渤南洼陷沙四段膏泥岩中高丰度孕甾烷成因及其指示意义

渤南洼陷沙四段膏泥岩样品中检出了高丰度孕甾烷(相对于规则甾烷),孕甾烷/规则甾烷值为0.52~7.88,平均值为3.12。这些膏泥岩样品具有指示性较强的盐湖相生物标志化合物分布特征,如较低的姥鲛烷/植烷值(Pr/Ph=0.12~0.76)、高伽马蜡烷指数(GI=0.04~1.45)、高升藿烷指数(HHI=0.03~0.22)和较高的二苯并噻吩/菲值(DBT/P多大于1),均指示了高盐度水体、强还原性和富硫沉积环境,生源输入主要为嗜盐菌和藻类等低等水生生物。根据渤南洼陷沙四段原油中检出丰富的含硫甾烷,推测渤南洼陷高丰度孕甾烷可能与含硫甾烷形成过程中的不完全硫化作用有关。通过剖面上各生物标志化合物参数随埋深的纵向变化特征发现,孕甾烷与Pr/Ph、HHI和GI值等呈现良好的相关性,它们均指示还原、高盐度以及富硫贫铁的沉积环境。

渤海海域渤南地区浅层油气成藏模式与运聚链

运移是浅层油气成藏的关键因素。基于钻井、岩心、地震及分析化验资料,结合勘探实践,对渤海海域渤南地区浅层油气成藏特点及分布规律开展系统研究,建立了新近系规模型油气成藏模式。结果表明:①新近系存在4类规模型浅层成藏模式,即深层远源运聚-断裂垂向输导的凸起区成藏模式、深层早期汇聚-强活动断层晚期调整的缓坡带成藏模式、深层多源强驱动-复合断层强输导的陡坡带成藏模式、“二次中转”强驱动-砂体连片侧向输导的洼陷带成藏模式。②从源到藏具有2种油气运聚链:a.缓坡—凸起区阶梯式“Z”型油气运聚链,即洼陷带油气经深层三角洲砂体横向输导,一部分油气在缓坡带深层汇聚,一部分油气通过断层和砂体进行纵向和横向阶梯式运移,最终在凸起区浅层大规模成藏;b.陡坡—洼陷带为反“C”型气运聚链,即洼陷带油气首先在陡坡带深层汇聚,形成“中转站”式油藏,然后通过断裂活动调整到浅层,形成陡坡带浅层油藏,随着运聚量增加,油气继续沿浅层大面积砂体横向运移到洼陷区高部位规模成藏。通过对渤南地区浅层油气运聚链的总结,建立了浅层顺链找油的勘探思路,为渤南地区以及渤海海域其他探区浅层油气勘探提供了有效指导。

渤海湾盆地渤南低凸起西段低角度正断层分段生长特征及其油气地质意义

为了研究渤海湾盆地渤南低凸起低角度正断层分段生长诱发的时空差异演化特征及控藏机制,基于最新三维地震资料,精细刻画表征了断层分段生长过程及差异演化特征,结合区域构造背景,探讨断层成因机制及对油气成藏的控制作用。结果表明:渤南低凸起南边界F1断层和F2断层均为低角度正断层,源于中生代NWW—近EW向先存逆冲断层发生负反转,在新生代发生再次活化。F1断层具有平面上分段连接、垂向上多幕活动的特征,中段继承原有断面持续活动,西段和东段分别与裂陷Ⅱ幕新生NEE向断层和裂陷Ⅲ幕新生近EW向断层垂向搭接形成现今形态。低角度正断层对油气成藏的控制作用主要表现为:①低角度正断层断控侧沉积规模大,可提供充足的可容纳空间,形成规模陡坡砂体;②长期活动的低角度正断层是垂向油气运移通道,控制了油气垂向上的富集层位;③低角度正断层多期活动改造了深部储层物性,断层活动强度与优质储层的发育密切相关。

渤南坳陷沙河街组页岩油藏水力裂缝穿层扩展规律研究

渤南坳陷沙河街组页岩油储量丰富,但开发难度大。提高水力裂缝穿层能力,形成纵向三维立体改造区域是有效开发该类油藏的关键。在调研国内外数值模拟方法的基础上,基于cohesive有限元数值模拟手段,通过ABAQUS数值模拟软件建立了三维水力压裂模型,定量分析了储层岩石杨氏模量、层理面胶结强度以及泵注排量对裂缝穿层能力的影响。研究结果表明:1)随储层杨氏模量增加,水力裂缝展布范围和裂缝穿层比呈增加趋势;2)裂缝穿层比随层理面胶结强度增加呈现反向波动曲线,当胶结强度处于波峰位置时可获得较大穿层比;3)泵注排量对裂缝穿层效果贡献有限,随排量增加穿层比先增加后趋于平稳。以上成果对地质和工程相关因素进行了敏感性分析,为页岩油藏水平井体积压裂优化决策提供了重要理论基础。

Diagenetic evolution and its effect on reservoir-quality of fan delta sandstones during progressive burial: Evidence from the upper part of the fourth member of Shahejie formation, Bonan sag, Jiyang depression

Petrographic analysis combined with various techniques, such as thin section identification, fluid inclusions, isotopic data, petro-physical property testing and oil testing results, was used to study diagenetic evolution and its effect on reservoir-quality of fan delta reservoirs of Es4s in the Bonan sag. The diagenesis is principally characterized by strong compaction, undercompaction, multi-phase of dissolution and cementation. Compaction played a more important role than cementation in destroying the primary porosity of the sandstones. The reservoirs have experienced complicated diagenetic environment evolution of "weak alkalineacid-alkalinity-acid-weak alkalinity" and two-stage of hydrocarbon filling. The diagenetic sequences are summarized as "early compaction/early pyrite/gypsum/calcite/dolomite cementation→feldspar dissolution/the first stage of quartz overgrowth → early hydrocarbon filling→quartz dissolution/anhydrite/Fe-carbonate cementation→Fe-carbonate dissolution/feldspar dissolution/ the second stage of quartz overgrowth→later hydrocarbon filling→later pyrite cementation. In the same diagenetic context, the diagenetic evolution processes that occurred in different sub/micro-facies during progressive burial have resulted in heterogeneous reservoir properties and oiliness. The braided channel reservoirs in fan delta plain are poorly sorted with high matrix contents. The physical properties decrease continually due to the principally strong compaction and weak dissolution. The present properties of braided channel reservoirs are extremely poor, which is evidenced by few oil layers developed in relatively shallow strata while dry layers entirely in deep. The reservoirs both in the underwater distributary channels and mouth bars are well sorted and have a strong ability to resist compaction. Abundant pores are developed in medium-deep strata because of modifications by two-stage of acidic dissolution and hydrocarbon filling. The present properties are relatively well both in the underwater distributary channels and mouth bars and plenty of oil layers are developed in different burial depth. The present reservoir properties both in interdistributary channel and pre-fan delta are poor caused by extensively cementation. Small amounts of oil layers, oil-water layers and oil-bearing layers are developed in relatively shallow strata while dry layers totally in deep.

Influences of lithology on in-situ stress field in low permeability reservoirs in Bonan Oilfield, Bohai Bay Basin, China

The differences of rock mechanical properties were analyzed based on triaxial compression test in low permeability reservoirs of the Bonan Oilfield. Through the analysis of reservoir mechanics, the influence mechanisms of different mechanical properties of rocks on reservoir in-situ stress were studied. By means of stress ellipse and finite element simulation, the influence rules of different mechanical properties of rocks on in-situ stress field were discussed. For the low permeability reservoirs of the Bonan Oilfield, the coarser rock has a larger Young’s modulus value and a lower Poisson’s ratio. The rock mechanical parameters and stress-strain relationship of sandstone facies and mudstone facies are different. Different rocks have different mechanical properties, which cause extra stress at the lithological contact interface, and the existence of extra stress affects the reservoir in-situ stress. Without considering the influence of structural features on the in-situ stress field, the reservoir in-situ stress is controlled by the magnitude of extra stress and the angle between lithological contact surface and boundary stress.

Formation mechanisms and distribution of high quality reservoirs in deep strata in Palaeogene in northern steep slope zone of Bonan sag, Jiyang depression, China

Petrographic analysis combined with various techniques, such as thin section identification, petro-physical property testing, mercury penetration, oil testing results, was used to assess basic reservoir characteristics of deep strata in Palaeogene in the northern steep slope zone of the Bonan sag, China. The formation mechanisms of high quality reservoirs in deep strata were discussed according to evolution characteristics of paleopressures and paleofluids in geological period. The deep reservoirs have poor physical properties and mainly develop extra-low porosity, extra-low and ultra-low permeability reservoirs. Reservoir spaces mainly consist of secondary pores and overpressure fractures. Early overpressure, early hydrocarbon filling and dissolution by early organic acids are the major formation mechanisms of high quality reservoirs. The conglomerate in inner fan which had a poor primary physical property mainly experienced strong compaction and calcareous matrix recrystallization. The physical properties of the inner fan were poor with weak dissolution because of poor mobility of fluid. The reservoirs mainly are type IV reservoirs and the distribution extends with the burial depth. The braided channel reservoirs in the middle fan had relative good primary physical properties and strong ability to resist compaction which favored the preservation of primary pores. Large amounts of the secondary porosities were created due to dissolution by early organic acids. A series of micro-fractures generated by early overpressures would be important migration pathways for hydrocarbon and organic acids. Furthermore, early overpressures had retarded maturation of organic matters and organic acids which had flowed into reservoirs already and could keep in acid environment for a long time. This process would contribute significantly to reinforcing the dissolution and enhancing the reservoir quality. The braided channel reservoirs were charged with high oil saturation preferentially by early hydrocarbon filling which could inhibit later cementation. Therefore, the braided channel reservoirs develop a great quantity of reservoir spaces with type I, type II and type III reservoirs in the majority in the deep strata. With the burial depth, distributions of type I and type II reservoirs are narrowed and distribution of type III reservoirs decreases first and then extends. The reservoirs both in outer fan and in interdistributary of the middle fan have extremely poor physical properties because of extensive carbonate cementation. The type of the reservoirs mainly is type IV.

渤海湾盆地沾化凹陷渤南洼陷古近系深层优质储层形成机制

随着勘探程度的提高,渤海湾盆地渤南洼陷油气勘探的主要对象逐渐由中浅层转向中深层。深层勘探的关键问题是优质储层,其发育取决于沉积充填和地层流体的相互作用。古近系沙河街组四段沉积时期,该区发育了咸化环境湖相碎屑岩与膏盐层沉积。利用钻井、实验等基础资料,分析储层沉积环境、地层水特征、岩石学特征及成岩作用类型,探讨深层优质储层发育演化机制。研究结果表明:(1)在分布面积广、沉积厚度大的膏盐层的封闭下,咸化湖泊环境的沙四段碎屑岩,早成岩期经历了碱性成岩环境,形成的碳酸盐胶结物充填原生孔隙,并有效阻滞压实作用的发生;(2)随着烃源岩中的有机质趋于成熟,中成岩期有机酸在异常高压的驱动下向地层中运移,早期碳酸盐胶结物以及长石、岩屑普遍被溶蚀,形成次生孔隙,酸碱交替作用是深层优质储层发育的主要机制;(3)优质储层的发育受到膏盐层分布、烃源岩发育、断裂体系与碎屑沉积体展布的控制,受酸碱流体影响强烈的缓坡扇三角洲和陡坡近岸水下扇中前端砂体,是渤南洼陷沙四段优质储层发育区。

基于灰色关联分析的页岩油甜点综合评价方法--以渤海湾盆地渤南洼陷为例

国内页岩油以中国陆相沉积为主,地质条件复杂多变,且地质工程甜点评价要素多元,为页岩油甜点综合评价带来了困难。以渤海盆地渤南洼陷为例,基于灰色关联理论,筛选出了页岩厚度、总有机碳含量、镜质体反射率、孔隙度、热解游离烃含量、原油密度、原油黏度、地层压力和脆性指数等9个评价指标,分析了评价指标间的相关性,优化了各评价指标的权重,计算了综合评价指数,实现了页岩油甜点的综合性、定量化精准评价。分析结果显示:渤南洼陷页岩油综合评价指数高值主要分布于XYS9—Y182—Y187井区、Y283井区南部及L42井区周围,整体向南、向北综合评价指数逐渐降低,综合评价指数与单井产量具有较好的相关性,能够较好地匹配渤南洼陷页岩油单井产量;BYP5井综合评价指数自上而下整体减小,与示踪剂监测的产量贡献率趋势一致,两者具有较好的相关性。研究结果表明,页岩油水平井完井后,通过计算综合评价指数,可以及时、准确地评价水平段的甜点段,指导页岩油水平井压裂施工。

渤南洼陷沙四下亚段沉积中心迁移演化规律

渤南洼陷沙四下亚段沉积时期气候干旱,发育套以红色系为主的红层沉积。红层地层厚度、泥岩颜色,砂体沉积组构在时间和空间上快速变化,洼陷原型及沉积中心迁移规律分析极为困难。基于红层沉积特点,以构造格架为约束,在传统原始沉积厚度恢复基础上,通过不同尺度地层厚度分析,结合物源供给与地层厚度相关性分析,明确不同区域尺度厚度中心指示意义,厘定沉积中心迁移规律。沙四下亚段沉积早期孤西断裂控制沉积中心发育,孤西断裂下降盘厚度中心为沉积中心.

渤南洼陷“济阳”夹层型页岩油评价及水平井一体化设计

为形成陆上断陷盆地夹层型页岩油地质工程一体化评价及水平井一体化设计方法,通过一体化理念,利用地质综合分析及数据统计分析等方法,对渤南洼陷“济阳”夹层型页岩油开展地质工程一体化研究。对比济阳坳陷页岩油的典型特征及与中国其他页岩油的主要差异,初步提出“济阳”页岩油概念。系统研究渤南洼陷“济阳”夹层型页岩油的夹层、构造、地应力、物性、地化参数、天然裂缝及压裂改造特征,建立综合夹层、天然裂缝、压裂改造性的地质工程一体化甜点评价方法。形成地质工程制约条件下的水平井一体化设计方法,具体包括地质工程甜点、断层特征及水平段长度定方案部署区域,地面井台与压裂裂缝方向相结合定水平井部署区,钻井平台与靶前距定水平井A靶部署区,水平段长度、钻井难度及钻井投资定水平井B靶及水平段井轨迹。结果表明:渤南洼陷“济阳”夹层型页岩油夹层大孔隙相对发育,可动流体饱和度高,且压裂可改造性好;高频夹层发育区通过压裂可获得更复杂的压裂裂缝网络,沟通更多的夹层,产能高;通过平面动态A靶框及纵向水平段轨迹控制窗的设计方法,大大降低了钻井施工难度,缩短了钻井周期,大幅改善了页岩油开发的经济性。

渤海湾盆地渤中26-6变质岩潜山大油田发现与认识创新

渤海湾盆地渤南低凸起西段历经40余年勘探,仅在浅层发现渤中26-2小型油田,潜山长期未能实现勘探突破。针对成山机制及圈闭特征、控储要素和储层预测、油藏分隔与成藏规律这三方面,通过精细构造演化、油藏分隔机制和油气富集规律等研究,取得了新认识。研究认为:①多期次构造演化形成大规模潜山圈闭奠定了渤中26-6潜山勘探的基础;②“构造主控,差异溶蚀”控制研究区潜山优质储层发育,基于微古地貌约束的潜山裂缝-孔隙双重介质储层预测技术可以有效刻画优质储层的分布;③潜山内幕断层糜棱岩化作用有效分隔潜山油藏,太古界潜山是油气勘探有利层系。新认识指导勘探实践,2022年在渤南低凸起西段发现了渤中26-6大型整装油田,实现了渤海海域中位潜山勘探领域性突破,进一步拓宽渤海海域太古界潜山带的勘探空间。

渤南油田94^(#)站西部片区节能降耗技术研究

渤南油田94^(#)站西部片区位于济阳坳陷沾化凹陷中部,区块地层压力低,自然产能低,原油物性差,存在冬季管输末端回压高,能耗大,烟气污染高等问题。在调研基础上利用PIPEPHASE建模分析、Fluent模拟分析,总结出集输系统主要能耗原因:保温效果差造成热散失大,管道布局不合理、局部施工不规范造成压损大,燃气加热造成能源消耗大。机采系统主要能耗原因:设备传动功率损耗大、抽油机载荷不均匀电损大、生产参数不合理导致效率低耗电大。提出了精细质量管理、机采系统优化、管网布局改造及掺水优化、燃气加热炉替代优化、新能源方案比选替代优化等技术和管理措施,并利用C语言程序和PIPEPHASE建模验算可行性,经过现场使用验证,能够满足优化生产效果和节能减排的目的。

基于多种群遗传算法和动态时间归整的智能层序地层划分对比方法——以渤南洼陷古近系下部为例

针对深层-超深层因古生物化石种类少、取心困难、标志层不稳定、层系埋藏深、地震品质差而存在的层序地层划分与对比困难的问题,提出综合利用测井、录井资料为输入参数,采用多种群遗传算法(multi-population genetic algorithm, MPGA)和动态时间归整(dynamic time warping, DTW)相结合进行渤南洼陷古近系下部层序地层的划分与对比,并以多种常规频谱分析(最大熵频谱分析(integrated prediction error filter analysis, INPEFA)、连续小波变换(continuous wavelet transform, CWT)、时频分析等)对智能划分结果进行验证。基于这种智能识别,以渤南洼陷深部地层古近系下部沙四段-孔店组为例,在渤南洼陷西部邵古1井、邵古2井古近系下部识别出沙三段/沙四段(E_(s3)/E_(s4))界面、沙四段/孔店组(Es4/Ek)界面、孔店组(Ek)底部等层序界面,将邵古1井和邵古2井古近系下部划分出4个三级层序界面并进行连井层序对比。通过与多种频谱分析方法验证结果对比发现,综合利用基于Fisher最优分割理论的MPGA对单井层序地层进行精细划分,结合DTW技术进行连井层序对比,可提高深层及超深层层序地层划分对比的准确性和可靠性。所提出的单井地层自动划分与连井对比方法能摆脱人为主观因素对层序地层划分的干扰,实现基于机器学习的层序地层智能识别,在各类岩石的层序地层对比中具有良好的应用前景。

济阳坳陷渤南洼陷古近系沙河街组流体压力建场过程及其石油地质意义

通过对济阳坳陷渤南洼陷古近系沙河街组泥页岩和致密砂岩中的流体包裹体进行古压力测试,恢复了其流体压力演化过程,并探讨了其石油地质意义。研究结果表明:(1)渤南洼陷沙三段在馆陶组沉积期及之后共经历了4次压力场重建过程,每次压力场重建的持续时间均为3~4 Ma,表现为低序级幕式特征。(2)与沙三段低序级幕式压力建场过程不同的是,沙四上亚段在上覆石膏岩的封盖下,压力场重建的门限较高,在东营组沉积期及馆陶组沉积末期发生2次压力场重建过程,表现为高序级幕式特点。(3)研究区沙三段低序级幕式压力建场过程指示着开放的流体环境和较强的酸性溶蚀作用,以低序级幕式压力建场为主的沙三段储集层物性整体优于高序级幕式建场的沙四上亚段储集层;沙三段烃源岩在排出大量烃类物质的同时,其自身储集空间中也会存在部分残留,从而形成常规油与页岩油的共同富集区。

碳同位素录井技术在胜利油区页岩油评价中的应用——以渤南洼陷YYP 1井为例

页岩油目前已成为国内外油气勘探开发的重要领域,为了探索碳同位素录井新技术在页岩油评价中的作用,选取渤南洼陷页岩油井YYP 1井开展碳同位素录井工作。基于系统的碳同位素录井数据,详细分析了沿井身轨迹的碳同位素变化特征及其代表的地质意义,利用钻井液气碳同位素研究了页岩油气的成因及成熟度等油气地球化学问题,通过不同时间序列下岩屑罐顶气碳同位素分馏变化特征,及与钻井液气碳同位素之间的分馏特征,结合气测变化对页岩油“甜点”类型进行评价,为压裂分段分簇方案的制定提供有力的技术支撑。

渤南低凸起北坡中生界火成岩潜山录井综合评价方法

对于火成岩储层,井场录井快速评价对于随钻地质决策、中途测试、测井取样等非常重要。本文针对渤南低凸起北坡中生界火成岩潜山井场快速评价难题,基于已钻井资料,建立了研究区火成岩储层“岩性、有效性、含油气性”的井场地质录井综合评价方法。实际应用表明,该方法具有较强的现场可操作性,有助于提高第一手资料的可靠性,能够为石油勘探及开发中的火成岩井场评价提供技术参考。

渤南低凸起西段构造成因机制与油气成藏规律研究

SN向伸展构造系统和NNE向右旋走滑构造系统的长期交互作用,控制了渤海海域渤南低凸起西段深浅层(古近系和新近系)构造圈闭的形成:深层圈闭是渐新世走滑断层挤压反转形成,提出了"剪刀式"反转模式;浅层圈闭是新构造运动诱发的渤南低凸起西段南边界大断层产生拉分伸展运动的产物。走滑断层在深浅层圈闭形成过程中起到了建设性作用。分析了研究区新近系油气成藏规律,强调"Y"字型伴生断层对油气分布范围的控制作用,提出了"纺锤体式"油气分布模式;指出走滑断层与边界断层或深大断层结合部位易引起地层褶皱变形形成圈闭,这也是油气运移的活跃部位,在今后的勘探工作中应加以关注。

济阳坳陷渤南洼陷古近系沙河街组沉积相

渤海湾盆地济阳坳陷渤南洼陷的主要含油层系为古近系的沙河街组。沙河街期各时段沉积相的展布各具特征 ,并具清晰的演化序列。沙四早期以发育扇三角洲相为特征 ,分布于洼陷南部 ;北部边缘则发育近岸水下扇沉积 ;东部及西部均存在辫状河三角洲相 ;中部有盐湖沉积。沙四晚期以盐湖相发育为特征 ,主要占据湖泊深水部位 ,其周围依次分布半深湖、浅湖及滨湖亚相。此外 ,局部见及小型辫状河三角洲沉积。沙三期是辫状河三角洲发育的全盛时期 ,主要分布于洼陷东南部 ,物源来自孤岛凸起。这些沉积长期以来被认为是浊积岩 ,近期研究表明它们属辫状河三角洲沉积。辫状河三角洲前缘砂体构成了渤南洼陷最主要的储层成因类型 ,渤南洼陷绝大部分油气均储存在该类砂体中。沙三期湖泊相沉积也始终发育 ,且深湖、半深湖亚相发育良好。经过沙三期后的抬升剥蚀和填平补齐作用 ,沙二期湖盆变浅 ,以浅湖为主 ,研究区东南部及西北部均发育面积较大的辫状河三角洲沉积。沙一期发生大规模湖侵 ,物源区向后退缩 ,研究区仅存在单一的湖泊相 ,其中半深湖。

渤南洼陷沙四上亚段含油气系统探讨

由于沾化凹陷渤南洼陷地质条件的特殊性 (多套烃源岩、构造复杂性等 )使沙四上亚段复式含油气系统呈现垂向叠置、由断裂沟通、一藏多源 (既有沙三下亚段、沙四上亚段有机烃源 ,又有深部无机烃源 )的复杂面貌。根据实际情况 ,尝试将渤南洼陷沙四上亚段复式含油气系统进一步划分为Es3 -Es4 ( !)、Es4 -Es4 ( !)、无机烃 -Es4 ( ?)等 3个子系统 ,并对其要素、作用进行了研究。认为在洼陷带向缓坡带方向应主要寻找上倾尖灭型及砂泥岩交互型油气藏 ,在陡坡带方向应主要寻找湖底扇型油气藏 ,在洼陷中心应主要寻找砂岩透镜体型、泥岩裂缝型油气藏以及构造 岩性复合型油气藏等。图 3参 6 (吴富强摘 )