Fractionation characteristics of magnesium isotope in the ancient weathering crust

Weathering has always been a concerned around the world,as the first and most important step in the global cycle of elements,which leads to the fractionation of isotopes on the scale of geological age.The Middle Ordovician Majiagou Formation in Daniudi area of the Ordos Basin had experienced weathering for>130 Myr.Through thin section observation,major and trace element analysis,carbon,oxygen,and magnesium isotopes composition analysis,the dolomitization modes and weathering of ancient dolo-mite in Daniudi area were analyzed in detail.The results showed that the Sabkha and brine-reflux dolomitization modes had developed,and the Mg isotopes in different layers of the karst crust were fractionated by various factors.The vertical vadose zone was affected by weathering,the Mg isotope of dolomite(δ^(26)Mgdol)showed a downward decreasing trend;the horizontal underflow zone was controlled by diagenesis and formation fluid,δ^(26)Mgdol showed a vertical invariance and negative;the main reason for Mg isotope fractionation in the deep slow-flow zone was the brine-reflux dolomitization mode during early burial period,which showed a vertical downward increase.Finally,the Mg isotope characteristic data of the ancient weathering crust were provided and the process of Mg isotope frac-tionationinthekarstcrust was explained.

四川盆地及周缘寒武系沧浪铺组沉积充填过程及油气地质意义

综合利用野外露头、钻井岩心分析、测录井及地震剖面等资料,对四川盆地及周缘寒武系沧浪铺组沉积充填过程开展了系统研究。研究结果表明:(1)四川盆地寒武系沧一段的沉积构造格局整体表现为“一隆、四洼、两高带”,岩性以碳酸盐岩为主;沧二段地层厚度差异性较小,区域地貌趋于均一,岩性以碎屑岩为主。(2)研究区寒武系沧一段沉积时期,平面上具有东西分异的沉积特征,主要受德阳—安岳古裂陷槽隔挡作用影响。裂陷槽西侧靠近物源区,主要发育混积潮坪沉积,裂陷槽东侧则广泛发育清水碳酸盐岩沉积;沧二段沉积时期,因裂陷槽隔挡作用减弱,全盆陆源碎屑沉积大幅增加,整体上以碎屑岩浅水陆棚沉积为主。(3)研究区寒武系沧一段优质白云岩储层以残余鲕粒云岩、砂屑云岩和粉晶云岩为主,宏观上颗粒滩的分布主要受到水下低隆和台洼边缘相对高部位控制,微观上储集空间主要受白云石化作用及溶蚀改造作用控制,发育粒内溶孔、粒间溶孔、晶间溶孔和晶间孔等孔隙类型,紧邻下伏筇竹寺组优质烃源岩,具有近源充注成藏的天然优势。

鄂尔多斯盆地奥陶系盐下颗粒滩沉积模式及储层成因

综合岩心观察、薄片鉴定、物性分析及地球化学特征等资料,对鄂尔多斯盆地奥陶系盐下颗粒滩相白云岩储层的沉积特征、储层成因与分布开展系统研究。结果表明:(1)颗粒滩主要由粉—细晶白云岩、砂屑白云岩和鲕粒云岩组成;(2)颗粒滩分布受"隆拗相间"的古沉积格局控制,主要分布在中央古隆起和榆林—横山隆起带上,次为乌审旗—定边拗陷凸起上;(3)微区多参数分析表明,颗粒滩相白云岩储层经受了准同生溶蚀作用、近地表埋藏期膏盐岩充填作用、晚表生溶蚀作用和晚期方解石、石英和白云石矿物充填作用等多种因素的影响。根据储层成因分析认为,中央古隆起、乌审旗—定边拗陷凸起带与位于盐岩边界线外侧的榆林—横山隆起带颗粒滩是盆地内盐下有利白云岩储集层的发育区。

“白云石(岩)问题”与湖相白云岩研究

近30年来,微生物白云石模式推动"白云石(岩)问题"前进了一大步,大量的实验和实例证明微生物(硫酸盐还原菌、产甲烷古菌、中度嗜盐有氧细菌等)的代谢活动对于促进白云石低温沉淀起了关键作用。微生物白云石特殊的微结构、微形貌和稳定同位素特征是其主要识别标志。然而,该模式在微生物成岩规模、诱导机制、是否存在纳米细菌化石以及现代微生物白云石成因模式能否用来解释古代白云石的成因等方面仍存在较大争议。我国古代湖相白云岩因其时空分布广、成因机制多样等特点可为"白云石问题"的研究提供良好的条件。

川东—渝北黄龙组碳酸盐岩储层的成岩系统

通过对川东—渝北地区石炭系黄龙组储层的成岩作用方式、成岩演化序列和相对应的地质作用产物、组合及稀土元素和碳、氧、锶稳定同位素地球化学特征的综合研究,按"水文体制"将黄龙组划分为不同成岩阶段的孔隙水、压实卤水、大气水和温压水4个成岩系统。各成岩系统流体来源、性质、水-岩石相互作用过程及其对储层的影响各不相同,其中与储层发育密切相关的成岩体系和成岩方式主要为:早成岩阶段压实卤水成岩系统的埋藏白云岩化作用;古表生期大气水成岩系统的岩溶作用;再埋藏成岩阶段温压水成岩系统的深部溶蚀和构造破裂作用。根据成岩系统和水-岩石相互作用序列与储层演化在时间-空间上的耦合匹配关系,颗粒滩沉积微相控制了储层的区域分布位置;早成岩阶段埋藏白云岩化形成了储层发育基础;古表生期大气水溶蚀作用扩大了储层分布范围、发育规模和提高了储层质量;温压水条件下的深部溶蚀和构造破裂作用进一步改善了储层的孔渗性。

康滇古陆东侧上奥陶统五峰组-下志留统龙马溪组富有机质白云石特征及其地质意义

本次对康滇古陆东侧五峰组-龙马溪组页岩中富有机质白云石进行了矿物学、古生物学和地球化学分析测试,以探讨其形成环境和地质意义。结果表明,该富有机质白云石的形成环境为深水陆棚环境,即其水体呈次还原硫化、古生产力高、缺乏陆源碎屑输入环境。通过探讨该富有机质白云石成因及与有机质富集的关系,认为富有机质白云石的存在可能与微生物的繁盛紧密相关,指示这为富有机质页岩形成的有利环境,白云石的分布范围可能为盆山过渡带页岩气勘探有利区域。

奥陶系马五5亚段有效储层主控因素分析——以苏里格气田Sd39-61井区为例

马五5亚段作为苏里格气田开发的新层系,其地质认识尚显薄弱,为此,特在Sd39-61井区利用单井岩芯观察与描述,结合单井岩芯的分析化验资料对马五5亚段储层沉积、成岩、形成机理及主控因素的研究.研究认为：Sd39-61井区马五5亚段为潮坪沉积相区,粒屑滩相和云坪相为该区有利沉积相带;研究区主要的白云岩化机理为准同生蒸发泵白云岩化、渗透回流白云岩化及埋藏白云岩化;沉积微相决定了气藏的分布,马五5亚段白云岩随着古地形的隆升、发育程度增加,准同生白云岩化未形成有利孔隙、埋藏形成了马五5储层重要的储集空间“晶间孔”,古残丘不仅是上组合气藏有利分布带也是中组合马五5亚段气藏有利分布区;马五5亚段上覆风化壳残余厚度在15～25m时最有利成藏;在构造鼻隆和鼻翼部位利于气体富集.

大牛地气田马五_5白云岩储层特征及分布规律研究

以沉积岩石学、油气地球化学、碳酸盐岩储层地质学为理论基础,通过大量钻井岩心观察、测井分析、薄片和扫描电镜鉴定、物性及压汞分析,研究了大牛地气田马五_5亚段白云岩储层特征及分布规律。结果表明,马五_5亚段储层岩石类型以粉–细晶白云岩为主;储集空间以晶间孔隙型为主,裂缝–孔隙型次之;平均孔隙度为5.41%,平均渗透率为1.05×10^(-3)μm^2,属于低孔低渗储层。马五_5白云岩是表生期向下渗流的岩溶水与地层本身沉积的泥晶灰岩交代作用形成,其分布与奥陶系风化壳岩溶古地貌密切相关,主要分布在大牛地气田西部、北部的侵蚀高地以及东部、南部的侵蚀沟槽区,中部的斜坡台丘及斜坡区白云岩欠发育。

南山坪古油藏灯影组白云岩储层成岩作用研究

南山坪古油藏储层是华南上震旦统灯影组白云岩储层的典型代表。通过对该储层及储层内残留沥青的野外剖面和显微镜下观察分析,研究了该储层的储集性特征和成岩演化过程。根据储层矿物的结构成分和孔隙的形成及演化,将该储层的演化过程划分为沉积阶段、第一次浅埋阶段、表生阶段、第二次浅埋阶段、深埋阶段、构造运动阶段六个阶段。南山坪灯影组储层为台地边缘浅滩和滩间相沉积,沉积形成的细粉晶白云岩、泥晶白云岩及鲕粒白云岩是后期成岩改造的物质基础。白云石化作用和表生岩溶作用是主要的建设性成岩作用,形成了油气储存的主要空间。

碳酸盐台内斜坡认识突破与重大发现——以川中地区中二叠统茅口组二段气藏勘探为例

目前川中古隆起规模性勘探发现主要集中在深部震旦系—寒武系的高能滩相,中部二叠系处于台内斜坡相,以低能环境为主,勘探未受重视。为了进一步落实川中地区中二叠统气藏富集规律,通过岩心描述、薄片分析、U—Pb测年与印模法古地貌恢复等手段,开展岩相古地理、储层成因及成储模式与气藏特征分析,对全盆地茅口组二段(茅二段)进行了重新认识。结果表明:(1)四川盆地茅二段发育南带、中带与北带3个北西向古地貌高带,川中地区处于南部古地貌高带中南部,发育规模滩体;(2)茅二段古地貌高带控制了沉积期滩体分布以及准同生期的岩溶、白云岩化作用,据此构建了川中地区茅二段白云岩储层发育模式,认为川中地区茅二段发育大面积优质白云岩储层;(3)创新建立茅二段薄层白云岩地震预测技术,古地貌高带控制了茅二段优质白云岩储层分布与气藏的高产富集。新认识带来勘探领域新突破,指导部署的潼深4井等5口井试气获超百万立方米高产,实现了四川盆地茅二段台内天然气勘探的重大突破,提交探明储量超千亿立方米。目前,川中地区茅二段气藏已成为“十四五”期间提交天然气探明储量的重要领域。

超深古老白云岩岩溶型气藏高效开发关键技术--以四川盆地安岳气田震旦系灯影组气藏为例

四川盆地安岳气田震旦系灯影组气藏为超深古老白云岩岩溶型气藏,储层薄而分散、非均质性极强且整体表现为低孔低渗透特征,气藏开发难度大。为了给该气田台缘带灯影组四段(以下简称灯四段)气藏的产能规模建设提供支撑,基于气藏地质特征,针对技术瓶颈开展多专业联合攻关,采用“边攻关、边应用、边完善”的模式,创新形成了有针对性的气藏高效开发关键技术。研究结果表明:①基于所形成的白云岩岩溶缝洞储集体建模技术,实现了岩溶储层的精准建模,经过后期实钻井验证,模型吻合率由63.0%提高至90.7%,实现了气藏“透明化”;②基于所形成的低孔强非均质岩溶储层储量可动性评价技术,明确了不同储集体的采收率,进而获得了不同储集体实现高效开发的井控储量及半径下限值,确定Ⅰ、Ⅱ类储集体为主要开发目标;③基于所形成的强非均质岩溶型气藏开发优化设计技术,针对多个储集体交错叠置的情况,推荐采用大斜度井井型进行开发,最大井斜角介于75°~84°,若Ⅰ、Ⅱ类储集体集中发育,则推荐采用水平井井型进行开发,水平段长度介于800~1100 m,并且Ⅰ、Ⅱ类储集体合理井距分别介于1.6~3.3 km、0.9~1.4 km;④基于所形成的深层碳酸盐岩大斜度井/水平井钻井特色技术,使故障复杂时效由20.7%降低至4.9%,实现了大斜度井/水平井安全快速钻完井,降低了井控风险,同时Ⅰ、Ⅱ类储集体钻遇率由24.2%提高至87.3%,有效提高了储层钻遇率;⑤基于所形成的大斜度井/水平井裸眼分段精准酸压技术,通过实施“一段一策”差异化分段酸压工艺,解决了强非均质性储层水平井改造难题。将上述技术应用于安岳气田台缘带灯四段气藏,截至2020年12月底,建成了年产天然气60×108 m3的生产能力,已累计产出天然气103×108 m3,使得经济效益接近于边际效益的安岳气田震旦系灯影组气藏一跃成为该盆地常规天然气上产的主力军。

藏北扎仁地区中侏罗统布曲组白云岩的沉积环境及意义

本文通过对西藏南羌塘扎仁地区中侏罗统布曲组白云岩特征描述和岩石分析,并对其产出层位沉积环境作出分析判断,认为中侏罗世布曲组沉积中期(J2b2)时,该区在碾砸-勾柔噢扎尔错-晓嘎晓那-巴格底加日一带分为相区,北部为局限碳酸盐台地相区,南部为开阔碳酸盐台地相区。北部相区中分布的白云岩中含干沥青,油古场的存在为羌塘盆地寻找油气具有一定的指导意义。

Diagenetic evolution and effects on reservoir development of the Dengying and Longwangmiao formations,Central Sichuan Basin,Southwestern China

The deeply buried Lower Cambrian Longwangmiao Formation and Upper Ediacaran Dengying Formation from the Sichuan Basin,China,have a total natural gas reserve up to 3×10^(12)m^(3).The complex diagenetic evolution and their impacts on the present-day reservoir quality have not been systematically elucidated,hampering the current exploration.Crucially,the integration and comparation diagenetic study on these two formations,which may be able to shed new lights on reservoir formation mechanism,are yet to be systemically evaluated.By compiling geochemistry data,including carbonate U-Pb ages and petrophysics data,coupled with new petrology,trace elements,and strontium isotope data,of various types of diagenetic carbonates,this study aims to decipher the potential links between diagenesis and reservoir development of both formations.Intriguingly,similar diagenetic sequence,which contains five distinctive dolomite phases,is established in both formations.The matrix dolomite(D1)and early dolomite cement(D2)were likely formed by reflux dolomitization,as inferred by their nearly syn-depositional U-Pb ages and elevatedδ^(18)O caused by seawater evaporation.The subsequent moderate burial dolomite cement(D3)was most plausibly the product of burial compaction as indicated by its lighterδ^(18)O and slightly younger U-Pb ages compared with D1 and D2.Whereas deep burial dolomite cements(D4 and D5)yield markedly depletedδ^(18)O,elevated ^(87)Sr/^(86)Sr,along with much younger U-Pb ages and higher precipitation temperatures,suggesting that they were likely linked to hydrothermal fluids.Despite the wide occurrence of meteoric and organic acids leaching and thermochemical sulfate reduction,they may have only played a subsidiary role on these reservoirs development.Instead,superior reservoir quality is tightly linked to tectonics as inferred by higher reservoir quality closely related to the well-developed fractures and faults filled with abundant hydrothermal minerals.Notably,good reservoirs in both formations are mainly attributed to high permeability caused by tectonics.Hence,this new contribution emphasizes the crucial role of tectonics on spatially explicit reservoir prediction of deep to ultra-deep(up to>8000 m)carbonates in the Sichuan Basin,as well as other sedimentary basin analogues in China.

中国海相碳酸盐岩储层研究进展及油气勘探意义

中国海相碳酸盐岩具有克拉通台地小、位于叠合盆地下构造层、埋藏深和年代老的特点,储层成因和分布是油气勘探面临的诸多科学问题之一。综述了近5年来中国石油集团碳酸盐岩储层重点实验室项目团队在中国海相碳酸盐岩沉积储层研究领域取得的3项创新性成果认识:①通过对四川盆地震旦系寒武系、二叠系长兴组三叠系飞仙关组等层系构造-岩相古地理的解剖,发现小克拉通台地台内裂陷普遍发育,建立了“两类台缘”和“双滩”沉积模式,揭示了台内同样发育烃源岩和规模储层,这为勘探领域由台缘拓展到台内提供了理论依据,并为安岳气田的发现所证实。②基于塔里木盆地勘探实践所提出的岩溶储层成因、内幕岩溶储层类型和分布规律的认识,突破了岩溶储层主要分布于潜山区的观点,创新提出碳酸盐岩内幕同样发育岩溶储层,这使勘探领域由潜山区拓展到内幕区,并为塔北南斜坡哈拉哈塘油田、顺北油田的发现所证实。③深层和古老海相碳酸盐岩储层仍具相控性、继承性大于改造性的地质认识,揭示了深层和古老海相碳酸盐岩储层的规模性和可预测性,确立了深层和古老碳酸盐岩油气勘探的地位和勘探家的信心,并为塔里木盆地、四川盆地油气勘探实践所证实;礁滩(丘)相沉积、蒸发潮坪、层序界面、暴露面和不整合面、古隆起和断裂系统控制深层和古老海相碳酸盐岩规模优质储层的分布。这些认识不但对碳酸盐岩沉积储层学科发展具重要的理论意义,而且为勘探领域的拓展提供了依据。

基于高精度构造解释的滩相白云岩储层预测——以四川盆地龙女寺—合川地区茅口组为例

四川盆地龙女寺—合川地区中二叠统茅口组气藏获得重大勘探发现,是近期实现万亿立方米规模突破的最佳领域。该区中二叠统茅口组以台内滩相白云岩储层为主,沿古隆起边缘发育,规模、潜力较大,但该气藏埋藏深、受不同程度岩溶作用影响导致储层空间分布复杂、物性差,表现为内部小层难以精细解释、储层地震响应特征不清、储层预测难度大等难点。为支撑该区茅口组勘探开发需求,以白云岩储层预测为导向,结合精细描述白云岩储层主要参数为目标,采用“高精度构造解释+微古地貌刻画”技术,基于茅口组内部小层精细解释开展茅口组古地貌、有利相带预测研究,最后利用相控白云岩储层反演技术开展储层空间展布研究,解决茅口组台内滩发育有利区精细刻画难题。研究结果表明,基于相控的白云岩薄储层预测技术能够更好地反映储层空间分布,为成功预测白云岩储层发育带打下基础,有效支撑了勘探开发井位部署并取得丰硕成果,为下一步川中地区井位部署提供有力支撑。

Development and preservation mechanism of deep and ultra-deep carbonate reservoirs

Exploration practice has proved that deep and ultra-deep reservoirs consist of mainly matrix-porous dolomite reservoirs and fractured-vuggy karst reservoirs and still will be very important targets for future exploration, in which large oil and gas fields such as Anyue, Yuanba, Halahatang, Fuman and Shunbei have been discovered. This paper systematically summarizes three theoretical and technical achievements in studying deep and ultra-deep carbonate reservoirs in the past decade.(1) The micro-zone and multi-parameter experiment analysis technology featured by determining the “age, temperature, pressure and fluid properties” of carbonate reservoirs, together with experimental simulation of cross-tectonic-period pore formation and preservation featured by the “multi-stage, continuous, visualized and online detection technology”, providing useful tools for studying the pore formation and preservation mechanism of deep and ultra-deep carbonate rocks from the perspective of“forward” and “inversion”.(2) Deep and ultra-deep matrix-porous dolostone reservoirs are still controlled by sedimentary facies,among which reef(mound) and/or beach contribute most. The reservoir space is mainly composed of sedimentary primary pores and supergene dissolution pores and fractures, though some of reservoir spaces are formed by burial dissolution and they tend to develop and may locally concentrate following the pre-existing porous zone. In other words, burial dissolution vugs are inherited rather than newly formed. Early dolomite precipitation(or dolomitization) has a high potential to preserve early pores.(3) The development and preservation mechanism of fractured-vuggy karst limestone reservoirs in deep and ultra-deep realm was analyzed. Pene-contemporaneous dissolution and interlayer and buried-hill karstification control the development of early and late supergene fractured-vuggy reservoirs. Strike-slip faults superimposed with supergene karstification lead to the development of “fence-style” faulted karst reservoirs. Dissolution simulation experiments reveal that the development of karst fracturedvuggy reservoirs is facies-controlled in certain degree, mainly developed in packstone. Rock mechanics analysis reveals that the preservation of caves is under the control of lithology, cave size, and the distance to the unconformity, and caves can be well preserved at 10,000 m. The theoretical and technical achievements provide supports for carbonate oil and gas exploration into ten thousand meters deep.