Reservoir Characteristics and Preservation Conditions of Longmaxi Shale in the Upper Yangtze Block, South China

The Upper Ordovician-Lower Silurian Longmaxi Shale in the Upper Yangtze block represents one of the most important shale gas plays in China. The shale composition, porosity, organic thermal maturity, and methane sorption were investigated at the Qilongcun section in the Dingshan area, southeastern Sichuan Basin. The results show that the Upper Ordovician-Lower Silurian Longmaxi Shale contains： （1） sapropelic I organic matter; （2） a 40-m thick bedded sequence where total organic carbon （TOC） content is 〉 2%; （3） a 30-m thick layer at the base of the Longmaxi Shale with a brittle mineral content higher than 50%; and （4） a mean methane adsorption capacity of 1.80 cm3/g （7 MPa pressure）. A positive correlation between TOC and sorbed gas indicates that organic matter content exerts an important control on methane storage capacity. Based on the analysis of the shale reservoir characteristics, the lower member of the Longmaxi Shale can thus be considered a favorable stratum for shale gas exploration and exploitation. It has similar reservoir characteristics with the Longmaxi Shale in the Jiaoshiba area tested with a high-yield industrial gas flow. However, based on tectonic analysis, differences in the level of industrial gas flow between the low-yield study area and the high-yield Jiaoshiba area may result from different tectonic preservation conditions. Evidence from these studies indicates the shale gas potential of the Longmaxi Shale is constrained by the reservoir and preservation conditions.

Channel change at Toudaoguai Station and its responses to the operation of upstream reservoirs in the upper Yellow River

The application of dams built upstream will change the input conditions, including water and sediment, of downstream fluvial system, and destroy previous dynamic quasi-equilibrium reached by channel streamflow, so indispensable adjustments are necessary for downstream channel to adapt to the new water and sediment supply, leading the fluvial system to restore its previous equilibrium or reach a new equilibrium. Using about 50-year-long hydrological, sedimentary and cross-sectional data, temporal response processes of Toudaoguai cross-section located in the upper Yellow River to the operation of reservoirs built upstream are analyzed. The results show that the Toudaoguai cross-section change was influenced strongly by upstream reservoir operation and downstream channel bed armoring thereafter occurred gradually and extended to the reach below Sanhuhekou gauging station. Besides, median diameter of suspended sediment load experienced a three-stage change that is characterized by an increase at first, then a decrease and an increase again finally, which reflects the process of channel bed armoring that began at Qingtongxia reservoir and then gradually developed downstream to the reach below Sanhuhekou cross-section. Since the joint operation strategy of Longyangxia, Liujiaxia and Qingtongxia reservoirs was introduced in 1986, the three-stage change trend has become less evident than that in the time period between 1969 and 1986 when only Qingtongxia and Liujiaxia reservoirs were put into operation alone. In addition, since 1987, the extent of lateral migration and thalweg elevation change at Toudaoguai cross-section has reduced dramatically, cross-sectional profile and location tended to be stable, which is beneficial to the normal living for local people.

Genesis of the low-permeability reservoir bed of upper Triassic Xujiahe Formation in Xinchang gas field,western Sichuan Depression

The genesis of a reservoir is a result of the combined action of deposition, diagenesis, tectonic reworking, and interaction of rock and fluid and the evolutionary environment. We discuss the genetic and evolution mechanism of a low-permeability reservoir bed of the Xujiahe Formation in the western Sichuan Depression on the basis of the study of diagenesis, diagenetic reservoir facies and the diagenetic evolution sequence. The research indicated that this reservoir bed can be divided into five types of diagenetic reservoir facies, namely strong dissolution, chlorite-lined intergranular pores, compaction and pressure solution, carbonate cementation and secondary quartz increase. There are, however, just two diagenetic reservoir facies which provide low-permeability reservoir beds, namely strong dissolution and chlorite-lined intergranular pores. We also analyzed their diagenetic evolution sequences and the origin of the low-permeability reservoir bed. Besides, it was also indicated that the composition and structure of sandstones, types of sedimentary microfacies, diagenesis history as well as the tectonic reworking in later periods are the main factors controlling the formation of the low-permeability reservoir bed. The above- mentioned factors establish the foundation for the forecasting the distribution of high quality reservoir beds.

DL油田下白垩统Upper Shuaiba组油藏隔层识别

隔层的识别及分布研究是储层非均质性研究中的重要组成部分,其引起的渗流屏障和渗流差异是影响剩余油分布的重要因素。以DL油田USH油藏为例,探讨了储层隔层的识别方法和分布。通过岩心和测井资料分析讨论了研究区隔层类型和测井曲线特征,认为区内隔层较发育,其类型主要为致密隔层,测井响应特征表现为低伽马、低声波时差、低中子、高密度、高电阻率特征。利用交会图定性识别出隔层,建立起声波识别隔层标准及精度高、逼近速度快的小波神经网络隔层识别模型,其识别效果较好。

Control factors of reservoir oil-bearing difference of Cretaceous Mishrif Formation in the H oilfield, Iraq

To reveal the law of oiliness of the Upper Cretaceous carbonate reservoirs in the Middle East and factors controlling the oiliness, the Mishrif Formation of the H oilfield in Iraq was examined comprehensively. Based on core observation and description, casting thin section analysis, and statistics of physical property and pore-throat structure parameter, etc., in combination with previous achievements and understanding, it is pointed out that the coring interval of Mishrif Formation has strong oiliness heterogeneity, and can be divided into 4 grades, oil rich, oil immersed, oil spot, and oil trace; the oil-bearing grade has obvious facies-controlled characteristic in macroscopic view; and in different oil-bearing grades, relatively oil-rich sections present higher karst development intensity, better physical properties and pore-throat structure characteristics. It is concluded through the study that the sedimentary microenvironment and eogenetic karstification determine the macroscopic oiliness of the reservoir in Mishrif Formation of H Oilfield, and the improvement of pore-throat structure caused by eogenetic karstification is the decisive factor of the micro oil-bearing difference of the reservoir. Finally,the genetic model of reservoir development and oil-bearing difference was established.

鄂尔多斯盆地东部上石炭统铝土岩系储集层特征及形成模式

基于岩心观察、岩石薄片、X射线衍射、扫描电镜、低温气体吸附和等温吸附等实验,分析鄂尔多斯盆地东部上石炭统铝土岩系岩性和孔隙特征,以揭示铝土岩系储集层形成演化过程。研究表明:(1)提出以铝的氢氧化物、铁矿物和黏土矿物三单元的铝土岩系岩石学命名分类方案;(2)铝质泥岩产状主要为致密块状和碎屑状,(泥质)铝土岩多呈致密块状、豆状、鲕状、多孔土状和碎屑状,溶蚀孔、晶间孔和微裂缝是主要储气空间,孔隙度一般小于10%,以介孔为主;(3)华北地区铝土岩系纵向上总体上可分为5段,即铁岩(山西式铁矿,A段)、铝质泥岩(B段)、铝土岩(C段)、铝质泥岩(含碎屑)(D段)和暗色泥岩-煤岩段(E段);(4)在岩溶平台、缓坡和洼地分别发育潜穴/漏斗状、透镜状、层状/块状铝土岩沉积,岩溶平台及缓坡处有利于地表水淋滤,岩溶改造作用强,孔隙发育,储集层厚度大且物性好,但连贯性差,低洼处物性较差但储集层相对连续稳定。铝土岩天然气富集受源岩-储集层-裂缝综合控制,相关认识可为该层段和类似铝土岩系天然气勘探开发提供地质依据。

鄂尔多斯盆地石盒子组-山西组致密储层形成主控因素与发育模式:以彬长地区为例

明确致密储层“甜点”的分布是致密储层油气勘探的重点。通过岩心观察、薄片鉴定、X射线衍射、包裹体均一温度测定、常规物性分析等手段,对鄂尔多斯盆地南部彬长地区上古生界致密砂岩沉积特征、储层特征、成岩作用进行了详细研究,明确了储层形成的主要控制因素并建立了优质储层的发育模式。结果表明:沉积相是储层形成的基础,辫状河三角洲平原分流河道心滩微相岩石粒度粗,孔隙结构为小孔-中细喉型,储层物性相对较好;曲流河三角洲前缘水下分流河道及河口坝微相岩石粒度细,孔喉结构为微孔-微喉型,储层物性相对较差。成岩作用对优质储层的发育与分布具有重要控制作用。间歇性火山凝灰质在酸性地层蚀变为高岭石,而在碱性地层蚀变为绿泥石套膜,抑制了石英次生加大和方解石胶结,保护了储集空间。石英次生加大主要为泥岩转化形成的SiO_(2)渗滤到砂岩中形成的,中晚期方解石充填长石、岩屑溶孔为方解石顶底板胶结的主要原因。晚期构造改造形成的微裂缝无方解石胶结,改善了储层物性,对气藏起调整作用。彬长地区在3 750 m和3 900 m埋深段附近为2个溶蚀孔发育带。最优储层为溶蚀孔发育带内火山凝灰质转化形成的富含绿泥石套膜的中-粗砂岩;次优储层主要分布在溶蚀孔发育带内单砂体厚度较大、有旋回且无泥岩隔档的砂体的中下部,主要为缺少绿泥石套膜的中-粗砂岩,方解石胶结与石英次生加大作用最低。研究成果进一步深化了鄂尔多斯盆地南部地区上古生界致密砂岩优质储层发育的成因,对该地区天然气勘探开发具有重要指导意义。

准噶尔盆地东道海子凹陷二叠系平地泉组烃源岩特征及热演化史模拟

基于钻井、录井、测井及烃源岩分析测试等资料,对准噶尔盆地东道海子凹陷二叠系平地泉组烃源岩的生烃潜力和热演化史进行了系统研究。研究结果表明:(1)准噶尔盆地东道海子凹陷二叠系平地泉组烃源岩主要为深灰色、灰黑色泥岩,颜色深且厚度普遍较大,自东北部斜坡区向凹陷中部厚度逐渐增大,并向西部莫索湾凸起逐渐减小,最大泥岩厚度可达536 m。(2)研究区平地泉组烃源岩有机质丰度综合评价为中等—极好,纵向上以平一段有机质丰度最高,平面上以凹陷东北部滴南7井区和滴南19井区最高;平地泉组有机质类型主要为Ⅱ_(2)—Ⅲ型,少部分为Ⅱ_(1)型,纵向上以平二段有机质类型最好,平面上凹陷区烃源岩有机质类型主要为Ⅱ_(1)—Ⅱ_(2)型。(3)热演化史模拟结果显示,凹陷区和斜坡区烃源岩分别在晚三叠世和晚侏罗世达到生烃高峰,现今分别处于高成熟阶段和成熟阶段。(4)研究区发育“下生上储”和“自生自储”2类油气藏,其中平地泉组烃源岩与上乌尔禾组储集层形成“下生上储”油气藏,平二段和平一段的优质烃源岩与湖盆边缘的小型扇三角洲沉积在平地泉组内部形成“自生自储”油气藏,二者油气勘探潜力均较大。

准噶尔盆地中拐凸起东斜坡上乌尔禾组常规—致密油藏主控因素及成藏模式

准噶尔盆地中拐凸起东斜坡上乌尔禾组油气资源丰富,是效益勘探及建产的重要领域。应用测录井、生产测试及岩心分析化验资料,研究中拐凸起东斜坡上乌尔禾组储层特征,明确储层差异性的主控因素,建立中拐凸起东斜坡常规—致密油藏序次分布的成藏模式。结果表明:自北部向南部,研究区逐步由常规油藏转化为致密油藏,沉积作用是造成储层差异性的物质基础,控制储层岩性及原始物性,压实作用和浊沸石胶结作用加剧储层常规—致密差异演化;研究区成岩相带划分为泥质充填带、贫泥—弱胶结带、浊沸石胶结带和强压实—弱溶蚀带4种相带,其中贫泥—弱胶结带为有利储层发育带。该结果为研究区致密油藏勘探提供指导。

辽东地区上古生界层序地层格架及生储盖特征

辽东地区上古生界石炭系-二叠系发育较齐全.在区域构造沉积演化、岩石组合特征、沉积相分析等研究基础上,运用层序地层学理论和方法,对辽东地区上古生界进行层序地层研究.将石炭系本溪组-二叠系蛤蟆山组划分为1个超层序、6个层序,分别发育于陆表海、滨岸、三角洲及河流沉积背景下.通过建立区域层序地层格架,探讨在层序地层格架内以体系域为单位的生储盖组合发育特征,认为上古生界区域性烃源岩和盖层主要形成于凝缩段和水进体系域上部、高位体系域下部,有利储层主要发育在低位体系域和水进体系域,纵向上构成2种类型5套生储盖组合,其中山西组“自生自储型”为上古生界致密砂岩气最有利的组合类型.

柴达木盆地西部干柴沟区块下干柴沟组上段页岩油储层特征及勘探潜力

柴达木盆地西部干柴沟区块C902井在古近系下干柴沟组上段Ⅳ~Ⅵ油层组获得高产油气流,实现了柴达木盆地古近系页岩油的重大勘探突破。然而,古近系页岩油的评价标准和资源潜力不清等问题制约了干柴沟区块高效开发。基于C902井及其他探井的勘探成果,利用岩性、物性、孔隙结构、生烃潜力等资料,综合评价了干柴沟区块古近系下干柴沟组上段Ⅳ~Ⅵ油层组页岩油的勘探潜力。结果表明,该套页岩层系混积特征明显,岩相类型包括纹层状和层状灰云岩、纹层状和层状云灰岩、纹层状黏土质页岩和层状泥岩,具有较高脆性指数,可压性强;晶间孔和纹层缝是重要的储集空间,占比达85%,属于低孔-特低渗储层;w(TOC)均值高于0.9%,氯仿沥青“A”和S_(1)+S_(2)共同指示生烃潜力大,且有机质类型以Ⅰ~Ⅱ_(1)型为主。因此,下干柴沟组上段Ⅳ~Ⅵ油层组具有烃源岩品质好、源储一体、可压性强、发育广泛等特征,生储盖组合在空间上广泛发育且密封性好,有利于压裂改造后提高油气采收率,对干柴沟区块页岩油的高效开发具有重要理论指导意义。

Geologic Features of Wangjiatun Deep Gas Reservoirs of Volcanic Rock in Songliao Basin

Wangjiatun gas pool is located at the north part of Xujiaweizi in Songliao basin. Commercial gas flow has been found in the intermediate and acid volcanic rock of upper Jurassic-lower Cretaceous, which makes a breakthrough in deep nature gas prospecting in Songliao basin. The deep natural gas entrapment regularity is discussed in the paper by the study of deep strata, structure and reservoir. Andesite, rhyolite and little pyroclastic rock are the main reservoirs. There are two types of volcanic reservoir space assemblage in this area: the pore and fissure and the pure fissure. Changes had taken place for volcanic reservoir space during long geologic time, which was controlled by tectonic movement and geologic environment. The developed degree of reservoir space was controlled by tectonic movement, weathering and filtering, corrosion and Filling. There are three types of source-reservoir-caprock assemblage in this area: lower source- upper reservoir model, upper source-lower reservoir model and lateral change model. Mudstone in Dengluoku formation and the compacted volcanic rock of upper Jurassic-lower Cretaceous are the caprock for deep gas reservoirs. Dark mudstone of deep lacustrine facies in Shahezi formation and lower part of Dengluoku formation are the source rock of deep gas. It can be concluded that deep gas pools are mainly volcanic lithologic reservoirs.

中上扬子地区震旦纪灯影组沉积期碳酸盐岩台地古地理格局及有利储集相带分布规律

【目的】中上扬子地区灯影组沉积期碳酸盐岩台地古地理格局及有利储集相带发育分布规律尚存争议,阻碍了灯影组油气勘探领域由绵阳—长宁拉张槽两侧向其他广大地区拓展。【方法】通过中上扬子地区灯影组30余条剖面(钻井)开展岩石类型划分及沉积相分析,【结果】进一步明确丘滩相以块状砂屑/鲕粒白云岩及柱状、穹窿状叠层石白云岩为特征,呈环带状分布在中上扬子台地(或内缓坡)边缘,向外过渡为中—外缓坡风暴岩或斜坡—盆地相区的滑塌角砾白云岩、泥质白云岩、硅质岩等。由于丘滩的阻挡作用,其内侧以低能的潮坪及潟湖沉积环境为主:其中潮坪相主要发育微生物纹层白云岩、穹窿—缓波状叠层石白云岩、凝块石白云岩夹砂屑白云岩、泥晶白云岩,纵向上常常形成米级—厘米级旋回;潟湖相主要由泥晶白云岩、含球粒/砂屑泥晶白云岩组成。相带时空分布表明灯影组在中上扬子地区总体呈现出进积的沉积趋势,内部包含2.5个层序,即三次进积(变浅)和两次退积(变深)旋回。【结论】由于灯影组在台地边缘—斜坡区域普遍遭到剥蚀,以及灯影组沉积期上扬子台地范围远超目前的板块边界,灯影组上部灯四段很少发现高能丘滩相带。在此背景下,局部地区(如松林—岩孔地区、中扬子台地周缘)灯影组中下部灯一段—灯二段(或蛤蟆井段、石板滩段)发育的丘滩相,是重要的有利储集相带。此外,处于海退体系域的灯二段中下部和灯四段上部(或相当层位)在中上扬子台地(或内缓坡)内部广泛发育微生物白云岩,也为储层发育有利相带。在中上扬子台地微生物白云岩广泛分布的背景下,进一步分析优质储层发育机理与分布规律才是找到油气接替区的关键。

准噶尔盆地沙湾凹陷二叠系上乌尔禾组流体相态及油气藏类型

准噶尔盆地腹部地区沙湾凹陷超深层蕴含丰富的油气资源。根据烃源岩热演化模拟实验分析了沙湾凹陷二叠系上乌尔禾组烃源岩生烃产物类型,结合地层流体高温高压物性实验数据,运用相图判别法和经验参数法对沙湾凹陷征10井地层流体相态进行深入研究。研究结果表明:①沙湾凹陷征10井上乌尔禾组油气主要来自于下乌尔禾组泥质烃源岩,其有机质类型为Ⅱ1型,镜质体反射率(Ro)为1.05%~1.46%,岩石热解峰温(T_(max))为433~446℃,处于成熟—高成熟演化阶段,目前处于生轻质油阶段。②上乌尔禾组地层流体成分表现为凝析气藏的流体组成,地层温度为166.0℃,介于临界温度和临界凝析温度之间,地层压力为155MPa,远高于露点压力,地-露压差大,表明地层条件下流体呈凝析气相特征,但地下油气相态与地表采出流体相态具有一定差异。相图判别法和经验参数法烃类流体相态分析结果均显示,征10井上乌尔禾组气藏为含大油环的凝析气藏。③沙湾凹陷上乌尔禾组具有优越的成藏条件,紧邻下乌尔禾组烃源岩,油气近源垂向输导,向局部隆起区运聚,巨厚的三叠系及上乌尔禾组中上部区域盖层起到重要的封盖作用,最终在局部隆起区形成岩性-构造凝析气藏。

准噶尔盆地阜康凹陷二叠系上乌尔禾组砂砾岩储层特征及发育模式

准噶尔盆地阜康凹陷二叠系上乌尔禾组砂砾岩具有较大的油气勘探潜力,目前存在的砂砾岩储层特征以及成储机制不清晰等问题,严重制约了对该类储层的勘探。利用显微薄片、扫描电镜、X射线衍射等对准噶尔盆地阜康凹陷上乌尔禾组砂砾岩储层特征、主控因素以及成储模式进行了系统研究。结果表明:上乌尔禾组砂砾岩具有“双填隙物”特征,砾石间主要被较粗的砂质组分填隙,胶结作用主要发生于砂质组分之间;砂砾岩孔隙度低,砾石中基本不发育孔隙,砂质填隙物中孔隙较发育,储集空间主要为晶间孔和次生溶孔;与储层形成有关的成岩演化现象主要发生在砾石之间的粗填隙物砂质组分中,主要为铝硅酸盐矿物的溶蚀作用,形成较多的溶蚀孔隙;河口坝、水下分流河道等高能沉积微相中储层更发育,储集空间主要与长石溶蚀有关,裂缝、不整合面是酸性流体运移的主要通道;早成岩期酸性流体主要为沿不整合面下渗的大气水,尤其是靠近北三台凸起的区域大气淡水溶蚀更为显著,中成岩期主要为有机酸溶蚀;砂砾岩中发育大气酸溶蚀型、有机酸溶蚀型和双源酸叠加溶蚀型等3类储层,不同类型储层分布决定了阜康凹陷上乌尔禾组砂砾岩油气藏的勘探方向,斜坡区、凹陷区的砂砾岩+断裂发育叠合区是阜康凹陷上乌尔禾组砂砾岩油气勘探的重点方向。

克拉玛依油田K82井区上乌尔禾组油气成藏特征研究

中拐凸起二叠系上乌尔禾组是继三叠系百口泉组之后发现的一个大型连续型砂砾岩油气藏群,但其北部区域油气成藏特征研究较少且成藏模式认识不清。笔者通过岩心观察、铸体薄片、测井和录井分析等资料,结合区域构造背景与沉积环境,对中拐凸起北部K82井区油气成藏特征进行综合分析,得出以下结论:K82井区主要发育扇三角洲平原和滨浅湖沉积亚相,大面积的分流河道砂砾岩、河道间及滨浅湖细砾沉积物构成良好的储盖组合,物性显示研究区上乌尔禾组为中-低孔低渗砂砾岩储层;以二叠系风城组为主的多套烃源岩为上乌尔禾组油气藏提供充足的油源供给;形成于华力西—燕山期的断裂和上下地层不整合面成为研究区上乌尔禾组油气疏导体系,油藏为下生上储断层-岩性型成藏模式。该结论为克拉玛依油田上乌尔禾组油气进一步勘探开发提供科学依据。

孔隙型致密砂岩气藏产能控制因素

为了探究天然裂缝欠发育致密砂岩气藏的产能主控因素,以四川盆地北部元坝地区上三叠统须家河组二段和川中东峰场地区须家河组五段气藏为研究对象,分析了二者的地质特征、钻井工艺和储层改造技术,明确了孔隙型致密砂岩气藏天然气产能主控因素。研究结果表明:①古、今构造高部位是油气运聚成藏的指向区,天然气富集程度较高,气井高产概率较大,而构造低部位气井生产效果较差;②储层物性越好,成藏过程中天然气富集程度越高,且生产过程中天然气流动能力较强,故优质储层发育段越厚,气井产量越高;③裂缝欠发育致密砂岩气藏需通过储层改造才能获产,加大改造规模对优质储层发育的钻井增产效果明显;④由于致密砂岩储层局部发育,水平井能够钻遇更多的优质储层,故较直井而言,提产效果明显;⑤由于钻井液中的重晶石会对物性差—中等的储层造成污染,进而影响产量,故致密砂岩气藏钻井过程中需加强储层保护。结论认为:①孔隙型致密砂岩气藏产能主要受古、今构造位置,优质储层发育程度,储层改造规模和井型等因素控制;②优质烃源岩发育区、正向构造区和相对优质储层发育区的叠合部位可优先考虑部署井位。

柴达木盆地干柴沟地区古近系下干柴沟组上段页岩层系优势岩相及其控储因素

柴达木盆地干柴沟地区页岩油勘探近年获得重要突破,研究高原咸化湖盆岩相与储层特征对甜点识别具有重要意义。通过岩心和薄片观察、全岩矿物组成和原位微量元素分布测试、大面积视域扫描拼接成像、高压压汞与氮气吸附实验以及一维核磁共振分析,判识了岩相类型,系统研究了页岩储集性和含油性差异,提出了优势岩相和控储主因。研究结果表明:研究区储层有块状灰云岩(碳酸盐矿物含量>70%)、层状灰云岩(碳酸盐矿物含量50%~70%)、纹层状混积岩(碳酸盐矿物含量10%~50%)和断续状水平层理混积岩(碳酸盐矿物含量10%~50%)4种岩相。块状灰云岩和层状灰云岩孔隙以晶间孔为主,储集空间大且连通性好,孔隙中含油指数高,为优势岩相;纹层状混积岩基质孔隙发育较差,纹层密集发育的混积岩渗透性较好;断续状水平层理混积岩孔、缝不发育,储集性较差。优势岩相成储过程受3方面因素控制:①碳酸盐矿物组构决定宏孔发育程度;②陆源长英质细粒沉积物和黏土矿物含量控制比表面吸附性;③纹层发育程度最终改善储层渗透性能。

大倾角坝基上混凝土面板堆石坝滑移变形特征研究

抽水蓄能电站是实现“双碳”战略目标的重要举措,混凝土面板堆石坝作为抽水蓄能电站上水库大坝的优选坝型之一,往往坝基顺河向坡度较陡,坝体容易产生顺坡向滑移变形,坝坡抗滑稳定性较差,危及抽水蓄能电站上水库大坝运行安全。因此,建立大倾角坝基上混凝土面板堆石坝数值模型,研究大倾角坝基上混凝土面板堆石坝滑移变形的规律,揭示大倾角坝基上混凝土面板堆石坝产生滑移变形的机制,提出减小其滑移变形的物理力学和几何结构设计措施。研究结果表明,较大下滑力和较小抗滑力是大倾角坝基上混凝土面板堆石坝容易产生滑移变形的根本原因;坝基倾角越大,重力沿坡面分力越大,坝体滑移变形越大,坝坡安全系数越小(当坝基倾角大于15°时,坝坡安全系数小于规范要求的最小值1.5);增设压坡能够有效减小坝体滑移变形,显著提高坝坡抗滑稳定性,压坡平台高度越高、宽度越宽和黏聚力、内摩擦角越大,坝体滑移变形越小,坝坡安全系数越大,推荐压坡平台高度和宽度取1/2倍主坝最大坝高,压坡密实度(黏聚力和内摩擦角)与主坝堆石密实度相当。

玛湖凹陷西南地区二叠系油气藏相态类型及凝析油气地球化学特征

利用PVT相态模拟软件恢复了玛湖凹陷西南地区二叠系油气藏原始储层流体组分,综合经验统计法与相图判别法对已发现油气藏的相态类型进行了判识,通过油气地球化学分析方法,明确了不同相态类型油气的来源及成因。研究结果表明:①玛湖凹陷西南地区二叠系油气藏主要分布在风城组和上乌尔禾组,油气藏的相态类型多样,以黑油油藏为主,挥发性油藏和凝析气藏(带油环的凝析气藏和近临界态凝析气藏)次之,凝析气藏主要发育在风城组,储层流体组分以甲烷为主,C7+烃类含量较少。②研究区二叠系不同相态原油的母质类型为偏腐泥型,均为风城组烃源岩成熟阶段的产物,凝析油的成熟度略高于其他相态类型原油,比其他相态类型原油物性更好,具有低黏度、低凝固点和低含蜡量的特点。③研究区二叠系天然气的组分以烃类气为主,其中甲烷的平均摩尔分数为86.21%,非烃类气含量低,成熟度差异较大,R_(o)为0.52%~2.39%;主要为风城组腐泥型烃源岩的产物;上乌尔禾组油气藏中天然气成熟度更高,平均R_(o)值为1.99%,风城组油气藏和凝析气藏中的天然气成熟度较低,平均R_(o)值分别为0.71%和0.85%。④受风城组烃源岩的热演化程度和储层物性影响,研究区二叠系发育2套含油气系统,分别为风城组的源内自生自储型油气藏和上乌尔禾组的源外下生上储型油气藏。