Predicting the present-day in situ stress distribution within the Yanchang Formation Chang 7 shale oil reservoir of Ordos Basin, central China

The Yanchang Formation Chang 7 oil-bearing layer of the Ordos Basin is important in China for producing shale oil.The present-day in situ stress state is of practical implications for the exploration and development of shale oil;however,few studies are focused on stress distributions within the Chang 7 reservoir.In this study,the present-day in situ stress distribution within the Chang 7 reservoir was predicted using the combined spring model based on well logs and measured stress data.The results indicate that stress magnitudes increase with burial depth within the Chang 7 reservoir.Overall,the horizontal maximum principal stress(SHmax),horizontal minimum principal stress(Shmin) and vertical stress(Sv) follow the relationship of Sv≥SHmax>Shmin,indicating a dominant normal faulting stress regime within the Chang 7 reservoir of Ordos Basin.Laterally,high stress values are mainly distributed in the northwestern parts of the studied region,while low stress values are found in the southeastern parts.Factors influencing stress distributions are also analyzed.Stress magnitudes within the Chang 7 reservoir show a positive linear relationship with burial depth.A larger value of Young's modulus results in higher stress magnitudes,and the differential horizontal stress becomes higher when the rock Young's modulus grows larger.

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.

Distribution of shallow water delta sand bodies and the genesis of thick layer sand bodies of the Triassic Yanchang Formation, Longdong Area, Ordos Basin

Based on the cores from 47 wells and logging data of 130 wells,the main types of sand bodies in the shallow water delta of the Chang 8_(2) sub-member in the Triassic Yanchang Formation,Longdong Area,Ordos Basin were comprehensively analyzed,the distribution characteristics of sand bodies more than 20 m thick were identified,and the genetic types of the thick sand bodies were sorted out.In this region,thick-bed sand bodies can be divided into two types according to the shape and position:type 1 is the sand body in wide strip and is distributed between the average high water mark and the average low water mark;type 2 is distributed on both sides of the average low water mark and is in irregular lump shape.Based on the principle of the volume distribution of sediments and the change rule of accommodation space,the genetic models of two types of thick-bed sand bodies in the Chang 8_(2) sub-member are superimposed distributary channel sand bodies in high accommodation space and superimposed composite sand bodies in low accommodation space.

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.

延长油区富昌开发单元长2非均质性研究

以延长油区富昌开发单元长2储层为研究对象,依据岩心和测井资料从宏观和微观角度分别对长2储层非均质性进行了分析。研究结果表明:研究区长2段储层的渗透率在纵向剖面上以正韵律型为主、夹层类型以泥质夹层为主,层内非均质性整体较弱;三个小层分层系数都较低,隔层发育一般,具有中等层间非均质性;储层砂体及物性的平面展布特征受沉积相的影响而呈条带状分布,表现出较强平面非均质性;同时,孔喉类型多而且分选系数大,整体上微观非均质性较强。

黑家堡地区长4+5_(2)致密砂岩孔隙结构特征及影响因素分析

针对鄂尔多斯盆地黑家堡地区长4+5_(2)致密储层孔隙结构复杂及影响因素不明的问题,利用测井、常规物性、扫描电镜、铸体薄片及高压压汞测试等方法,得到长4+5_(2)发育的四类孔隙结构,其中Ⅰ类和Ⅱ类为勘探目标首选,并将成果应用于长4+5油藏。实践结果表明,研究区长4+5_(2)储层平均孔隙度为10.43%,平均渗透率为0.79×10^(-3)μm ^(2),属于典型的致密砂岩储层,残余粒间孔为主要的储集空间类型;孔喉尺度主要以纳米级为主,其次为微米级,平均孔喉半径分布在0.02~10.00μm;Ⅰ类和Ⅱ类孔隙结构发育的水下分流河道和河口坝微相孔隙结构最优,为勘探和开发的重点目标。根据储层孔隙结构评价结果,在研究区划分出三类勘探区带,作为勘探开发的优选区。细粒砂岩沉积为长4+5_(2)不同孔隙结构系统的形成提供了基础,强压实作用使得孔隙结构更加复杂化,研究成果为研究区下一步勘探及开发提供借鉴。

鄂尔多斯盆地富县地区三叠系延长组长7页岩油特征及其主控因素

鄂尔多斯盆地富县地区三叠系延长组长7页岩段具有埋深浅、油质轻、油井产能变化大、资源潜力大的特点,明确油藏的富集主控因素是进行高效勘探的关键。根据富县地区长7页岩段铸体薄片、物性、扫描电镜等测试分析结果,结合岩心、测井、地震等资料,对该区长7段地层特征进行了研究,并对其主控因素展开讨论。研究区长7段广泛发育灰色—深灰色—灰黑色烃源岩,其岩性为泥岩和泥页岩,有机质类型主要为Ⅰ—Ⅱ_(2)型,源岩的镜质体反射率(R_(o))值为0.81%~1.1%,生烃能力强。砂岩储层以细粒长石砂岩为主,孔隙类型以粒内孔、残余粒间孔、溶蚀孔隙和原生粒间孔为主;储层致密,孔隙度主要分布在2.0%~16.0%之间,渗透率主要分布在(0.01~1.20)×10^(-3)μm^(2)之间。砂岩夹层的物性以及距离断裂的远近影响储层的含油性:储层粒度越粗、物性越好,含油气性也越好。储层物性受控于两方面因素:一是沉积微相,水下分流河道微相物性最好,河口坝微相次之;二是成岩作用,早成岩期绿泥石强胶结及方解石弱胶结有助于物性甜点的形成。断层的发育和断层性质对富县地区长7页岩油的富集至关重要。统计发现,当断层断距超过10 m且井筒距断裂在1 km以内时,难以获得工业油流;当断距小于7 m且井筒距离大断裂超过1 km以上时,容易获得工业油流。

鄂尔多斯盆地合水地区三叠系长7段夹层型页岩油储层特征及主控因素

运用铸体薄片、扫描电镜、黏土矿物X射线衍射、电子探针、阴极发光、高压压汞、物性测试等资料,对鄂尔多斯盆地西南部合水地区三叠系延长组长7段夹层型页岩油储层特征及储层致密化主控因素进行了研究,建立了储层定量评价标准,并预测出有利储层分布。研究结果表明:(1)鄂尔多斯盆地合水地区三叠系长7段夹层型页岩油储层主要为岩屑长石砂岩与长石岩屑砂岩,成分成熟度低、填隙物含量高、孔喉结构复杂,具有高孔低渗特征。(2)胶结作用是研究区长7段夹层型页岩油储层致密化的主控因素,储层平均视胶结率为86.3%,达到强胶结程度,以自生黏土矿物中的伊利石胶结为主;压实作用对储层致密化起次要作用,储层平均视压实率为46.0%,为中等压实程度;溶蚀作用降低了储层的致密化程度,但储层渗流能力较低,酸性流体难以大规模溶蚀,平均视溶蚀率仅为13.8%,为弱溶蚀程度。(3)受中等压实—弱溶蚀—强胶结成岩作用的影响,储层非均质性较强,成岩系数差异较大。Ⅰ类储层成岩系数大于2.4,Ⅱ1类储层成岩系数为1.8~2.4,Ⅱ2类储层成岩系数为1.2~<1.8,Ⅲ类储层成岩系数小于1.2,Ⅰ类与Ⅱ1类储层为有利储层。区域上中部混源区有利储层发育规模最大,是勘探的主要目标区。

鄂尔多斯盆地东南部长7段页岩油气富集主控因素

为明确鄂尔多斯盆地东南部长7段页岩油气富集主控因素,综合钻井、测井、岩心分析化验等资料,对研究区长7段页岩油气富集程度及其机理进行研究。页岩解析气量与烃源岩总有机碳含量呈正比,有机质含量控制页岩油气的总含量,有机质发育大量孔隙,页岩油气以吸附态和游离态赋存于有机孔隙中。储集层孔隙结构和孔隙度影响页岩油气的含量及赋存状态,吸附油气主要赋存于微孔中,游离油气主要赋存于中孔和大孔中,但中孔中游离气含量高于大孔,而孔隙度越大,页岩中油气绝对含量越高。砂岩夹层和富有机质页岩的配置关系控制着页岩油气的富集部位,根据粉砂岩、细砂岩与页岩的关系,延长组长7段页岩油气可划分为近源和源内2类,源内又可分为砂岩与页岩互层型、页岩夹砂岩型和页岩型;下伏于富有机质页岩中的砂体和透镜状砂体油气含量最高,其次是上覆于富有机质页岩的砂体和呈舌状或指状与富有机质页岩接触的砂体。

成岩作用对河流—三角洲相砂岩储层物性演化的影响——以延长油区上三叠统延长组长2砂岩为例

延长油区上三叠统长 2地层河流相—三角洲相砂岩储层的物性明显受埋藏—成岩作用事件的影响。埋藏压实作用是导致砂岩孔隙丧失的主要原因 ,造成的平均孔隙度丧失为 17.8%。其中黑云母的早期成岩蚀变是造成原生孔隙丧失的一个重要原因。胶结作用造成的平均孔隙度丧失为 7.1%。其中碳酸盐胶结物和次生石英加大是造成砂岩物性降低的主要胶结物。碎屑颗粒周围绿泥石薄膜的存在阻止了一部分石英次生加大及碳酸盐胶结物的沉淀 ,使一部分原生粒间孔隙得以保存。晚期成岩阶段有机质分解形成的酸性流体及表生成岩作用阶段的大气降水是形成次生孔隙的主要原因 ,从而使长

鄂尔多斯盆地油坊庄油田长2油层组储层宏观非均质性研究

油坊庄油田长2油层组发育水上分流河道、天然堤、决口扇、沼泽等沉积微相类型,储集砂体以水上分流河道砂体为主,天然堤等次之。顺着物源方向,砂体连通性较好,物性较好,非均质性弱;垂直于物源方向砂体连通性、物性较差,非均质性强。储层层内非均质性较强,储集砂体垂向韵律以正韵律为主,不利于水驱油。长2油层组单砂层数越多,层间非均质性越强。综合研究表明,储层非均质性受沉积环境控制。

青平川油田延长组长2沉积微相与油气分布

根据地表露头、钻井岩心、测井资料以及粒度分析,并结合前人对鄂尔多斯盆地陕北斜坡东部延长组长2油层组沉积微相研究成果,指出青平川油田长2油层组为辫状河沉积,主要的沉积微相类型有心滩、河道充填以及漫滩和漫滩沼泽等,其中心滩为研究区微相类型的显著特点.对研究区长2油层组的试油试采数据、含油井段岩心观察以及测井相分析研究表明,厚度较大、连通性较好的河道砂体为主要的油气富集相带,但同时受到储层非均质性、构造和水动力等因素的影响,油层被分割成不规则的块状,形成构造-岩性油藏或构造-水动力油藏等;长2辫状河河道砂体是良好的储层,下部长7烃源岩是直接的油气来源,上部长1含煤地层对其起到区域盖层作用,从而在纵向上形成良好的生储盖组合.

蟠龙油田长2储层裂缝分布及油气地质意义

岩心观察、薄片资料、常规物性分析等研究表明，鄂尔多斯盆地蟠龙油田长2储层天然裂缝发育，且主要为高角度裂缝，裂缝充填物主要为方解石，部分未充填裂缝含油性好。采用渗透率异常频率分析方法，研究长2储层裂缝平面变化规律．产量高的井主要落于渗透率异常值在5％～30％和大于50％两个区间内。宏观裂缝的大量存在，起到沟通长7有效烃源岩与长2储层的桥梁作用，从而形成长2储层丰富的石油聚集。微裂缝对基质孔隙的连通起到重要作用，是原油高产的因素之一。

鄂尔多斯盆地延长油气区山西组山2段储层砂岩成岩作用

根据薄片、铸体薄片、扫描电镜、X-射线衍射及化验分析等资料,对延长油气区山2段储层的岩石学特征、成岩作用类型和阶段划分及其对孔隙的影响进行了研究。研究表明,该区山2段储层砂岩以石英砂岩、岩屑质石英砂岩为主,成分成熟度较高,结构成熟度较低。成岩作用类型主要包括:压实作用、胶结作用和溶蚀作用。砂岩经历了早成岩阶段A、B期和晚成岩阶段A1、A2和B期的成岩演化阶段。压实作用和胶结作用是砂岩孔隙度降低的主要原因,分别造成19.5%和14%的原生孔隙丧失;溶解作用形成的次生孔隙在一定程度上改善了砂岩储集性能,溶蚀作用增加的新孔隙平均为1.7%。

鄂尔多斯盆地林镇地区延长组长2沉积微相与油气分布

鄂尔多斯盆地林镇地区处于伊陕斜坡西南部,在长2沉积期研究区内发育辫状河三角洲前缘亚相沉积,沉积微相主要为水下分流河道、水下分流河道间、河口坝和远砂坝,物源主要来自北东和南西两个方向。林镇地区长2油藏的分布与沉积相关系密切,油藏主要分布于水下分流河道末端和河口坝的混合区,以及水下分流河道的侧缘,另外在远砂坝区也有少量油藏分布。区内长2期的辫状河三角洲前缘亚相沉积环境控制了长2储集层岩性的横向变化,同时区内长2地层普遍发育低幅度鼻状构造隆起,因此在构造圈闭条件和岩性圈闭条件共同作用下形成构造─岩性复合油藏。

吴起油田白河北部长8储层特征及其控制因素研究

为对吴起油田长8地区的储层特征存进行进一步深入的了解,利用研究区内高压压汞、岩石薄片、铸体薄片以及物性特征等资料,对吴起油田白河北部长8储层的岩石学特征、孔隙类型及结构、孔渗特征等进行研究,并对可能影响储层物性的因素进行讨论,得出:沉积微相和成岩作用是影响该储层的主要因素。储层特征:分流间湾、下分流河道和远砂坝是白河北部长8沉积微相主要的存在形式,其河口坝的发育程度较低,以浅灰、灰色细粒长石砂岩和岩屑长石砂岩为主要的岩石类型,研究区孔隙类型以岩屑溶孔、长石溶孔、粒间孔隙居多,晶间孔的数量较少,可见少量的微裂隙。总体上看长8储层的类型属特低孔、超低渗致密储层。分析研究范围各小层的物性可得,其中长8_(2)^(2)物性最好。

鄂尔多斯盆地靖安油田长2油藏储集因素分析及有利圈闭预测

通过岩心观察、薄片鉴定、测井曲线等资料,对靖安油田长2油层组岩石类型、沉积构造和沉积相特征及砂体分布规律对圈闭的影响进行详细研究.结果表明,研究区长2油层组主要为三角洲平原沉积体系,发育主河道与分流河道砂体,靖安油田受沉积相带、鼻状隆起等因素控制.经油藏分析,靖安油田有利圈闭主要以构造圈闭为主,高闭合度鼻状隆起对油气藏形成具重要控制作用,分流河道汇合部位厚砂体是油气富集主要场所,大规模溶蚀作用形成局部高孔、高渗带是油气聚集成藏的有利地区.

鄂尔多斯盆地陕北地区三叠系长7段致密油分布特征及控制因素

综合利用地球化学、扫描电镜、岩心薄片、测井等资料以及油井生产数据等,对鄂尔多斯盆地陕北地区三叠系延长组7段储层特征、烃源岩特征和致密油分布特征进行了分析,从烃源岩展布、输导体系和源-储组合关系3个方面对致密油差异富集控制因素进行了探讨,并总结了成藏模式。研究结果表明:(1)陕北地区长7段致密砂岩储层主要分布在一亚段(长71)和二亚段(长72),以灰色—灰白色长石砂岩和岩屑长石砂岩为主,长71和长72平均孔隙度分别为5.56%和7.32%,平均渗透率分别为0.097 m D和0.110 m D,长72储层物性更好;孔隙空间以溶孔为主,发育少量粒间孔。(2)研究区烃类主要来源于本地长72顶部和长73这2套烃源岩,平均厚度大于20 m,有机质丰度高,平均TOC值为3.02%,干酪根类型以Ⅰ型和Ⅱ1型为主,处于生烃高峰期,平均生烃量为270.2×10^(4)t/km^(2),长73烃源岩生烃潜力更大,供烃至长72储层,长71致密油来源于长72烃源岩;新安边地区三角洲前缘亚相末端的长72储层中致密油由湖盆烃源岩侧向供烃。(3)研究区致密油富集受烃源岩展布、砂体连通性以及源-储组合共同控制,在长72更富集,在新安边地区分布面积最大,安塞地区无大规模致密油聚集;纵向上和平面上致密油的聚集差异受控于烃源岩厚度和源-储组合关系,下生上储、上下生油而中间储集和砂泥互层时含油性更好;新安边地区三角洲前缘亚相末端的长72致密油聚集规模大于三角洲前缘主体,是由于三角洲前缘末端发育的局部连通砂体阻碍了湖盆烃类物质的侧向运移。(4)研究区致密油为“源控-砂控”成藏模式,远源河道优势砂体尖灭处和近源局部连通的砂体是有利勘探区。

天赐湾地区长4+5油层组薄油层有效储层下限测井评价

为实现鄂尔多斯盆地天赐湾地区长4+5油层组薄油层的精细刻画,需要开展系统的有效储层下限综合评价。利用该地区主力油层长4+5^(2)亚段大量地质、实验、测井、生产资料,系统研究了致密油藏储层特征并提出有效储层下限标准。研究结果表明,工区长4+52亚段储层的岩性以细粒长石砂岩为主,砂岩粒度曲线具有2段式特征。孔隙度主要分布在8%~16%,峰值区间分布在10%~13%;渗透率主要分布在0.2~5.6 mD^(*),存在2个峰值区间,分别为0.3~0.4 mD及1.4~5.6 mD。渗透率高于1.0 mD的相对高渗优质储层的平均孔喉半径大于0.14μm且分选系数大于2.5。长4+52亚段有效储层的含油级别为油迹级及油斑级,物性下限标准为孔隙度9.0%、渗透率0.3 mD。此外,储层有效厚度电性参数,包括测井孔隙度、含油饱和度、电阻率及声波时差的下限分别为9.0%、40.0%、15Ω・m及225μs/m。结合岩心、测试、测井及试油资料构建的致密油油水层识别标准在薄油层应用中是可靠的。

致密砂岩含油非均质性储层的野外实例三维数字模型和精细解剖——以鄂尔多斯盆地三叠系延长组安沟油砂露头为例

由于缺少典型油砂露头,客观认识砂体内部受控于构型界面的储层含油非均质性受到制约,有效素材的缺乏一直阻碍着表征砂体内部含油非均质性及其与构型界面具体关系的认识。位于鄂尔多斯盆地东南部的安沟露头中致密砂岩含油非均质性表现明显,是储层含油非均质性和表征其与不同构型界面具体关系的有效素材。利用无人机多点位航拍对安沟油砂露头进行了三维数字露头建模,并对其三维数字模型进行了沉积-层序-成岩解剖,结果发现露头中原油充注仅分布于单层砂体内部,而砂体顶、底部并不含油。对实测剖面进行沉积相及层序地层分析,结果表明含油致密砂岩的沉积环境为曲流河水道,底面对应延长组7(长7)油层组和延长组6(长6)油层组界限的三级层序界面。砂体内含油非均质性与水道叠置、砂坝垂向加积和底形(交错层)构型界面关系密切。手持切割机对长7和长6油层组露头进行连续取样和岩石薄片镜下观察,研究发现单砂层顶、底和内部截然不同的结构、物性和成岩特征是造成安沟露头差异化含油的根本原因。安沟油砂露头的发现为客观认识砂体内部受控于构型界面的储层含油非均质性提供了难得的野外实例。该露头的详细解剖为致密砂岩储层含油非均质性明显受控于沉积作用和差异化的成岩作用提供了直接的地质证据。