Characteristics and control factors of feldspar dissolution in gravity flow sandstone of Chang 7 Member,Triassic Yanchang Formation,Ordos Basin,NW China

To clarify the formation and distribution of feldspar dissolution pores and predict the distribution of high-quality reservoir in gravity flow sandstone of the 7^(th) member of Triassic Yanchang Formation(Chang 7 Member)in the Ordos Basin,thin sections,scanning electron microscopy,energy spectrum analysis,X-ray diffraction whole rock analysis,and dissolution experiments are employed in this study to investigate the characteristics and control factors of feldspar dissolution pores.The results show that:(1)Three types of diagenetic processes are observed in the feldspar of Chang 7 sandstone in the study area:secondary overgrowth of feldspar,replacement by clay and calcite,and dissolution of detrital feldspar.(2)The feldspar dissolution of Chang 7 tight sandstone is caused by organic acid,and is further affected by the type of feldspar,the degree of early feldspar alteration,and the buffering effect of mica debris on organic acid.(3)Feldspars have varying degrees of dissolution.Potassium feldspar is more susceptible to dissolution than plagioclase.Among potassium feldspar,orthoclase is more soluble than microcline,and unaltered feldspar is more soluble than early kaolinized or sericitized feldspar.(4)The dissolution experiment demonstrated that the presence of mica can hinder the dissolution of feldspar.Mica of the same mass has a significantly stronger capacity to consume organic acids than feldspar.(5)Dissolution pores in feldspar of Chang 7 Member are more abundant in areas with low mica content,and they improve the reservoir physical properties,while in areas with high mica content,the number of feldspar dissolution pores decreases significantly.

Microfacies and diagenetic alteration in a semi-deep to deep lacustrine shale: The Yanchang Formation in the Ordos Basin, China

The mineralogical development and diagenetic sequence of lacustrine shales in the Chang 7 Member of the Yanchang Formation in the Ordos Basin are detailed studied.A model of their depositional system and a diagenetic diagram are proposed in this study.Through detailed petrographic,mineralogical,and elemental analyses,four distinct shale types are identified:argillaceous shale,siliceous shale,calcareous shale,and carbonate,clay,and silt-bearing shale.The main diagenetic process in argillaceous shale is the transformation of illite to smectite,negatively impacting shale porosity.Siliceous shale undergoes carbonate cementation and quartz dissolution,contributing to increased porosity,particularly in mesopores.Calcareous shale experiences diagenesis characterised by carbonate formation and dissolution,with a prevalence of siderite.In carbonate,clay,and silt-bearing shale,the dissolution of K-feldspar contributes to illitization of kaolinite.Argillaceous shale,characterised by more clay minerals and lower mesopore volume,is identified as a potential hydrocarbon seal.Siliceous shale,with the highest pore volume and abundant inter-mineral pores,emerges as a promising shale oil reservoir.These findings contribute to a comprehensive understanding of shale properties,aiding in the prediction of shale oil exploration potential in the studied area.

Oderly accumulation theory of shale system petroleum resource and its prospecting significance-A case study of Chang 7 Member of Yanchang Formation in Ordos Basin

1 Introduction Shale formations bear abundant mineral resource and*unconventional petroleum resource,and the unconventional petroleum resource that contain in the shale formation should be integrated and researched.

Characteristics and evolution of lacustrine turbidite of Chang-7 Member of Yanchang Formation in northern Shaanxi

Lacustrine turbidite of Chang-7 Member in the studied area consists of sihstone and fine sandstone with respect to grain size, which is feldspathic lithie sandstone, syrosem arkose and arkose with respect to mineral constitution affected by provenance. There are such apparent signatures as lithology, sedimentary structure, sedimentary sequence and well logs, to recognize turbidite. During the paleogeographic evolution of Chang-7 Member, lake basin and deep lake are both at their maximum extent during Chang-73 stage, resulting in the deposition of Zhangjiatan shale with widespread extent and of turbidite with fragmental-like. Deep lake line is gradually moving toward lake center and turbidite sand bodies are gradually turning better with better lateral continuity, connectivity and more thickness, from stages of Chang-73, Chang-72 and Chang-7t, which can be favorable reservoir in deep-water.

Geological characteristics and exploration of shale oil in Chang 7 Member of Triassic Yanchang Formation, Ordos Basin, NW China

A set of shale-dominated source rocks series were deposited during the heyday of lake basin development in the Member 7 of Triassic Yanchang Formation,Ordos Basin,and the thickness is about 110 m.Aimed at whether this layer can form large-scale oil enrichment of industrial value,comprehensive geological research and exploration practice have been carried out for years and obtained the following important geologic findings.Firstly,widely distributed black shale and dark mudstone with an average organic matter abundance of 13.81%and 3.74%,respectively,lay solid material foundation for the formation of shale oil.Secondly,sandy rocks sandwiched in thick organic-rich shale formations constitute an oil-rich"sweet spot",the average thickness of thin sandstone is 3.5 m.Thirdly,fine-grained sandstone and siltstone reservoirs have mainly small pores of 2–8μm and throats of 20–150 nm in radius,but with a large number of micro-pores and nano-throats,through fracturing,the reservoirs can provide good conductivity for the fluid in it.Fourthly,continued high-intensity hydrocarbon generation led to a pressure difference between the source rock and thin-layer reservoir of up to 8–16 MPa during geological history,driven by the high pressure,the oil charged into the reservoirs in large area,with oil saturation reaching more than 70%.Under the guidance of the above theory,in 2019,the Qingcheng Oilfield with geologic oil reserves of billion ton order was proved in the classⅠmulti-stage superimposed sandstone shale reservoir of Chang 7 Member by the Changqing Oilfield Branch through implementation of overall exploration and horizontal well volume fracturing.Two risk exploration horizontal wells were deployed for the classⅡthick layer mud shale interbedded with thin layers of silt-and fine-sandstones reservoir in the Chang 73 submember,and they were tested high yield oil flows of more than 100 tons per day,marking major breakthroughs in petroleum exploration in classⅠshale reservoirs.The new discoveries have expanded the domain of unconventional petroleum exploration.

鄂尔多斯盆地长7段重力流砂岩长石溶蚀特征及控制因素

基于岩心薄片、扫描电镜、能谱分析、X射线衍射全岩分析及溶蚀实验,研究鄂尔多斯盆地三叠系延长组7段(简称长7段)重力流砂岩中长石溶孔发育特征及控制因素,明确长石溶孔的形成与分布,为预测优质储集层分布提供依据。研究表明:(1)研究区长7段砂岩中的长石经历3类成岩作用:长石次生加大、黏土以及方解石的交代、长石碎屑的溶蚀作用。(2)长7段致密砂岩中的长石溶蚀主要源于有机酸溶蚀,此外还受长石类型、长石早期蚀变程度以及砂岩中云母碎屑对有机酸的缓冲作用影响。(3)不同长石的溶蚀程度不同,表现为钾长石较斜长石易溶蚀,钾长石中正长石较微斜长石易溶,未蚀变的长石较早期高岭土或绢云母化的长石易溶蚀。(4)溶蚀实验显示云母的存在会抑制长石溶蚀,相同质量的云母对有机酸的消耗能力明显强于长石。(5)在云母含量低的情况下,长7段砂岩长石溶孔较为发育,储集层物性得以改善,而云母含量较高的地区长石溶孔则明显减少。

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。

基于斑马算法优化支持向量回归机模型预测页岩地层压力

针对陇东地区三叠系延长组7段(长7段)页岩孔隙结构复杂、非均质性强、地层压力预测精度较低等问题,提出了一种基于斑马算法优化支持向量回归机(ZOA-SVR)模型预测地层压力的方法,并在实际钻井中进行了应用,将预测结果与基于机器算法的模型和常规地层压力预测方法结果进行了对比。研究结果表明:①ZOA-SVR模型以实测地层压力数据为目标变量,优选与陇东地区长7段页岩地层压力数据关联度达到0.70以上的深度、声波时差、密度、补偿中子、自然伽马、深侧向电阻率、泥质含量等7个参数作为输入特征参数,设置训练样本数为40,交叉验证折数为5,初始化斑马种群数量为10,最大迭代次数为70,对惩罚因子和核参数进行优化并建模,参数优化后拟合优度指标R2达到0.942,模型预测的地层压力数据在训练集和测试集上的绝对误差均低于1 MPa,预测测试集地层压力数据与实测压力数据的平均相对误差为2.42%。②ZOA-SVR模型在研究区长7段地层压力预测中优势明显,比基于粒子群优化算法、灰狼算法和蚁群算法的模型具有更好的参数调节及优化能力,R2分别提高了0.209,0.327,0.142;比等效深度法、Eaton法、有效应力法预测的地层压力精度更高,相对误差分别降低了32.53%,15.31%,5.91%。③ZOA-SVR模型在实际钻井中的应用结果显示,研究区长7段地层压力在垂向上分布较稳定,泥页岩段的地层压力高于砂岩段,地层压力系数主要为0.80~0.90,整体上属于异常低压环境,与实际地层情况相符。

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。

湖相细粒沉积岩颗粒微观力学特征及类型划分——以鄂尔多斯盆地上三叠统延长组7段页岩为例

细粒沉积岩蕴藏着丰富的油气资源,为了研究细粒沉积岩颗粒微观结构及力学特征,以鄂尔多斯盆地上三叠统延长组7段细粒沉积岩为例,开展了扫描电镜观察和纳米压痕实验分析,据此研究细粒沉积颗粒的几何特征和微观力学性质。研究认为:用粒径、扁平度、棱角性、硬度和弹性模量5个特征参数,可将细粒沉积岩划分为粒度+棱角型、扁平度+棱角型、扁平度+棱角+弹性模量+硬度型、弹性模量+硬度型、棱角+弹性模量+硬度型和粒度+棱角+弹性模量型6种主要颗粒类型;接着,根据颗粒类型的相对含量,进一步将颗粒类型划分为5种组合类型;最后,分析了细粒沉积颗粒类型与矿物类型之间的耦合关系。细粒沉积岩颗粒微观分类方案的建立,有助于理解细粒沉积岩微观结构特征,预测地质“甜点”空间分布,对细粒沉积岩的油气资源评价和效益开发具有重要的理论和科学意义。

鄂尔多斯盆地中部三叠系延长组7段烃组分的运移分异作用

鄂尔多斯盆地延长组7段页岩体系是泥岩、页岩和砂岩的组合体。为了深入揭示页岩油组分在不同岩性中的运移分异现象,针对鄂尔多斯盆地中部地区开展了典型烃类组分的运移分异研究。研究表明:在不同的岩性中4类族组分含量存在差异。砂岩中饱和烃(SAT)含量高,非烃与沥青质(NSO+Asph)含量低。页岩和泥岩的SAT含量低,NSO+Asph含量高。砂岩的n C_(11-15)烃类组分含量较高,nC_(23-39)烃类组分含量较低;页岩和泥岩的nC_(11-15)烃类组分含量较低,nC_(23-39)烃类组分含量较高。页岩和泥岩的Pr/Ph,Pr/nC_(17)和Ph/n C_(18)等含量比值参数数值变化大,砂岩的数值变化小。页岩和泥岩的C_(27)/C_(29)规则甾烷含量比值较低,砂岩则较高。页岩和泥岩的藿烷Ts/Tm与Ts/(Ts+Tm)比值较低,砂岩则较高。页岩和泥岩的C_(32)升藿烷22S/(22S+22R)比值变化较大,砂岩则具有相对集中的数值。砂岩的伽马蜡烷指数较高且数值分布范围较广,而页岩与泥岩则相反;页岩和泥岩8β(H)-补身烷/8β(H)-升补身烷的含量比值普遍大于1,而砂岩的数值普遍小于1。综合研究认为,不同石油组分在烃源岩内部的分布差异是吸附差异和不同石油组分运移分异共同导致的。

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。

沉积环境对细粒沉积岩微观结构的影响——以鄂尔多斯盆地延长组7段页岩为例

细粒沉积岩微观结构特征是岩石的基本属性,影响细粒沉积岩的物理化学行为。以鄂尔多斯盆地延长组7段页岩为例,根据多尺度多视域扫描电镜拼接和图像识别技术,分析细粒沉积颗粒的几何形貌特征,探讨沉积环境对细粒沉积颗粒几何形状和排列结构特征的影响。结果表明:研究区半深湖—深湖相细粒沉积颗粒为细颗度(2~3μm)、扁平和棱角形,颗粒沿某一段连续区间呈定向分布,强度分布呈扁平的仿锥状,定向排列程度好;浅湖相细粒沉积颗粒为中细颗度(2~8μm)、扁平和棱角形,颗粒沿某一区间呈尖状分布,规律性不明显,定向排列程度中等;三角洲相细粒沉积颗粒为细粒度(8~12μm)、似圆形,颗粒分布杂乱无章,强度分布呈似圆形或椭圆形。颗粒周长棱角性指数和扁平度越好,越有利于定向排列结构的形成;颗粒各向异性率和粒度越大,越不利于定向排列结构的形成。该结果有助于了解细粒沉积岩的微观结构特征,建立岩石微观结构和宏观结构的联系。

Kinetic simulation of hydrocarbon generation and its application to in-situ conversion of shale oil

The kinetic parameters of hydrocarbon generation are determined through experimental simulation and mathematical calculation using four typical samples selected from the Cretaceous Nenjiang Formation in the northwest of Songliao Basin,Chang 7 Member of Triassic Yanchang Formation in the southwest of Ordos Basin,Paleogene in the southwest of Qaidam Basin,and Lucaogou Formation of Jimusar Sag in the east of Junggar Basin.The results show that activation energy of hydrocarbon generation of organic matter is closely related to maturity and mainly ranges between 197 kJ/mol and 227 kJ/mol.On this basis,the temperature required for organic matter in shale to convert into oil was calculated.The ideal heating temperature is between 270℃and 300℃,and the conversation rate can reach 90%after 50-300 days of heating at constant temperature.When the temperature rises at a constant rate,the temperature corresponding to the major hydrocarbon generation period ranges from 225 to 350℃at the temperature rise rate of 1-150℃/month.In order to obtain higher economic benefits,it is suggested to adopt higher temperature rise rate(60-150℃/month).The more reliable kinetic parameters obtained can provide a basis for designing more reasonable scheme of in-situ heating conversion.

鄂尔多斯盆地宁县地区三叠系延长组7段湖盆细粒重力流沉积类型、特征及模式

湖盆细粒重力流沉积砂体是深水盆地勘探的有利目标区。综合利用岩心、钻井、测录井及薄片鉴定资料,对鄂尔多斯盆地宁县地区三叠系延长组7段细粒重力流沉积类型、特征、沉积演化过程以及沉积模式进行探究。研究结果表明:研究区长7段主要发育10种岩相、6种岩相组合和5种深水沉积类型,即滑动—滑塌沉积、砂质碎屑流沉积、混合事件层、浊流沉积和深湖相泥质沉积;并依据其岩相及组合特征、深水沉积类型将半深湖—深湖亚相划分出限制性水道、非限制性水道、堤岸、朵叶体、水道间及半深湖—深湖泥6种沉积微相;三角洲前缘沉积物受外力作用开始失稳运动,经历了滑动、滑塌、砂质碎屑流、混合事件层、浊流5个演化阶段,伴随着“流体转换分离”及“滑水作用”,致使重力流沉积从湖盆边缘至湖盆中心依次发育限制性水道—堤岸、非限制性水道—堤岸、朵叶体等沉积单元。该研究有助于加深对湖盆细粒重力流沉积的认识,为深水油气勘探与开发提供指导。

鄂尔多斯盆地三叠系延长组7段高伽马砂岩测井识别及其展布特征

鄂尔多斯盆地三叠系延长组长7段泥页岩层系内发育大量的砂岩夹层,这些砂岩夹层常伴有自然伽马值异常高的现象,部分砂岩的自然伽马值可高达330.5 API,在测井剖面上极易与泥页岩混淆。为识别高伽马砂岩,按照粒度和结构特征将该区延长组长7段碎屑岩划分为细砂岩、粉砂岩、泥质粉砂岩、粉砂质泥岩、泥岩和页岩,并应用常规测井数据运算组合成2个新参数——参数A和参数B,参数A和参数B组成的交汇图版以及自然伽马测井曲线,可有效区分识别出长7段中的正常砂岩和高伽马砂岩。长7段高伽马砂岩的累计厚度平面展布图表明,高伽马砂岩主要位于研究区的西南部;高伽马砂岩由湖盆边缘向湖盆中心呈指状发散展布的特征指示,其形成可能与长7段沉积期间的火山喷发有关。

基于氮气吸附实验与分形FHH模型分析页岩孔隙结构特征——以鄂尔多斯盆地华池地区长7段为例

孔隙结构是页岩储层研究的重点,对页岩油的赋存具有重要影响。选取鄂尔多斯盆地华池地区延长组7段的10块泥页岩岩心样品,通过扫描电镜观察及低温氮气吸附实验,结合分形FHH模型,计算分形维数,对研究区泥页岩的孔隙结构进行定量化表征,并在此基础上探讨分形维数与孔隙结构参数、含油性参数的关系,确定长7段泥页岩孔隙发育的主要影响因素。华池地区长7段泥页岩有机质丰度高,属于好—极好烃源岩,含油性与可动性较好,多达到中含油级别,主要由石英与黏土矿物组成;储集空间以粒间孔、粒内孔及少量有机质孔为主,孔隙形态有两类,分别为平行板状狭缝形+单边狭缝形及墨水瓶形+平行板状狭缝形,孔径以微孔和中孔为主,宏孔发育较少。多数样品具有分形特征,表征小孔隙的分形维数D_(1)介于2.264 7~2.714 9之间,表征大孔隙的分形维数D_(2)介于2.373 3~2.777之间。其中,D_(2)同比表面积、孔体积、平均孔径及S_(1)的相关性较好,可以表征孔隙结构发育特征和页岩的含油性;而D_(1)仅可表征页岩油的可动性。泥页岩的孔隙发育主要受控于有机碳及石英含量,与长石含量有一定的关系,黏土矿物含量不是主要的影响因素。

鄂尔多斯盆地延长组7-8段深水沉积特征及演化规律

为明确鄂尔多斯盆地富县-志丹地区延长组7-8段深水细粒层系沉积特征及演化规律,利用研究区测录井、岩心、薄片,结合总有机碳(total organic carbon,TOC)、全岩X射线衍射等资料识别细粒沉积岩的岩相类型,分为粉砂岩和泥页岩2大类,细分为7亚类,分别是风暴粉砂岩、地震滑塌粉砂岩、异重流粉砂岩;中低有机质纹层状长英质页岩、高有机质纹层状长英质页岩、高有机质纹层状黏土岩、低有机质块状长英质页岩。利用标志层、测井响应特征、地球化学等高精度测试资料将研究区长7-8段划分为一个Ⅲ级层序、3个体系域、7个准层序组,并建立剖面精度到准层序组(10~20 m)的精细层序地层格架;讨论精细层序地层格架演变约束下的细粒沉积岩分布规律。对于粉砂岩:低位和高位体系域晚期水深相对较小,受风暴影响大,发育风暴粉砂岩;高位体系域早期,受陆源洪水影响,发育异重流粉砂岩;地震滑塌粉砂岩的分布受幕式构造运动控制,在低位和湖侵体系域均有分布:对于泥页岩:中低有机质泥页岩分布在低位和高位体系域晚期,高有机质泥页岩则分布在湖侵和高位体系域早期。可见湖平面的升降变化控制了不同岩相类型的垂向分布,体现为粉砂岩与泥页岩高频互层,其中地震滑塌粉砂岩主要受控于幕式构造运动。此外,平面岩相分布规律表明,泥页岩和粉砂岩生储配置关系较好,且分布范围较广,整体呈条带状沿物源方向平行岸线分布,是岩性油气藏勘探开发有利区。

鄂尔多斯盆地上三叠统延长组长7段富有机质页岩中藻类化石的发现及地质意义

鄂尔多斯盆地上三叠统延长组长7段富有机质页岩是该盆地中生界含油系统的主力烃源岩,其有机质丰度高,类型好,具有巨大的生烃潜力。该套烃源岩中有机质的富集很大程度上取决于长7期的高古生产力及其提供的充足的有机质。长7期藻类勃发的存在已被多数学者所接受,但是目前还缺乏直观、有力的证据。笔者等通过薄片和扫描电镜观察、能谱分析,在长7段的脉状黄铁矿附近和碳酸盐结核中发现了属种单一、分布丰度高的藻类化石,它们呈现出近似球状的轮廓,在中部分布着一条裂缝。这些藻类化石的发现具有重要的地质意义,它为长7期的藻类勃发提供了很好的证据,也为该时期热液活动的重要作用提供了有力的支撑。