to facilitate the exploration and development of unconventional oil and gas resources in China.

Ordovician Basement Hydrocarbon Reservoirs in the Tarim Basin, China

Ordovician marine carbonate basement traps are widely developed in the paleo-highs and paleo-slopes in the Tarim Basin. Reservoirs are mainly altered pore-cavity-fissure reservoirs. Oil sources are marine carbonate rocks of the Lower Paleozoic. Thus, the paleo-highs and paleo-slopes have good reservoiring conditions and they are the main areas to explore giant and large-scale oil reservoirs. The main factors for their reservoiring are: (1) Effective combination of fenestral pore-cavity-fracture reservoirs, resulting from multi-stage, multi-cyclic karstification (paleo-hypergene and deep buried) and fracturing, with effective overlying seals, especially mudstone and gypsum mudstone in the Carboniferous Bachu Formation, is essential to hydrocarbon reservoiring and high and stable production; (2) Long-term inherited large rises and multi-stage fracture systems confine the development range of karst reservoirs and control hydrocarbon migration, accumulation and reservoiring; (3) Long-term multi-source hydrocarbon supply, early reservoiring alteration and late charging adjustment are important reservoiring mechanisms and determine the resource structure and oil and gas properties. Favorable areas for exploration of Ordovician carbonate basement hydrocarbon reservoirs in the Tarim Basin are the Akekule rise, Katahe uplift, Hetianhe paleo-high and Yakela faulted rise.

Ultra-deep carbonate basement reservoirs formed by polyphase fracture-related karstification in the Offshore Bohai Bay Basin, China

The Palaeozoic carbonate basement of the Offshore Bohai Bay Basin (OBBB) presents considerable potential for hydrocarbon exploration. However, the multistage tectonism and complex superimposed palaeo-karstification in the area are unclear, which leads to a lack of understanding on the formation mechanism and distribution of the deep carbonate basement reservoirs. In this study, the occurrence of a fracture-vug network and its fillings in carbonate reservoirs were investigated based on borehole cores, thin sections, and image logs from the southwestern slope of the OBBB's Bozhong Sag. Then the diagenetic fluid properties of the carbonate matrix and fillings were analysed via the data of carbon, oxygen, and strontium isotopes, and major, rare elements from coring intervals. The results revealed that fracture-related karst reservoirs have lithologic selectivity inclined toward dolomite strata. The intersecting relationships, widths, and strikes of the fractures and the regional tectonic background indicate three structural fracture families: NW-, NNE-, and NNW- trending, related to the Indosinian, middle Yanshanian, and late Yanshanian orogeny, respectively. The Indosinian NW- and end-Mesozoic NNE-trending fractures produced by compressional tectonic stress mainly contributed to the formation of the basement reservoirs. The geochemistry of the calcite veins filling these fractures suggests two main types of diagenetic fluids. The fluid of autogenic recharge related to the earlier fills is karstification diffuse flow dominated by internal runoff from rainfall in the highland setting of the Indosinian thrusting orogenic belt. The other fluid of allogenic recharge related to the later fills is the main lateral freshwater flow dominated by external runoff from the catchment in the setting of the horst-lowland within the rifting basin, induced by the Yanshanian destruction of the North China Craton. Finally, the relationship between the three fracture families and two kinds of related fluids is revealed. This allows us to propose a model to understand the polyphase-superimposed fracture-related karst reservoir complexes within the deep carbonate basement of tilting fault blocks that neighbour the Bozhong hydrocarbon kitchen and predict the formation of potential plays with high accuracy.

Fluid interaction mechanism and diagenetic reformation of basement reservoirs in Beier Sag, Hailar Basin, China

Based on analysis of core observation, thin sections, cathodoluminescence, scanning electron microscope(SEM), etc., and geochemical testing of stable carbon and oxygen isotopes composition, element content, fluid inclusions, and formation water, the fluid interaction mechanism and diagenetic reformation of fracture-pore basement reservoirs of epimetamorphic pyroclastic rock in the Beier Sag, Hailar Basin were studied. The results show that:(1) Two suites of reservoirs were developed in the basement, the weathering section and interior section, the interior section has a good reservoir zone reaching the standard of type I reservoir.(2) The secondary pores are formed by dissolution of carbonate minerals, feldspar, and tuff etc.(3) The diagenetic fluids include atmospheric freshwater, deep magmatic hydrothermal fluid, organic acids and hydrocarbon-bearing fluids.(4) The reservoir diagenetic reformation can be divided into four stages: initial consolidation, early supergene weathering-leaching, middle structural fracture-cementation-dissolution, and late organic acid-magmatic hydrothermal superimposed dissolution. Among them, the second and fourth stages are the stages for the formation of weathering crust and interior dissolution pore-cave reservoirs, respectively.

A review and research on comprehensive characterization of microscopic shale gas reservoir space

In this paper,substantial domestic and foreign research results of microscopic shale reservoir space were systemically reviewed,the research history consisting of simple observation and qualitative classification,quantitative research,the combination of qualitative and quantitative research successively as well as the characteristics of each research stage were summarized.In addition,the current problems existing in the characterization methods of shale reservoir space were also analyzed.Furthermore,based on massive actual detection of typical core samples obtained from more than 50 global shale gas wells and relevant practical experience,a comprehensive characterization method of combining qualitative with the semiquantitative characterization was put forward.In detail,the indicators of the qualitative characterization include pore combination type and organic-matter microscopic morphology type,while the core elements of the semi-quantitative characterization include the percentage of the organic-matter area and the plane porosity of the pores of different types.Based on the reference of the naming and classification of rocks,the three-end-member diagram method was used to characterize microscopic shale reservoir space.This is achieved by plotting the three end-member diagram of 3 kinds of first-order critical reservoir spaces,i.e.,organic-matter pores,matrix pores,and micro-fractures,in order to intuitively present the features of the microscopic pore combination.Meanwhile,statistic histograms of organic-matter microscopic morphology type and the plane porosity of different types of pores were adopted to characterize the development degree of second-order pores quantitatively.By this comprehensive characterization method,the importance of both pore combination and the microscopic morphology of organic matter were emphasized,revealing the control of organic-matter microscopic morphology over the organic-matter pores.What is more,high-resolution FE-SEM was adopted to obtain semi-quantitative statistics results.In this way,the features of pore development and pore combination were quantified,not only reflecting the types and storage capacity of the microscopic shale reservoir space,but also presenting the hydrocarbongenerating potential of organic matter in shale.Therefore,the results of this research are capable of providing in-depth microscopic information for the assessment and exploration and development of shale gas resources.

Coupling relationship between reservoir diagenesis and hydrocarbon accumulation in Lower Cretaceous Yingcheng Formation of Dongling,Changling fault depression,Songliao Basin,Northeast China

The Lower Cretaceous Yingcheng Formation in the southern Songliao Basin is the typical tight oil sandstone in China.In order to better predict the petrophysical properties of the tight sandstone reservoirs in the Lower Cretaceous Yingcheng Formation,Songliao Basin,Northeast China,the diagenesis and porosity evolution was investigated using a suite of petrographic and geochemical techniques including thin section analysis,scanning electron microscopy,mercury intrusion and fluid inclusion analysis,on a set of selected tight sandstone samples.Combined with the histories of burial evolution,organic matter thermal evolution and hydrocarbon charge,the matching relationship between reservoir porosity evolution and hydrocarbon accumulation history is analyzed.The result showed that the tight sandstone reservoirs characterized of being controlled by deposition,predominated by compaction,improved by dissolution and enhanced by cementation.The hydrocarbon accumulation period was investigated using a suite of hydrocarbon generation and expulsion history,microfluorescence determination and temperature measurement technology.According to the homogenization temperature of the inclusions and the history of burial evolution,Yingcheng Formation has mainly two phases hydrocarbon accumulation.The first phase of oil and gas is charged before the reservoir is tightened,the oil and gas generated by Shahezi source rocks enter the sand body of Yingcheng Formation,influenced by the carrying capability of sand conducting layer,oil and gas is mainly conducted by the better properties and higher connectivity sand body and enriched in the east,which belongs to the type of densification after hydrocarbon accumulation.The second phase of oil and gas charge after densification,which belongs to the type of densification before the hydrocarbon accumulation.

基岩油气成藏特征与中国陆上深层基岩油气勘探方向

基于全球基岩油气藏数据库和中国基岩油气藏解剖,深入分析基岩油气成藏特征,探讨深层基岩油气成藏的有利条件和勘探方向。研究表明:全球已发现的基岩油气田主要分布在埋深小于4500 m的中浅层,层位以太古宇和前寒武系为主,储集层岩性以花岗岩和变质岩为主;规模较大的基岩油气田主要分布在中新生代构造运动活跃的裂谷盆地、弧后盆地和前陆盆地。基岩油气成藏特征主要表现为:(1)以孔隙-裂缝型低孔特低渗储集层为主,非均质性强,强抗压实作用导致储集层物性不受埋深控制,规模成储期为盆地基底风化剥蚀期及后期构造改造期;(2)他源供烃,成藏组合可划分为烃源岩-基岩接触型和烃源岩-基岩分离型两大类;(3)烃源岩异常高压和基岩储集层常压-低压,导致烃源岩与储集层之间存在较大的压力差,有利于深层基岩抽吸成藏。基底构造活动性、成藏组合关系、深大断裂(尤其走滑断裂)发育程度及区域性盖层等是深层基岩选区评价的主要参数;古老克拉通盆地陆内裂谷边缘的前寒武系结晶基底、紧邻生烃凹陷的古生代褶皱基底和中新生代块断基底,均具有较好的成藏条件,是未来深层基岩油气勘探的主要方向。

Evaluation of reservoir environment by chemical properties of reservoir water‒A case study of Chang 6 reservoir in Ansai oilfield,Ordos Basin,China

The Ordos Basin is the largest continental multi-energy mineral basin in China,which is rich in coal,oil and gas,and uranium resources.The exploitation of mineral resources is closely related to reservoir water.The chemical properties of reservoir water are very important for reservoir evaluation and are significant indicators of the sealing of reservoir oil and gas resources.Therefore,the caprock of the Chang 6 reservoir in the Yanchang Formation was evaluated.The authors tested and analyzed the chemical characteristics of water samples selected from 30 wells in the Chang 6 reservoir of Ansai Oilfield in the Ordos Basin.The results show that the Chang 6 reservoir water in Ansai Oilfield is dominated by calcium-chloride water type with a sodium chloride coefficient of generally less than 0.5.The chloride magnesium coefficients are between 33.7 and 925.5,most of which are greater than 200.The desulfurization coefficients range from 0.21 to 13.4,with an average of 2.227.The carbonate balance coefficients are mainly concentrated below 0.01,with an average of 0.008.The calcium and magnesium coefficients are between 0.08 and 0.003,with an average of 0.01.Combined with the characteristics of the four-corner layout of the reservoir water,the above results show that the graphics are basically consistent.The study indicates that the Chang 6 reservoir in Ansai Oilfield in the Ordos Basin is a favorable block for oil and gas storage with good sealing properties,great preservation conditions of oil and gas,and high pore connectivity.

中国中西部含油气盆地超深层油气成藏条件与勘探潜力分析

随着油气工业发展,向深层超深层领域进军已成为常规油气勘探开发的主要趋势。通过对中国中西部含油气盆地超深层油气勘探与研究进展的深入分析,明确深层超深层油气成藏的有利条件,指出中西部叠合盆地的海相碳酸盐岩、碎屑岩、基岩及火山岩3大领域是未来超深层油气勘探重点领域,超深层元古界是值得勘探重视的潜在领域,并指出超深层油气地质理论与关键技术的攻关方向。研究表明:(1)克拉通盆地海相碳酸盐岩发育以多套海相烃源岩、白云岩和断控型缝洞体等规模储集层、3类有利成藏组合,是寻找碳酸盐岩大油气田的重点领域;(2)前陆盆地下组合发育以煤系为主的湖相优质烃源岩、(扇)三角洲砂体为主的规模储集层、大型构造圈闭,是寻找碎屑岩大油气田的重点领域;(3)以花岗岩和变质岩为主的基岩储集层不受埋深限制,源岩-基岩接触型成藏组合最有利,紧邻生烃凹陷及大型走滑断裂带的基岩潜山是深层-超深层基岩油气藏勘探的重点领域;(4)中新元古界受超大陆裂解及全球冰期影响,发育受陆内裂陷控制的优质烃源岩,资源潜力较大,未来勘探地位值得重视。

乍得基岩注气井膨胀管悬挂二次完井技术

乍得油田潜山基岩油藏面临油井低压低产的问题,需要开展注气补充地层能量以提高油井产量,但裸眼开发井转投注气井后,出现上部层系出砂填埋储层的问题。为此,下入膨胀管悬挂器结合裸眼封隔器等组成的下部完井管柱,在乍得BX20井进行二次完井技术先导试验。现场试验结果表明:设计的二次完井管柱一次入井到位,整个作业周期为10 d,较传统二次完井平均施工作业周期减少7 d,节省修井作业费用超20万美元;该井完井后能够有效地封固和保护套管免受注气高压的破坏,有效解决裸眼注气井井筒完整性问题,试注气压力达到20 MPa,注气量达到2000 m^(3)/h。该完井工艺的成功实施解决了乍得油田注气井完井问题,对同类油田的开发具有先导示范作用。

琼东南盆地基底花岗岩风化—构造联合控储机制

含油气盆地的潜山基岩油气藏是一个特殊的勘探领域。近年来,在南海琼东南盆地的中生界花岗岩潜山中获得多个油气勘探发现,昭示着该领域良好的勘探前景。盆地中部的松南潜山群资料最为丰富,多口探井钻遇基底花岗岩储层。裂缝作用作为致密结晶基岩成储的先决改造条件,在基岩潜山储层研究中至关重要,但是对该区域花岗岩潜山的裂缝发育特征以及构造应力缺乏研究,严重制约了基岩潜山油气藏的勘探进展。基于松南低凸起5口钻井的岩心和壁心观察、显微薄片鉴定、测井和地震资料解释,揭示了松南低凸起潜山的多期裂缝的切割关系、开度、形态和走向等发育特征,并探讨了形成两组构造缝的构造应力。研究结果表明,构造缝和沿裂缝的溶蚀孔洞是基岩花岗岩的主要储集空间;构造缝分为北东向和北西向两组,印支期古特提斯洋关闭形成的北东向挤压是北西向断裂以及北东向构造缝的构造动力,燕山期来自东南侧的西太平洋俯冲相关的构造挤压则促成了北东向断裂以及北西向构造缝的发育;花岗岩中高密度裂缝的发育为暴露期大气水下渗溶蚀提供了网状通道,并形成了由砂砾岩带、风化裂缝带、内幕裂缝带组成的风化壳储层三层结构;新生代早期裂谷盆地形成过程中的伸展拆离背景对先存网状裂缝体系具有活化作用,是裂缝松弛开启从而提高储集空间的重要因素。

基底变质岩深部潜山储层构造裂缝发育特征及主控因素——以渤海湾盆地渤中B区块为例

构造裂缝是改善基底变质岩潜山储层物性、提高油气产能的关键因素,但对于基底变质岩潜山储层构造裂缝的发育特征及主控因素的多尺度综合研究较少。以渤海湾盆地渤中B区块为例,综合利用薄片、岩心和成像测井资料,系统总结了基底变质岩潜山储层构造裂缝的特征,明确了主控因素,揭示了构造裂缝有效性影响因素和发育模式。研究区构造裂缝主要发育剪性裂缝,张性缝次之,斜交缝和直立缝较发育;裂缝整体充填程度高,主要充填物为泥质,其次为碳酸盐类;识别出近EW向、NE—SW向、NW—SE向和NNW—SSE向四组构造裂缝,其中近EW向裂缝较为发育,说明印支早期的强挤压作用环境是裂缝大规模发育的关键时期。研究区构造裂缝主要受岩石力学性质、构造作用、风化作用、储层物性和岩性控制。构造裂缝有效性主要受控于最大水平主应力方向与构造裂缝走向的夹角、构造运动、裂缝充填以及溶蚀作用等因素。纵向上基底变质岩深部潜山的构造裂缝随着深度增加所受风化作用减弱,在内幕带中沿断层局部发育溶蚀孔隙;不同岩石力学性质的岩石发育裂缝程度不同,脆性指数较大的岩石裂缝发育程度较高。横向上背斜核部的构造裂缝线密度大于翼部,当储层孔隙度和渗透率处于合适范围时有利于构造裂缝发育。

乍得Bongor盆地基岩潜山储层特征与影响因素研究

基岩潜山油气藏是油气勘探的重要领域。本文以覆盖Bongor盆地主要潜山构造带的高精度三维地震资料,近百口基岩钻井的岩心资料和系统解释成果为基础,对基岩储层的特征、展布规律及影响因素进行精细研究。通过开展岩心观察和镜下分析,明确了Bongor盆地基岩以花岗岩、正长岩和二长岩等岩浆岩和混合花岗岩、片麻岩等变质岩为主,基岩储集空间以破碎的粒间孔、构造裂缝和溶蚀孔洞为主。主要潜山带上的基岩钻井揭示潜山储层纵向上具有分带性,位于潜山顶部的风化壳和破碎带储集条件好,向下进入潜山内部储集条件逐步变差,平面上基岩储层分布广泛,但非均质性强,不同构造部位储层厚度和品质差异较大。通过对潜山构造带的构造恢复和地震、测井、岩心综合研究,明确Bongor盆地潜山储层主要受古构造位置、基岩岩性与矿物成分及构造活动的影响。位于构造高部位的潜山较低部位潜山基岩储层更为发育。长英质矿物较铁镁质矿物脆性强,应力作用下容易产生裂缝,沿着裂缝发生溶蚀而形成孔洞,富长英质矿物层段比铁镁质矿物层段储层品质更好。受构造活动的影响,主要断裂带附近构造裂缝发育,现今最大主应力方向与主要裂缝方向接近,有利于裂缝的张开与保存。基岩储层特征与影响因素的研究为潜山目标评价和钻前储层预测提供了可能。

论基岩油气藏的勘探前景

为了满足经济增长的需要,实现油气勘探新的突破,文章讨论了地幔柱与油气成矿作用关系,发现全球(如墨西哥湾、古巴、委内瑞拉、利比亚、西伯利亚和中国渤海湾、四川盆地、塔里木盆地)大量喷溢的玄武岩与油气关系密切;分析了越南大陆架白虎油田(储集于花岗岩及风化壳)、中国松辽盆地徐家围子兴城气田(储集于火山岩)的无机成因情况;同时对中国基岩油气藏的勘探靶区作了简要讨论,认为花岗岩及其风化壳类型的基岩油气藏将是未来勘探的重点,并讨论了基岩油气藏勘探的技术难点及解决方案;文章最后认为油气无机成因创新模式的提出将引发油气勘探的重大突破。

准噶尔盆地五彩湾凹陷基底火山岩储集性能及影响因素

含油气火山岩储层的研究为石油勘探开拓了更广阔的前景 .利用岩心、薄片及成像测井 (FMI)等手段对准噶尔盆地五彩湾凹陷基底火山岩储层的岩性特征、岩相分布、岩石物性 (包括孔隙度和渗透率 )进行了研究 .该区含油气的火山岩主要为中石炭世巴山组 (C2 b) ,包括熔岩 (安山岩和玄武岩 )和火山碎屑岩 .熔岩的平均孔隙度和渗透率分别为 7.4 2 %和0 .82× 1 0 -3 μm2 ;火山角砾岩类的平均孔隙度和渗透率分别为 9.84 %和 0 .33× 1 0 -3 μm2 .这些火山岩储集空间类型以次生孔、缝为主 .与盆地内基底火山岩储集性能最好的腹部石西油田相比 ,东部五彩湾凹陷的储集性能略差 .火山喷发时的环境、火山岩的岩性岩相。

基底断裂在四川盆地须家河组天然气成藏中的作用

由于储集层致密、普遍低渗,以及构造平缓、断层和裂缝不发育等因素,四川盆地须家河组呈现大面积含气、储量丰度低、产量低、以岩性气藏为主的特征,寻找勘探"甜点"是须家河组天然气勘探的关键。四川盆地基底非均质性导致北东向和北西向两组基底断裂在中、新生代活动,控制了二级构造带的展布,而且其后期"隐性"活动在须家河组砂体中还产生了微裂隙和小断层,为天然气运移提供了通道,并改善了储集层的物性条件,对致密岩性大面积含气背景下局部富集带的形成起到了重要作用。同时,基底断裂发育区出现的异常高地温,加速了有机质的生烃演化,因此基底断裂发育带是天然气成藏最有利的地区,是今后四川盆地天然气勘探的主攻方向。

国外基岩裂缝油藏实例分析与勘探前景

国外相继发现基岩潜山类油藏,展示了油气勘探一个新领域.裂缝型储层是La Concepcion油田基岩裂缝油藏形成、高产的关键.基底油藏主要分布于基底构造高部,基岩潜山两侧,深入基底的断层是沟通上覆油源岩与基岩储层的主要运移途径.上亿年的沉积间断和风化剥蚀导致区域不整合面下发育较厚风化剥蚀带.以越南Cuu Long盆地潜山油藏为例,由于受断层及不整合面控制,在基岩潜山各部位发育多种形式基岩潜山油气藏类型.