Hydrocarbon Reservoir Model of Glutenite in the Fourth Member of Shahejie Formation in Northern Dongying Depression

The glutenite in the fourth member of Shahejie Formation(Es^4) in northern Dongying depression straightforwardly penetrated into the muddy bathyal -abyss facies.The conditions of reservoir is very superior:(1) the high quality thick bedded oil source rock is developed very well in the Lijin sag and Minfeng sag of the study area,and it has the higher capability of generating hydrocarbon;(2) the

Effect of Shale Reservoir Characteristics on Shale Oil Movability in the Lower Third Member of the Shahejie Formation, Zhanhua Sag

To reveal the effect of shale reservoir characteristics on the movability of shale oil and its action mechanism in the lower third member of the Shahejie Formation(Es3l), samples with different features were selected and analyzed using N2 adsorption, high-pressure mercury injection capillary pressure(MICP), nuclear magnetic resonance(NMR), high-speed centrifugation, and displacement image techniques. The results show that shale pore structure characteristics control shale oil movability directly. Movable oil saturation has a positive relationship with pore volume for radius > 2 μm, as larger pores often have higher movable oil saturation, indicating that movable oil is present in relatively larger pores. The main reasons for this are as follows. The relatively smaller pores often have oil-wetting properties because of organic matter, which has an unfavorable effect on the flow of oil, while the relatively larger pores are often wetted by water, which is helpful to shale oil movability. The rich surface provided by the relatively smaller pores is beneficial to the adsorption of immovable oil. Meanwhile, the relatively larger pores create significant pore volume for movable oil. Moreover, the larger pores often have good pore connectivity. Pores and fractures are interconnected to form a complex fracture network, which provides a good permeability channel for shale oil flow. The smaller pores are mostly distributed separately;thus, they are not conducive to the flow of shale oil. The mineral composition and fabric macroscopically affect the movability of shale oil. Calcite plays an active role in shale oil movability by increasing the brittleness of shale and is more likely to form micro-cracks under the same stress background. Clay does not utilize shale oil flow because of its large specific surface area and its block effect. The bedding structure increases the large-scale storage space and improves the connectivity of pores at different scales, which is conducive to the movability of shale oil.

Characteristics and main controlling factors of reservoirs in the fourth member of Sinian Dengying Formation in Yuanba and its peripheral area, northeastern Sichuan Basin, SW China

Based on the abundant outcrops and 3 D seismic data in Yuanba and its surrounding areas in northeastern Sichuan Basin,the characteristics,main controlling factors and development regularities of reservoirs in the fourth member of Sinian Dengying Formation(shortened as Deng 4 Member)were analyzed comprehensively.The results show that the reservoirs were mainly developed in microbial dolomite associated with the microbial mound and dolarenite associated with grain beach,and had intergranular dissolution pores,inter-frame dissolution pores and karst caves as main storage space.The reservoirs were large in scale and strong in heterogeneity.The analysis of the reservoir genetic mechanisms shows that the reservoirs in the fourth member of Dengying Formation were the products of karstification on mound-beach facies deposited in the second episode of Tongwan movement.The karstification had the marks of eogenetic karstification such as granophyric karst system and half-dissociation zone.The reservoirs were controlled by the sedimentary facies belt,the mound beach facies was the decisive factor in reservoir development.Further analysis indicates that the Yuanba area had a geological background of well-developed platform margin mound beach facies,so mound beach bodies can be taken as a favorable exploration target.

Factors controlling the reservoir accumulation of Triassic Chang 6 Member in Jiyuan-Wuqi area,Ordos Basin,NW China

In the Triassic Yanchang Formation, Jiyuan-Wuqi area, Ordos Basin, the Chang 6 reservoir is contacted to the Chang 7 high-quality source rock, but the oil pools are unevenly distributed, and complex in oil and water distribution. Through cores observation and fracture statistics, combined with comprehensive analyses of physical property, mercury injection, logging and geochemical data, and comparisons of the sandbodies scales, reservoir physical properties, argillaceous laminae and fractures between source and reservoir in the eastern and western oil-bearing areas and in the central water producing area, it is found that the hydrocarbon accumulation patterns are different in the eastern, central and western areas, and the characteristics of hydrocarbon migration under the background of double-provenance were sorted out. The study results show that the crude oil in the eastern area has different Pr/Ph and sterane distribution from that in the western area. The oil and gas primarily migrated vertically. The high-quality source rocks and favorable source-reservoir-cap combinations lay the foundation for large-scale oil and gas accumulations. Vertically, the oil and gas enrichment is controlled by the scale of sandbody and the difference of physical properties, while on the plane, it is controlled by the connectivity of sandbodies, the argillaceous laminae between source rock and reservoir, the reservoir physical property and the fractures. The sandbodies of oil-rich zones in the eastern and western areas have large thickness, low shale content, good physical properties, weak heterogeneity, few argillaceous laminae and abundant fractures, all of which are favorable for the vertical migration and accumulation of oil and gas. In contrast, in the middle area with converging provenances, the reservoirs, composed of thin sandbodies, features rapid variation in lithology and physical properties, strong heterogeneity, poor continuity of sandbodies, abundant argillaceous laminae between source rock and reservoir, and few fractures, makes it difficult for the oil and gas to migrate vertically, and results in low oil enrichment degree ultimately. For the exploration of continental multiple-provenance tight reservoirs, not only the good-property source rocks and reservoirs, but more importantly the source-reservoir contact relationship and the effect of fractures on the hydrocarbon migration and accumulation should be considered.

Formation patterns of Chang 9 oil reservoir in Triassic Yanchang Formation, Ordos Basin, NW China

Based on analysis of main controlling factors of Chang 9, the source rock, driving force of migration, migration and accumulation modes, reservoir forming stages and model and enrichment law of Chang 9 reservoir were examined. The study showed that the oil of Chang 9 reservoir in the Jiyuan and Longdong(Eastern Gansu) areas came primarily from the source rock of Chang 7 Member, but the oil of Chang 9 reservoir in the Zhidan area came primarily from the source rock of Chang 9 Member. There developed lithologic-structural oil reservoirs in Gufengzhuang-Mahuangshan area in northwest Jiyuan, structural-lithologic oil reservoirs in east Jiyuan, and lithologic reservoirs in Huachi–Qingcheng area and Zhidan area. The overpressure of Chang 7 Member was the driving force of oil migration. The burial history showed that Chang 9 Member experienced two stages of reservoir forming, the reservoir formed in the Late Jurassic was smaller in charging scope and scale, and the Early Cretaceous was the period when the source rock generated oil and gas massively and the Chang 9 reservoir came into being. Along with the tectonic movements, Chang 7 bottom structure turned from high in the west and lower in the East in the sedimentary stage to high in the east and lower in the west in the hydrocarbon accumulation stage and at last to gentle western-leaning monoclinal structure at present. In Early Cretaceous, the Chang 7 bottom structure was the lowest in the west of Huanxian-Huachi-Wuqi-Dingbian areas, so the oil migrated laterally towards the higher positions around after entering the reservoir. In the main reservoir forming period, Chang 7 bottom had an ancient anticline in Mahuangshan-Hongjingzi area of west Jiyuan, controlling the oil reservoir distribution in west Jiyuan.

Analysis of lithofacies and evaluation of effective reservoirs of member 2 of Xujiahe Formation in the Xinchang area in Western Sichuan

In the Xinchang area in western Sichuan Basin,a total of 121.12 billion cubic meters of proved reserves of natural gas are discovered in Member 2 of Xujiahe Formation,but only 7.739 billion cubic meters of proved reserves of natural gas are produced.The main reason is that sandstones in Member 2 of Xujiahe Formation in the Xinchang area are generally tight,with strong heterogeneity,only intervals with relatively good physical properties have a certain production capacity;therefore,it is very necessary and important to evaluate effective reservoirs in Member 2 of Xujiahe Formation.Through analysis of cores,with consideration of color,sedimentary texture and grain size,lithofacies of Member 2 of Xujiahe Formation in the Xinchang area can be divided into 12 types.According to data of physical properties and thin section analysis,it can be concluded that the favorable lithofacies in the upper submember of Member 2 of Xujiahe Formation are the massive medium-coarse sandstone,the medium-coarse sandstone with cross bedding,and the medium-coarse sandstone with carbonaceous fragments.On the basis of electrical characteristics,well-logging interpretation standards for favorable lithofacies are established,in addition,favorable lithofacies and effective reservoir in the Xinchang area are determined,and distribution of favorable lithofacies(effective reservoir)is identified,which lay a solid foundation for next deployment of appraisal well and development of effective reserves.

东营凹陷八面河地区古近系沙四段湖相白云岩测井识别及应用

湖相白云岩储层岩石组分复杂、结构多样,利用测井资料对白云岩岩性进行识别具有重要意义。为了解决传统测井方法工作量大和识别精度低等问题,提出利用蛛网图-交会图-主成分分析法融合的方法,构建岩性敏感因子交会图,开展湖相白云岩岩性综合识别。研究结果表明:①东营凹陷八面河地区古近系沙四段主要由颗粒云岩、微晶云岩、泥晶云岩、砂岩和页岩等组成,其中,颗粒云岩、微晶云岩和页岩为主要岩石类型。②优选6类特征参数分析不同岩石类型蛛网图和交会图的差异,其中,GR和AC可有效区分颗粒云岩,SP对砂岩具有较好的识别效果,在蛛网图与交会图的识别成果基础上,应用主成分分析法对测井参数进行标准化处理,构建出累计方差贡献率为90.75%的主成分F1和F2,建立岩性判别模型,综合识别岩性。③通过产能与取心井验证,岩性识别准确度高达85.4%,明确研究区颗粒云岩在西部以SW—NE走向呈条带状分布,向南部和北部过渡为微晶云岩和泥晶云岩,东部则以不规则分布的砂岩为主。

苏北盆地低有机质断块型页岩油测井评价方法及应用

苏北盆地构造复杂、断层发育,阜宁组二段泥页岩的有机质丰度较低,总有机碳含量基本小于1.5%。该套泥页岩具有岩相类型多样、孔隙结构复杂、储层非均质性强、压力系数横向变化大等特点。以苏北盆地H区块阜宁组二段页岩油储层为例,基于岩石物理实验分析结果,对区域测井响应关系特征进行分析,将常规测井与特殊测井相结合,建立页岩油储层岩性、储集性、含油性、可动性、可压性评价的测井解释模型,模型计算结果与岩心分析结果吻合较好。在此基础上,优选敏感参数,建立了区块页岩油储层评价分类标准,对储层进行“甜点”综合评价。经多口井的勘探实践验证,该测井评价技术具有较好的地区适应性,有效划分页岩油储层类别,有利于页岩油储层“甜点”优选,为苏北盆地页岩油勘探开发提供可靠的技术支持。

松辽盆地南部姚家组下段层间氧化特征及其与铀成矿关系研究

基于松辽盆地南部历年砂岩型铀矿调查评价与勘查资料,文章研究总结了上白垩统姚家组下段层间氧化蚀变分带特征及其成因,深入分析了氧化带类型及其空间展布规律,进而研究了不同类型氧化带与铀矿化关系。研究表明,松辽盆地南部层间氧化作用存在强、弱之分,形成时间对应有早、晚之别,其氧化带空间产出复杂多样,总体形成了具有“上、下氧化,中间还原”的地球化学环境,一般靠近完全氧化带边界附近的还原性灰色砂体内形成板状铀矿体,铀矿化规模相对较大,分布范围广,找矿空间巨大。通过对比不同地区姚家组下段氧化带与铀矿化空间匹配关系,初步认为松辽盆地南部局部地区还存在传统意义上舌状层间氧化作用,形成了氧化带前锋线卷状铀矿体,其控制形成的铀矿化宽度虽相对较窄,但新成矿类型的补充将极大拓宽盆地找矿空间,对外围找矿再突破奠定了新的理论基础。

陆相淡水湖盆细粒沉积成因机制及页岩油储集特征——以鄂尔多斯盆地西南部三叠系延长组长7_3亚段为例

基于鄂尔多斯盆地西南部三叠系延长组长73亚段页岩油勘探实践进展,综合野外露头、钻井、测井、岩心、地球化学等资料,以及水槽实验模拟等技术手段,开展陆相湖盆细粒沉积古环境、岩相组合和分布、沉积成因及页岩油储集特征的系统研究。结果表明:①长73亚段沉积期研究区古环境整体表现为温暖湿润、梅雨事件频发、水体深度较大的淡水湖盆特征,古地貌呈现西南陡、东北缓的不对称型,可进一步细分为湖底深洼、古沟道、湖底古脊等微古地貌单元。②长73亚段发育一套极细砂岩、粉砂岩、泥页岩、凝灰岩等细粒沉积,垂向多呈薄互层—纹层组合分布,砂岩粒径大多小于62.5μm,单层厚度为0.05~0.64 m,含完整植物碎片,发育波状层理、逆粒序-正粒序组合、爬升沙纹层理等沉积构造,揭示异重流沉积成因。③环形水槽模拟实验再现了异重流搬运过程及沉积特征,主要表现为初期的密度流速差造成头部较厚且粒径较大,上部较薄且粒径偏小的特征;中期滑水作用促使流体头部抬升并向前快速搬运,由此产生的多个“新前端”促使粉砂岩、泥质粉砂岩等细粒砂岩向湖盆中部长距离搬运。④明确了盆地西南部细粒砂质岩以异重流成因为主,指出频繁发育的洪水事件、西南部陡坡地形是异重流发育的主控因素。⑤长73亚段砂岩、泥页岩发育微纳米孔喉系统,不同岩性均含油,但可动油含量差异大,砂岩中可动油含量最大。⑥明确了长73亚段多期异重流砂岩与泥页岩形成的细粒沉积复合体具有“整体含油、差异储集”特征,低TOC泥岩与粉砂岩组合为目前最有利的勘探目标。

Tight oil accumulation of the redeposited carbonates in the continental rift basin:A case study from Member 3 of Shahejie Formation in Shulu sag of Jizhong depression,North China

Tight oil in the redeposited carbonates was mainly distributed in the Lower Submember of Member 3 of Shahejie Formation in Shulu sag of Jizhong depression,North China.Through high-resolution 3D seismic data,well logging data and drilling data,the Lower Submember of Member 3 of Shahejie Formation was divided into 5 third-order sequences and 15 parasequence sets.The redeposited marl and rudstone were major reserving horizons of tight oil,and ten reserving space types were developed and could be classified into two main categories,i.e.,pores and fractures.Two types of tight oil reservoirs were established,i.e.,the marl hydrocarbon reservoir of the source-reservoir integration and the rudstone hydrocarbon reservoirs of the source-reservoir paragenesis.The assemblage relationship among the high-quality source rocks,system tracts with the source-reservoir configuration was the major control factor for tight oil accumulation in the redeposited carbonates.The lacustrine transgressive system tracts and highstand systems tracts in SQ1 to SQ5 were the favorable horizons for development of the marl hydrocarbon reservoir,the lowstand system tracts in SQ1 to SQ3 were the favorable horizons for development of the rudstone hydrocarbon reservoir.

基于INPEFA技术的高分辨率层序地层研究——以埕北油田东营组二段为例

运用高分辨层序地层学只能对埕北油田厚储层特定级别的基准面旋回进行识别,缺乏统一的标准,存在人为性和多解性等问题。为提高层序划分的准确性及精确度,通过辅助利用最大熵频谱分析技术,对测井曲线进行合成预测误差滤波分析(integrated prediction error filter analysis,INPEFA)处理得到频率趋势线,借助INPEFA曲线趋势拐点的识别以实现不同级次层序界面的划分。研究采用"熵谱-测井定界面、频谱属性分析划小层"的方法,通过基准面变化趋势还原、INPEFA曲线趋势拐点和井间旋回对比分析,在东营组二段上部识别出5个旋回界面、5个中期旋回和11个短期旋回。因此,基于INPEFA技术的高分辨率层序地层研究可以实现洪泛面、剥蚀面的识别以及判断沉积环境的变化,准确识别不同级次的层序界面和旋回叠置形式。

鄂尔多斯盆地延安地区三叠系长7页岩源储配置及油气富集规律

鄂尔多斯盆地三叠系长7段陆相页岩油气资源丰富,勘探开发潜力较大。通过岩心观察及测井、录井资料分析,综合地球化学数据、X射线衍射分析及现场解析气体数据等,对鄂尔多斯盆地延安地区三叠系长7段3个亚段页岩的源储特征进行了分析,并对不同源储组合特征及其与油气富集相关性进行了解剖。研究结果表明:①鄂尔多斯盆地延安地区三叠系延长组长7段有机质类型以Ⅱ1型和Ⅱ_(2)型为主,Ⅰ型次之,自上而下3个亚段的总有机碳(TOC)质量分数平均值分别为3.39%,4.35%,5.57%,镜质体反射率(Ro)分别为0.69%,0.97%,1.31%,分别处于低成熟、成熟、高成熟演化阶段,分别为差烃源岩、中等烃源岩、优质烃源岩。②研究区长7_(3)亚段泥页岩矿物组分具有富黏土矿物特征,长7_(2)亚段黏土矿物含量高于长7_(1)亚段,3个亚段的孔隙类型分别以溶蚀孔、粒间孔—溶孔、粒间孔为主,储层可划分为Ⅰ类(优)、Ⅱ类(中)和Ⅲ类(差)。③研究区主要发育优质烃源岩-差储层、中等烃源岩-优质储层、差烃源岩-中等储层、中等烃源岩-中等储层、优质烃源岩-中等储层、差烃源岩-优质储层6种源储配置特征,长7_(3)亚段油气富集程度最高,长7_(2)亚段次之,长7_(1)亚段不利于页岩油气的富集成藏。④高有机质丰度、高有机质成熟度的泥页岩具有较好的生烃潜力,高黏土矿物含量、较好的孔隙连通性有利于油气运移聚集成藏,源储配置特征控制着页岩油气的富集部位。

细粒沉积岩优质储集层发育主控因素分析:以渤海湾盆地沾化凹陷为例

为了深化对湖相细粒沉积岩储集层的认识,以渤海湾盆地济阳坳陷沾化凹陷渤南洼陷沙三下亚段(Es3L)为研究对象,利用岩心描述、薄片鉴定、扫描电镜观察、物性分析和测井曲线,揭示了储集层特征、分布规律及其主控因素。基于矿物组成、沉积构造和有机质含量,将渤南洼陷Es3L细粒沉积岩划分为6类岩相:富有机质纹层状灰质细粒混积岩(LF1)、富有机质纹层状长英质细粒碳酸盐岩(LF2)、富有机质层状灰质细粒混积岩(LF3)、富有机质层状/块状长英质细粒碳酸盐岩(LF4)、富有机质层状含长英细粒碳酸盐岩(LF5)、含有机质块状含长英细粒碳酸盐岩(LF6)。储集层的主要储集空间为粒间孔、晶间孔、溶蚀孔和层间微裂缝,储集层孔隙度主要介于0.67%~5.56%之间(平均值为4.93%),渗透率主要介于(0.02~4.87)×10^(-3)μm^(2)之间(平均值为0.59×10^(-3)μm^(2))。渤南洼陷Es3L细粒沉积岩储集层分布的主控因素包括岩相、沉积环境、成岩作用和有机质热演化。渤南洼陷Es3L的中下部的陆源输入水平低、水体盐度大、水体分层性强,主要发育岩相LF2和LF4,容易发育Ⅰ类和Ⅱ类优质储集层。渤南洼陷Es3L细粒沉积岩储集层处于中成岩A阶段,黏土矿物转化作用、溶蚀作用、重结晶和白云石化以及有机质热演化产生次生孔缝,改善了储集层物性。

鄂尔多斯盆地华池地区三叠系长7页岩油储层特征、形成环境及富集模式

通过对鄂尔多斯盆地华池地区三叠系长7段钻井岩心进行岩石学特征以及元素地球化学测试分析,采用V/(V+Ni),Ni/Co,U/Th,Sr/Cu,CaO/(MgO*Al_(2)O_(3)),Sr/Ba,Fe/Mn,Mn/Ti,Ba_(bio)值和P/Al值等多种判别标准,并结合总有机碳的含量,进行古环境分析,恢复了沉积期的古气候、古盐度和古氧化还原条件等。研究结果表明:①鄂尔多斯盆地华池地区三叠系长7段岩石主要为深灰色泥岩、深灰色灰质泥岩及含炭屑的粉砂质泥岩、富含有机质的粉砂质泥岩,黏土矿物晶间孔与粒间孔是主要的孔隙类型,可见少量溶蚀孔和微裂缝。②研究区延长组长7沉积时期,有机质生产力强,环境以淡水为主且处于贫氧到缺氧状态,其中长7_(2)—长7_(3)亚段沉积时期,部分水体较深的区域出现极强的还原条件,主要为温湿气候。整体上为深水环境,长7_(2)亚段沉积时位于深水区的边界地带,其水深明显较长71与长7_(3)亚段更深,P/Al值以及Ba_(bio)值总体上变化趋势一致,自下而上具有逐渐增大的趋势。③研究区延长组长7段古沉积环境具备适宜的温度和盐度条件,与深水和强还原性特征共同促进了有机质的广泛发育、富集和保存,源岩与储层之间通过裂缝连通,离源岩较近的储层,其捕获原油的数量和效率更高,这种源储配置为页岩油的大规模富集成藏奠定了坚实的基础。

川中地区三叠系须家河组二段致密气储层特征及主控因素

为了明确川中地区三叠系须家河组二段(须二段)致密气优质储层特征、成因及分布特征,综合利用铸体薄片、扫描电镜、核磁共振、高压压汞试验和CT测试等资料,明确了储层质量的主控因素,优选多种宏观和微观参数,通过Q型聚类对储层进行了定量划分,并对各类别储层的分布特征进行了分析。研究结果表明:①川中三叠系须二段为岩屑长石砂岩和长石岩屑砂岩,平均孔隙度和平均渗透率分别为6.58%和0.21 mD,为特低孔—低孔、低渗致密气储层;储集空间以残余粒间孔和粒内溶孔为主,其次为粒间溶孔和裂缝,孔隙和喉道半径分别为1.31~55.00μm和0.05~1.04μm,为微米孔隙和微米-亚微米喉道组合。②研究区沉积作用控制了岩石粒度和泥质含量,是决定初始孔隙度形成和后期演化的基础条件;强烈的机械压实和胶结作用分别破坏了14.6%~20.1%和9.8%~15.1%的原始孔隙,是造成储层致密化的主要原因;次生溶蚀、绿泥石包膜等建设性成岩作用形成了次生溶孔且对原生孔隙具有一定保护作用,挤压破裂形成的裂缝进一步扩大了次生溶蚀范围,是将致密砂岩改造成优质储层的关键。③研究区须二段储层可分为4类,不同类型储层的物性和微观结构差异较大,Ⅰ,Ⅱ类储层物性好、试气产能高,是主要的“甜点”储层和有利开发目标,主要分布于区域中部H1,H3井区和东部H125井区,纵向上集中在须二上亚段。

四川盆地东部地区二叠系茅口组孤立浅滩的发现及天然气勘探潜力

中二叠统茅口组长期以来一直是四川盆地天然气勘探的重点层系之一,茅口组天然气勘探开发先后以四川盆地南部地区岩溶缝洞型石灰岩储层和四川盆地中部地区滩相白云化储层为主要目的层系。为了寻找并落实茅口组下一个天然气勘探方向,在勘探程度相对较低的四川盆地东部(以下简称川东)地区开展了大量基础研究工作,在重新梳理地层格架的基础上,对茅口组沉积、储层及成藏条件进行了系统分析,指出了该区孤峰段硅质岩下茅二下亚段孤立浅滩的存在,最后明确了茅口组天然气的勘探潜力。研究结果表明:(1)川东地区在茅口组孤峰段事件性硅质岩沉积之前,宣汉—万州地区茅二下亚段发育碳酸盐岩孤立浅滩,面积可达6500 km^(2);(2)在宣汉—万州地区茅二下亚段发现了滩相基质孔储层,其中发育于茅二下亚段底部的孔隙型白云岩储层厚3~12 m,发育于茅二下亚段中上部的孔隙型石灰岩储层厚5~18 m;(3)川东地区茅口组滩相储层成藏条件优越,其中烃源岩主要为下伏上奥陶统五峰组—下志留统龙马溪组厚层页岩,且与烃源岩沟通的断裂发育,区域盖层主要为孤峰段硅质岩及吴家坪组海相泥岩、页岩,保存条件良好。结论认为,川东地区茅口组孤立浅滩的发现和良好的成藏组合条件,将进一步加快该区天然气勘探开发进程,茅口组大面积分布的高能浅滩有望成为下一个天然气勘探开发重要领域。

四川盆地元坝地区千佛崖组二段细粒沉积岩岩相特征及储集性分析

四川盆地侏罗系千佛崖组页岩油气勘探前景良好,但目前对其细粒沉积岩基本沉积特征及发育规律的认识还不足。为此,利用细粒沉积学原理,依据岩心和测井资料,通过岩心精细描述、薄片鉴定、X衍射全岩分析及扫描电子显微镜观察等技术手段,精细描述了元坝地区千佛崖组二段(简称千二段)细粒沉积岩储层的物质组成、沉积构造、储集空间类型等地质特征,划分了岩相类型,并对主要岩相储层的物性特征和储集空间类型进行分析与比较,明确了有利层段发育位置。研究结果显示:(1)千二段陆相细粒沉积岩可划分成“黏土岩”和“粉砂岩”2种岩石类型,15种岩相类型。其中,富有机质块状黏土岩、富有机质块状含粉砂黏土岩、富有机质纹层状含粉砂黏土岩、富有机质条带状含粉砂黏土岩、富有机质块状粉砂质黏土岩和富有机质纹层状粉砂质黏土岩为6种主要岩相类型。(2)储层储集空间类型多样,包括黏土矿物层间缝、层理缝、黏土矿物晶间孔、黄铁矿晶间孔、溶蚀孔及有机孔等,其中黏土矿物晶间孔分布最为广泛。(3)6种主要岩相的平均孔隙度和渗透率分别为2%和0.023×10^(-3)μm^(2),富有机质纹层状含粉砂黏土岩、富有机质纹层状粉砂质黏土岩和富有机质块状粉砂质黏土岩的储集空间类型丰富,分布广、数量多,孔隙度与渗透率均高于其他岩相且TOC值较高,是最有利的储集岩相类型。(4)千二段有利层段位于其(1)小层全段、(2)小层的底部和(3)小层的中下部。

川中—川西须家河组三段致密砂岩储集层分类及成因

四川盆地中部和西部(川中—川西)上三叠统须家河组岩石组分复杂、孔喉结构非均质强,含气和产能平面变化快,亟需明确储集层分类标准、发育机制及分布规律。以须家河组三段致密砂岩为对象,通过薄片、物性、压汞和核磁共振等实验,分析微观孔隙结构,建立储集层分类评价标准,揭示岩石组分、成岩作用对储集层类型的控制。研究表明,须三段发育微裂缝、原生粒间孔、残留粒间孔、溶蚀孔和晶间孔5类储集空间,粒间孔喉发育程度是决定储集层品质的关键;基于分形特征,将孔喉系统划分为5个区间,结合中大孔喉占比、主流喉道等参数,实现4类致密储集层的精细划分;I类储集层具有“弱压实强溶蚀”特征,高石英颗粒、低泥岩和碳酸盐岩岩屑、适量火山岩岩屑是形成的关键,Ⅱ类储集层具有“强压实强溶蚀”特征,较多杂基、低泥岩岩屑、高长石颗粒是形成的物质基础,Ⅲ类和Ⅳ类储集层均具有强胶结特征,其中Ⅲ类储集层中钙质岩屑含量高,方解石胶结发育,Ⅳ类储集层杂基减孔明显。研究成果可指导该区致密储集层形成机制研究,也为致密储集层分类和成因关联分析提供一定借鉴。

鄂尔多斯盆地三叠系延长组长7段页岩气储层特征及其勘探开发前景

鄂尔多斯盆地作为我国的第二大沉积盆地,油气勘探潜力巨大。盆地内三叠系延长组7段富有机质烃源岩发育广泛,分布范围达(4~5)×10^(4) km^(2)。该套烃源岩有机质丰度高,有机质类型为Ⅰ—Ⅱ_(1)型,R_(o)主要分布在0.9%~1.2%之间,处于热演化成熟阶段,滞留烃含量大,为大规模页岩油气藏的发育奠定了重要物质基础。长7_(3)亚段富有机质泥页岩层段虽具备良好的含气性,但却缺乏深入的含气特征系统分析。以盆地西缘南段地区为例,利用岩石地球化学、有机地球化学、同位素分析等多种分析手段,查明了该区三叠系延长组长7段烃源岩储层地质及地球化学特征,分析了长7段页岩含气性特征、页岩气赋存状态,初步计算了长7段页岩气资源量。研究区内三叠系延长组长7_(3)亚段黑色页岩含气性良好,其组成以页岩油溶解气为主,含少量干酪根黏土矿物吸附气及游离气,计算平均解吸气量为1.91 m^(3)/t。长7_(3)亚段赋存页岩油、气资源,二者资源量相当,在后期勘探开发研究中建议考虑油气并举的可能性。湖盆中部厚层长7段黑色页岩发育区含气量达2 m^(3)/t,储层刚性矿物及微孔裂隙发育,含气丰度高,资源量大,为页岩气有利勘探区域。初步计算长7页岩气总资源量约为4.25×10^(12) m^(3),具有良好的勘探前景,勘探有利地区为姬塬—固城—正宁一带。