塔里木盆地麦盖提斜坡罗探1井奥陶系断控岩溶新类型油气藏勘探突破及意义

塔里木盆地麦盖提斜坡罗探1井在奥陶系碳酸盐岩获得勘探新突破,是麦盖提斜坡奥陶系断控岩溶新类型油气藏的首次勘探突破,标志着斜坡区发现一个重要的战略接替领域。结合区域钻井、测井、地震等资料,开展罗探1等井分析化验资料的综合分析,对麦盖提斜坡奥陶系碳酸盐岩的成藏条件进行再认识。麦盖提斜坡奥陶系碳酸盐岩断控岩溶储层的形成主要与走滑断裂活动相关,是麦盖提斜坡三类主要成储模式之一;麦盖提斜坡目前已发现油气均来自寒武系玉尔吐斯组烃源岩,基底古构造控制了下寒武统的沉积和烃源岩的分布;斜坡区存在加里东期、海西期—印支期和喜马拉雅期3期油气充注成藏过程,烃源岩、古构造演化及通源断裂控制油气复式聚集成藏,断裂活动期次、断穿层系决定了油气富集层系与油气藏性质。麦盖提斜坡奥陶系走滑断裂十分发育,延伸距离累计可达1000km以上,控制了断控岩溶储层和油气藏的分布,平面上具有明显的分区特征,资源规模大、可部署性强,展示出巨大的勘探潜力,是塔西南地区规模油气勘探发现和战略接替的重要现实领域。

塔西南山前地区柯克亚周缘叶探1井油气勘探重大突破及意义

塔西南山前西昆仑冲断带柯东构造带叶探1井在二叠系普斯格组获得重大突破,标志着塔西南山前地区发现一个重要的勘探接替层系。结合区域地质资料,根据野外露头、钻井、地震等综合研究,对柯克亚周缘二叠系普斯格组的成藏条件进行再认识。研究认为,研究区内二叠系普斯格组发育陆相湖泊—三角洲沉积体系,上段发育半深湖—深湖相烃源岩,面积1.0×10^(4)km^(2),厚度最大达到800m,集中段有机质丰度为0.92%~1.16%,以菌藻类生源为主,有机质类型主要为Ⅱ型,有机质丰度高;普斯格组下段发育三角洲前缘、滨浅湖沙坝优质砂岩储层,砂体厚度为42.5~63m,砂地比为27%~47%,是一套分布较广的区域性储层,与普斯格组上段泥岩组成优质储盖组合;柯克亚周缘发育印支期、喜马拉雅期两期构造变形,古生界叠瓦冲断、强烈逆掩叠置,圈闭成排成带,喜马拉雅期进一步挤压抬升改造,局部复杂化,形成的叠瓦冲断带为勘探有利区。根据普斯格组天然气干燥系数分析,折算Ro为1.31%~1.42%,与下盘烃源岩成熟度相当,表明油气来自下盘逆掩叠置烃源岩,经历早油晚气的成藏过程,成藏具有“逆掩叠置下盘供烃、下生上储、断裂输导”的特点。综合分析认为该地区二叠系普斯格组圈闭成排成带分布,已发现圈闭9个,面积301km^(2),天然气资源量约为2930×10^(8)m^(3),凝析油资源量约为2×10^(8)t,具有较好的勘探前景。

塔里木盆地超深层走滑断控油气藏研究进展与趋势

在塔里木盆地开辟了超深层走滑断控油气藏勘探开发领域,但断控油气藏极为复杂,难以效益开发,亟需加强油气藏基础地质研究。走滑断控油气藏具有非均质性强、储集层与流体分布复杂、油气产量变化大及采收率低的共性,不同地区走滑断控油气藏的断裂、储集层、成藏与流体存在较大的差异,面临一系列勘探开发难题。建立了差异成因的走滑断裂破碎带及其控储模型,揭示了沿走滑断裂带“相-断-溶”三元复合控储、连片差异规模发育的成储机制;构建了“源-断-储-盖”四元耦合成藏、“小藏大田”的走滑断控油藏模型,揭示了超深层走滑断控油藏的形成与保存机理。突破了克拉通盆地弱走滑断裂难以形成走滑断控大规模储集层与大油气田的理论认识局限,明确了克拉通盆地走滑断裂系统大规模发育的成因机制、走滑断裂破碎带差异成储成藏机理与油气富集规律。

塔里木盆地下寒武统玉尔吐斯组沉积特征及有机质富集模式

塔里木盆地是我国西北部规模最大的含油气盆地,盆内下寒武统玉尔吐斯组为一套富含有机质的泥岩和碳酸盐岩沉积,构成盆内最重要的烃源岩之一。本文基于露头、钻测井、地震、岩心岩屑等资料综合分析,简述玉尔吐斯组的岩相、沉积相和古地理分布特征,揭示富有机质沉积的分布及其控制因素。玉尔吐斯组以古暴露面为界可划分为三个层序,总体形成于被动陆缘混积的缓坡陆棚环境。可识别出10种岩相和7个岩相组合以及4种主要的沉积相类型;沉积古地理编图揭示由南西向北东方向依次展布混积潮坪、浅水内陆棚、深水外陆棚到深水盆地的沉积相带分布。富有机质沉积主要发育于深水外陆棚相带,以发育具有异常高的TOC值和丰度极高的微量元素的黑色泥页岩为特征。有机质的富集与高的古生产力和保存条件有关。热液活动带来了丰富的营养元素;上升洋流促进营养元素与正常海水的混合和扩散,形成富营养化的表层水;深水外陆棚区缺氧条件有利于有机质的保存富集。

考虑流固耦合作用的超深缝洞型碳酸盐岩储层连通性表征:以塔里木盆地富满油田满深区块为例

超深缝洞型碳酸盐岩储层埋藏深,压力高,储集空间复杂多样,流体流动渗流、自由流并存,储层连通性表征困难,而储层连通性的精确表征是寻找油气富集区、储量精确预测、井网优化和井位部署的关键所在。为此,以塔里木盆地富满油田超深缝洞型碳酸盐岩储层为研究对象,考虑流固耦合作用,建立缝洞型储层应力渗流自由流耦合数学模型,采用岩石渗透率演化试验和数值模拟相结合的方法,系统开展了超深缝洞型碳酸盐岩储层连通性研究。研究结果表明:随着围压、轴压的增加,岩石渗透率逐渐降低,岩石连通性减弱;低围压条件下,轴压对岩石渗透能力和连通性影响显著;随着裂缝开度和倾角的增加,储层连通性逐渐增强;裂缝连通溶洞能够显著改善储层连通性;随着溶洞体积的增加,流体流速与等效渗透率增大,显著改善储层连通性;而单纯增加溶洞数量,会减弱自由流(Stokes)效应,改善储层连通性效果不明显。研究成果可为深层碳酸盐岩储层精确评价,提高油气高效勘探开发效果提供技术支撑。

塔里木盆地F_(Ⅰ)17走滑断裂北段奥陶纪差异变形机制

为明确走滑断裂对碳酸盐岩油气成藏的作用,基于三维地震资料,分析F_(Ⅰ)17走滑断裂北段的发育特征与构造变形过程,结合地质建模,开展走滑断裂形成及演化的砂箱物理模拟。研究区内的F_(Ⅰ)17走滑断裂可分为南、北2段,南段为近北东—南西走向,主要发育雁列式断裂,奥陶纪一间房组整体以隆升为主,垂向上的变形幅度较大;北段为近北北东—南南西走向,主要发育线性走滑断裂,在奥陶纪一间房组变形微弱,局部地区可见地层微幅度下掉。砂箱物理模拟实验结果表明:线性走滑断裂的主位移带上会形成一系列隆起带,而走向偏转的走滑断裂在南段形成一系列隆起带,在北段则表现为地层下掉;在同一应力条件下,走滑断裂初始走向的差异会导致断裂受力发生变化,进而影响其演化过程。F_(Ⅰ)17走滑断裂南段的压隆段应力更加集中,局部裂缝和溶洞更发育,油气更为富集,油气勘探效果优于北段。

超深层断控碳酸盐岩油藏地质力学建模及其在开发中的应用

为提高超深断控碳酸盐岩油藏的开发效益,通过开展大尺寸岩样力学实验,揭示高角度—近直立断裂面变形与连通机理;基于高压注水提采的力学与流动耦合原理,通过地质力学建模,明确了断控碳酸盐岩油藏现今地应力场和断裂活动性分布规律;发现不同方位的断裂活动性以及不同部位的缝洞体连通性有明显差异,进而分析了不同井眼轨迹的开发效果,提出了地质工程一体化工作方法,科学指导井眼轨迹设计和注水方案优化。结果表明:①走滑断裂变形中的大尺度破碎体和高角度裂缝系统是影响储层品质的关键因素,高压注水一方面能够激活先存裂缝,一方面还能在先存裂缝基础上发生延伸扩展,甚至可以产生新的裂缝,促进了断控缝洞体在纵横向上的互相连通;②高压注水过程中断裂体内部发生力学与流动之间的耦合变化,渗流环境得到改善,通过循环举升,从而提高油气采收率;③根据断裂体形态、产状以及断裂面动态剪切变形连通性,可优选定向井最佳井点和井眼轨迹,并优化注水方案;④塔里木盆地断控油藏试验区通过高压注水,采收率提高5个百分点,该方法为超深断控型油藏高效开发提供了较好的理论依据和技术支撑。

基于空间约束的裂缝密度反演方法

常规利用法向弱度、切向弱度间接预测裂缝密度的方法存在较大误差。为此,提出一种针对碳酸盐岩(HTI介质)裂缝密度直接反演的方法。在振幅随炮检距和方位角变化(AVAZ)反演的基础上,引入反距离加权插值法(IDW)以优化传统各向异性全变分(ATV)多道反演的横向差分算子,充分利用相邻多个地震道之间的相关性,提高反演算法的横向连续性和稳定性;将横向约束、低频约束及稀疏约束共同用于构建反演目标函数,采用交替方向乘子法(ADMM)优化求解。利用裂缝密度直接反演和反距离加权插值的优点,先对Marmousi II模型测试,验证了该方法的有效性和抗噪性;再将该方法应用于塔里木盆地YM区块的实际数据,验证了该方法的可行性。该方法对裂缝密度预测结果更准确、可靠,可在类似地区推广应用。

塔里木盆地富满地区吐木休克组烃源岩有机地球化学特征及其油气勘探意义

塔里木盆地富满地区吐木休克组烃源岩作为近期勘探新发现的烃源岩层,具有良好的油气勘探前景,因此亟需对其进一步开展烃源岩地球化学评价,以便更好地指导勘探。通过总有机碳含量、岩石热解测定以及饱和烃、芳烃色谱-质谱(GC-MS)等分析方法对富满地区吐木休克组黑色泥岩及灰色泥岩岩屑样品进行了定性和定量表征。研究结果表明,吐木休克组烃源岩有机质丰度高,均值为3.4%,氢指数(HI)最高可达到590 mg/g,干酪根类型以Ⅱ型干酪根为主,为一套好-极好的优质烃源岩。从分子地球化学特征来看,烃源岩形成于弱还原偏咸水的海相沉积环境中,以低等水生藻类作为主要成烃生物。基于热解峰温T_(max)及饱和烃生物标志化合物和芳香烃热成熟度参数,吐木休克组烃源岩总体处于低成熟-中等成熟阶段,具有良好的生烃潜力。富满地区东南部区域作为环满坳陷西部斜坡区,可能分布有更厚、更优的吐木休克组烃源岩,且烃源岩可能已达到更高的热演化程度,其对奥陶系油气资源的贡献不可忽视。

塔里木盆地库车坳陷克探1井重大突破与勘探意义

塔里木盆地库车坳陷克拉苏构造带克探1井在白垩系亚格列木组下段砂砾岩获得重大突破,实现了“克拉之下找克拉”的构想,对白垩系深层勘探具有重要意义。通过对克探1井成藏条件、储层特征、构造模型的深入研究,明确了克拉苏构造带侏罗系—三叠系供烃、白垩系亚格列木组裂缝型砂砾岩成储、上覆白垩系舒善河组泥岩成盖的生储盖组合,并建立了“下生上储、垂向输导、立体成藏”新模式。克探1井的成功钻探,证实了克拉苏构造带白垩系巴什基奇克组之下仍具备优越的储盖组合,并且越向深层靠近烃源岩,成藏条件越有利。同时亚格列木组断背斜圈闭成排成带,展示出巨大的勘探潜力,可形成新的天然气战略接替区。

塔西南山前地区恰探1井石炭系—二叠系重大突破与勘探前景

塔西南山前地区西天山冲断带乌恰构造带恰探1井在石炭系—二叠系碳酸盐岩获得重大突破,标志着塔西南山前地区发现一个重要的勘探接替层系。结合区域地质资料,根据野外露头、钻井、地震等研究,以及恰探1井、昆探1井等分析化验资料的综合分析,对塔西南山前地区石炭系—二叠系的成藏条件进行再认识。研究认为,塔西南山前地区晚石炭世—早二叠世发育宽缓的“马蹄形”台缘带,形成了呈带分布的高能滩有利沉积相带,区内二叠系棋盘组发育海湾潟湖相烃源岩,厚度最大达到500m,有机质类型为Ⅰ—Ⅱ型,有机质丰度高;受沉积相带和岩溶作用双重控制,在晚石炭世—早二叠世形成裂缝—孔洞型碳酸盐岩储层,与上覆二叠系棋盘组厚层泥岩构成有利生储盖组合,进而建立了“下生上储、断裂输导、近源成藏”的油气成藏新模式。综合分析认为,该地区石炭系—二叠系断背斜圈闭成排成带分布,具有近源成藏优势,评价优选出了叶探1井、阿北1JS井等多个有利勘探目标方向,具有良好的勘探前景,可成为规模天然气勘探发现的重要接替领域。

塔里木盆地库车南斜坡托探1井油气勘探重大突破及意义

塔里木盆地库车坳陷南部斜坡带温宿—西秋地区托探1井在寒武系潜山白云岩储层获得重大突破,对库车南斜坡迎烃面多目的层潜山勘探具有重要意义。受制于地质条件复杂,该地区的油气富集规律认识不清、地质结构落实及圈闭刻画难度大,制约了潜山油气勘探。基于构造特征、潜山地层分布、生—储—盖组合、油气输导体系及勘探实践的系统分析,探讨了潜山油气成藏新模式。温宿—西秋地区古生界构造为受前冲断裂沙井子—西秋断裂和反冲断裂乌什南断裂控制的背冲式构造,F1和F2两条次级反冲断裂使得背冲构造复杂化,形成3排古生界潜山构造,每排构造自近断层到远断层区古生界潜山地层由老变新。其中寒武系潜山地层分布范围最广、呈北东东向大面积展布,潜山储层以局限台地颗粒滩相白云岩为主,受多期构造活动、长时期暴露溶蚀叠加改造,裂缝—孔洞型白云岩优质储层规模连片发育。潜山油气藏表现为三叠系黄山街组和侏罗系恰克马克组泥岩联合供烃、裂缝—孔洞型白云岩成储、上覆古近系膏盐岩封盖的生—储—盖组合样式;成藏具有“库车油气远源供烃、不整合面输导、迎烃面构造富集”的特征,主要成藏期在喜马拉雅晚期(4—1Ma)。托探1井的成功钻探,证实了温宿—西秋地区多排多类型潜山巨大的勘探潜力,重新刻画潜山圈闭面积近840km2、石油资源量约2.0×10^(8)t、天然气资源量约590×10^(8)m^(3),有望成为油气增储上产新的战略接替区。

国债期货在产品净值管理中的作用探析——基于对冲策略的视角

基于对冲策略视角,本文探讨了国债期货在资产管理产品净值管理中的应用,通过设计静态对冲和择时动态对冲两种策略,对比在不同策略及对冲参数下信用债组合的绩效表现。实证结果表明,在资产管理产品中加入国债期货进行择时动态对冲,不仅能显著降低产品的净值波动、平滑业绩曲线,还能有效增厚收益。研究结论为产品净值管理提供了启发性思路和实践参考。

塔里木盆地克拉苏构造带超深复杂气田井全生命周期地质工程一体化实践

克拉苏构造带天然气总资源量丰富,是塔里木盆地天然气增储上产的主力区块。受强烈造山运动的影响,克拉苏构造带地质工程条件极为复杂,呈现出"一深(垂深7000~8000m)、三高(高温130~190℃、高压116~136MPa、高地应力130~180MPa)、两低(孔隙度4%~8%、渗透率0.01~0.1mD)、两厚(巨厚砾石层5500m、巨厚盐膏层4500m)、一陡(地层倾角87°)"的特征,导致安全、效益勘探开发难度巨大。为了实现克拉苏构造带的优快钻井与改造上产,立足于实践地质工程一体化,建设多学科一体化研究团队,创新一体化工作模式,开展了超深复杂气田提速、提产、提质攻关研究。采用关键层段精准预测、个性化钻头设计、油基钻井液体系研发等手段相结合的方法,实现了全井段安全快速钻井;根据甜点预测、裂缝评价与分类,建立了基于天然裂缝可压裂性的改造提产优选策略;结合地层特点、流体性质、工况条件等因素进行系统屏障设计,确保了井筒质量。经过地质工程一体化实践的不断发展完善,超深井钻井周期从"十二五"期间的336天降至2017年的277天,单井平均增产4~5倍、井完整性完好率不断提升,为克拉苏超深复杂气田井安全效益开发提供了有力的技术保障。

基于地质工程一体化的超深井提速提产——以塔里木盆地库车坳陷为例

塔里木盆地库车坳陷油气资源丰富,勘探潜力大,但地质背景复杂,目的层埋深普遍大于6000 m,甚至超过8000 m,油气勘探开发难度大。针对库车坳陷超深井地质工程特点及现存问题,基于地质工程一体化理念,提出了解决思路,并介绍了塔里木油田首口盐层下部大斜度井的成功实践。研究及实践表明,地质力学研究有利于减少钻井复杂事故并提高机械钻速,助力有利储集层优选和改造方案优化,支持钻井提速和改造提产;地质工程一体化是复杂油气藏高效开发的必然选择,需要充分发挥多学科协同工作的优势,且贯穿于各井全生命周期,以产生最大的效益,实现从井位部署、钻井工程、完井改造到采油气工程的整体进步,从而助力大油气田建设。

Palaeogeomorphology and its control on the development of sequence stratigraphy and depositional systems of the Early Silurian in the Tarim Basin

The Silurian in the Tarim Basin was deposited on the basement deformed by the Caledonian tectonic movements at the end of the Late Ordovician. The development and distribution of sedimentary sequences of the Early Silurian have been clearly controlled by the palaeogeomorphology of the Late Ordovician. Based on unconformity characteristics and distribution of erosion, several zones can be differentiated including a high uplifted erosion zone, a transitional slope zone and a depression zone. The central and west Tabei Uplift zones show high angular unconformity and intense erosion. The Tarim Basin in the late Ordovician shows characteristics of higher in the west, lower in the east while higher in the south, lower in the north. The Early Silurian mainly developed transgressive and highstand systems tracts on the whole, while the lowstand systems tract only developed partly below the slope break. The palaeogeomorphology controlled the elastic source supply and deposit distribution. Braided delta system and tidal flat-estuary system were deposited. The duration of uplifting of the Tazhong paleo- uplift was longer than that of the Tabei paleo-uplift, and deposition was later. This led to the lower and middle members of the Kepingtage Formation missing in that area. As a large-scale transgression occurred during the deposition period of the upper member of the Kepingtage Formation, sediment from the west of the basin was transported and deposited by tides and waves, forming tidal-marine debris systems above the uplift. Proximal alluvial fan and fan delta coarse elastic deposits developed in proximal uplift zone in the east and southeast of the basin, and braided delta put forward to the transitional zone between the edge of uplift and the sea. Large-scale tidal channel, sub-distributary channel and mouth bar of the delta front can form favorable reservoirs, and they are primary targets for oil and gas exploration. This research on sequence-depositional systems development and distribution controlled by palaeogeomorphology is significant in guiding the prediction of reservoir sandstones.

Paleostructural geomorphology of the Paleozoic central uplift belt and its constraint on the development of depositional facies in the Tarim Basin

Inclined eastward and consisting of the Hetianhe, Hetianhedong, Tazhong paleouplifts and Bachu paleoslope, the central paleouplift belt in the Tarim Basin was a large composite paleouplift and paleoslope belt with complicated palaeogeomorphic features during the Middle to early Late Ordovician. A number of paleostructural geomorphic elements have been identified in the paleouplift belt and surrounding areas, such as the high uplift belts, the faulted uplift platforms, the marginal slopes and slope break zones flanking the paleouplift belt, the surrounding shelf slopes or low relief ramps, the shelf slope break zones and deep basin plains. They exerted great influence on the development of paleogeography of the basin. The marginal slopes and slope break zones flanking the uplift belt constrained the formation and deposition of the high-energy facies including reefal and shoal deposits during the Late Ordovician, which comprise the major reservoirs of the Lower Paleozoic in the basin. Toward the end of the Ordovician, the Tazhong paleouplift hinged westward and became a westward-dipped nose as the southeastern margin of the basin was strongly compressed and uplifted. The tectono-paleogeomorphic framework of the central northern basin during the Early Silurian and the Late Devonian to Early Carboniferous changed remarkably in topography from the initial low in east and high in west to high in northeast and low in southwest. The major paleogeomorphic elements developed in these periods included the strong eroded uplift high, the uplift marginal slope, the gentle ramp of the depression margin and the depression belt. The sandstones of the lowstand and the early transgressive systems tracts were deposited along the uplift marginal slopes and the gentle ramps of the depressions comprise the prolific reservoirs in the basin. The study indicates that the distribution patterns of the unconformities within the basin are closely related to the paleogeomorphic features and evolution of the paleouplift belt. From the high uplift belt to the depression, we found the composed unconformity belts at the high uplift, the truncated and onlap triangular unconformity belts along the uplift marginal slopes, the minor angular unconformity or discontinuity belts along the transitional zones from the uplift marginal slopes to depression and the conformity belt in the central depression. The truncated and the onlap triangular unconformity belts are the favorable zones for the formation of stratigraphic trap reservoirs.

The U-Pb chronologic evidence and sedimentary responses of Silurian tectonic activities at northeastern margin of Tarim Basin

U-Pb ages of Devonian detrital zircons from Tabei Uplift have been determined through LA-ICP-MS test technology.The results revealed that most zircon ages concentrate on 460-414 Ma,especially around 436-423 Ma,indicating possible occurrences of strong tectonic events at the northern margin of Tarim Basin during that period.Combined with previous researches on the basin marginal orogenic belts,intense tectonic activities developed at the northeast margin of Tarim Basin and its obvious sedimentary responses in basin during the end of Ordovician to Early-Middle Silurian are discussed.These include(1) several unconformities within the Late Ordovician-Silurian,showing truncation,erosion,and onlap characteristics,which reflected the local uplift formed during the surrounding extrusion process;(2) the Silurian fluvial delta system from northeast to southwest in Keping,Yingmaili,Hade,and Caohu areas,which reflected the partial uplift at the northeast margin and provided clastic supply to basin;and(3) as indicated by heavy mineral analysis,the Silurian sediments came mainly from the recycles of orogenic belts provenance,which indicated the compress tectonic setting.In addition,a wide range of red mudstone layer distribution in the upper part of the Silurian may be closely related to the surrounding tectonic uplift and the rapid decline of sea levels.

Petroleum geological characteristics of Kela-2 gas field

The Kela-2 gas field is located in the center ofKelasu structural belt in Kuqa Depression. This trap is oneof a series of traps in the folded belts which are distributed ina string of pearls in the dual structure. The primary gas-bearing layers are sandstone of Lower Cretaceous K1bswhile the secondary layers are dolomite member and gluten-ite member of Lower Tertiary E1-2km and sandstone ofLower Cretaceous K1b. The main component of natural gasis methane whose content is higher than 97%. It is charac-terized by dry gas whose source rock is Jurassic coal meas-ure. The Kela-2 structural trap was formed during the Xiyuperiod and then became a reservoir in the late time. The res-ervoir formed late and the thick seal rock of Lower Tertiarygipsmantle are the avail reason why the giant Kela-2 gasfield has been well kept. The abnormal high pressure of theKela-2 gas field results from the strong structural compres-sion in the northern part during the Xiyu period.