Recognition and depiction of special geologic bodies of Member 3 of Dongying Formation in Littoral Slope Zone,Qikou Sag

The purpose of this study is to forecast the profitable oil and gas reservoir,which is the key of finding hydrocarbon,based on the conception of special geologic bodies.With the guiding methodology of the research thinking of integration of point-line-surface by using the methods and techniques of logging,seismic,seismic attribute,and logging constrained inversion in 3D data volume,the special geologic bodies of Member 3 of Dongying Formation in Littoral Slope Zone of Qikou Sag,which has important hydrocarbon exploration potential,are recognized and described under the constraint of sequence stratigraphic framework.As a result,the developed scale,geometric shape and space distribution feature of the special geologic bodies are forecasted;the inner structure and sequence structure patterns of the geologic bodies are also ascertained.From the lowstand system tract (LST) and lacustrine expanding system tract (EST) to the highstand system tract (HST),the geologic bodies have evolved from relative centralization of lake basin reducing period to three relative dispersive isolated parts of broad lake basin period.According to the relevance and regularity of the development of geologic bodies,the conclusions can be obtained that three types of potential profitable reservoir traps,including the lithologic lens traps,lithologic updip pinchout traps and structural-lithologic composite traps,are forecasted.In addition,scientific basis for further hydrocarbon exploration in new area (few-well area and no-well area) is offered in the guidance of sequence stratigraphic model.

Recognition and Depiction of the Special Geologic Bodies of the Member 3 of Dongying Formation in Littoral Slope Zone,Qikou Sag

The key of finding hydrocarbon reservoir is to find the profitable oil and gas reservoir.This paper uses the conception of"special geologic bodies"to study the profitable reservoir.Constrained by the sequence stratigraphy framework,this paper recognizes and describes the special geologic bodies of the Member 3 of Dongying Formation in Littoral Slope Zone of Qikou Sag,which have important

Fault characteristics and control on hydrocarbon accumulation of middle-shallow layers in the slope zone of Mahu sag, Junggar Basin, NW China

The development, evolution and formation mechanism of faults and their control on the migration and accumulation of Mesozoic oil and gas in the middle-shallow layers of the slope zone of Mahu sag were studied by the interpretation of seismic and drilling data. Two types of faults, normal and strike-slip, are developed in the middle-shallow layers of the slope zone of the Mahu sag and they are mostly active in the Yanshanian period. They are divided into four grade faults: The grade I strike-slip faults with NWW to near EW direction are related to the left-lateral transpressive fault zones in the northwest of Junggar Basin since the end of the Triassic. The grade II faults with NE to NNE direction are the normal faults located at the junction of the fault zone and the slope zone, and their formation is related to the extension at the top of the nose-like structures in the fault zone. The grade III faults, which are also the normal faults, are the result of the extension at the top of the lower uplifts in the slope zone and differential compaction. The grade IV faults with NE direction are normal faults, which may be related to the extension environment at the tip of the lower uplifts. Faults not only are the channel for the vertical migration of oil and gas, but also control the oil-gas accumulation. There are two types of oil-gas reservoirs in the middle-shallow layers of slope zone of Mahu sag: fault block reservoirs and fault-lithologic reservoirs. They have large traps and promising exploration potential.

Origin and migration model of natural gas in L gas field, eastern slope of Yinggehai Sag, China

Based on the chemical and stable carbon isotopic composition of natural gas and light hydrocarbons, along with regional geological data, the genetic type, origin and migration of natural gases in the L lithologic gas field, the eastern slope of Yinggehai Sag were investigated. The results show that these gases have a considerable variation in chemical composition, with 33.6%–91.5% hydrocarbon, 0.5%-62.2% CO2, and dryness coefficients ranging from 0.94 to 0.99. The alkane gases are characterized by δ13C1 values of -40.71‰--27.40‰,δ13C2 values of –27.27‰– –20.26‰, and the isoparaffin contents accounting for 55%–73% of the total C5–C7 light hydrocarbons. These data indicate that the natural gases belong to the coal-type gas and are mainly derived from the Miocene terrigenous organic-rich source rocks. When the CO2 contents are greater than 10%, the δ13CCO2 values are –9.04‰ to – 0.95‰ and the associated helium has a 3He/4He value of 7.78×10^–8, suggesting that the CO2 here is crustal origin and inorganic and mainly sourced from the thermal decomposition of calcareous mudstone and carbonate in deep strata. The gas migrated in three ways, i.e., migration of gas from the Miocene source rock to the reservoirs nearby;vertical migration of highly mature gas from deeper Meishan and Sanya Formations source rock through concealed faults;and lateral migration along permeable sandbodies. The relatively large pressure difference between the “source” and “reservoir” is the key driving force for the vertical and lateral migration of gas. Short-distance migration and effective “source - reservoir” match control the gas distribution.

Genetic Types and Exploration Significance of Slope Break Belt in Paleogene in Qikou Sag,Huanghua Depression,Bohai Bay Basin,Eastern China

Enrichment of hydrocarbon reservoir relates to the slope break types in continental basin(sag)in China. Division and analysis of genetic types of slope break will help to study the enrichment regularity of hydrocarbon reservoir and is conducive to the guiding of future development in exploration and enhancing prediction accuracy.This paper,guided by the theory of sequence stratigraphy and using high-resolution three-dimensional seismic data,drilling and other information,takes into account the characteristics

边缘海盆地断层差异演化成因的数值模拟:以西湖凹陷平北斜坡带为例

东海陆架盆地中生代以来的成盆过程中,发育了大量陆倾控盆断裂,其发育模式与形成演化与东亚其他边缘海盆地差异明显。前人关注东海陆架盆地迁移特征,而忽略了断层差异演化的形成机制,对断层发育过程控制因素缺少深入研究。西湖凹陷平北斜坡带北部为海倾断层组成的断阶区,南部为陆倾断层组成的半地堑区,断裂差异演化指示着东海陆架盆地的成盆过程。本文通过离散元数值模拟,模拟陆倾和海倾断层的形成及演化,以探讨断层几何发育特征的控制因素。结果表明,岩性差异对斜坡带断层演化有较大影响,较高抗剪强度岩层破裂易产生陆倾控盆断裂,而低抗剪强度岩石则易形成向海倾断层。应力作用方向是区域差异演化的重要控制因素,岩石强度相同,应力作用方向相反时,断层倾向相反。盆地形成过程中发育众多凹陷斜坡,但坡度不是断层差异演化的主导因素。平北斜坡带和边缘海盆地的差异演化可能是由基底强度差异或应力方向差异导致的。本文利用离散元数值模拟平北斜坡带断裂差异演化过程,为东海盆地构造演化机制及边缘海盆地的形成提供了思路和理论依据。

地震沉积学在复杂斜坡带岩性勘探中的应用研究

西湖凹陷西部斜坡带平湖组发育岩性气藏,主力气藏区埋深大、岩性组合复杂,砂泥岩识别难度大。同时,地震资料分辨率不足,导致岩性体厚度吻合度差、边界识别难度大。基于地震沉积学思想,在识别岩性基础上,应用分频技术刻画不同厚度岩性体;在此基础上应用分频地层切片匹配古地貌,刻画岩性体展布范围。通过地震沉积学的研究应用,在研究区有效识别了岩性体发育模式并取得勘探发现。

玛南斜坡风城组油气成藏条件及主控因素

近年来,准噶尔盆地玛湖凹陷南斜坡(玛南斜坡)二叠系风城组岩性勘探取得突破,烃源岩、储集岩等油气成藏条件需重新认识,岩性油藏带试油获纯油层主控因素亟待查明。针对以上问题,对近年探井开展了地球化学及沉积储层分析测试,综合录井、测井及地震资料,取得了以下认识:1)新钻井在风城组扇三角洲外前缘相带钻遇一定厚度的Ⅱ型成熟好烃源岩,揭示了玛南斜坡同样发育风城组烃源岩。2)风城组扇三角洲平原相带发育块状砂砾岩,泥岩盖层欠发育,扇三角洲前缘相带发育泥岩盖层,研究区储集岩均为特低孔、特低渗储层。3)划分了4个成藏带,扇三角洲平原油藏带为高部位块状砂砾岩,下倾方向“水带”成因为平原相油藏带不整合盖层封堵不严,扇三角洲内前缘油藏带纯油层受局部泥岩盖层发育控制,扇三角洲外前缘油藏带泥岩盖层普遍发育,更加有利,由此优选了289 km2勘探有利区,指导后续勘探部署。

低含油饱和度油藏储层特征及其成藏控制——以准噶尔盆地玛西斜坡中浅层八道湾组为例

通过岩心观察和铸体薄片、扫描电镜等分析测试手段,开展了准噶尔盆地玛湖凹陷西斜坡中浅层低含油饱和度油藏的储层特征研究,探讨了强非均质储层对低含油饱和度油藏成藏的影响。研究认为:1)玛西斜坡中浅层侏罗系八道湾组为低含油饱和度油藏,产出品质较好的轻质油,油藏具有低含油、高含水特征;2)储层普遍含砾,以砾岩、砂砾岩等粗岩性为主,储集空间主要为次生粒内溶孔,储层孔隙发育差,连通性差,属于低孔低渗储层,储层非均质强,低含油饱和度油藏主要聚集在较强非均质储层中;3)八道湾组储层主要经历了早期充注与晚期调整的油气成藏过程,油气早期运移形成了百口泉组、八道湾组古油藏,晚期发生构造掀斜,八道湾组古油藏遭受破坏,百口泉组古油藏沿次级断裂调整至八道湾组,强非均质储层对低含油饱和度油藏成藏起到控制作用,强非均质性厚层砂砾岩储层与次级断裂匹配形成低含油饱和度油藏。玛西斜坡中浅层八道湾组低含油饱和度油藏的发现拓展了玛湖凹陷的油气勘探空间,同时增加了在厚层砂砾岩低渗储层中寻找低含油饱和度油藏的勘探实例。

海拉尔盆地乌南次凹箕状断陷油藏富集规律研究

箕状断陷受到构造、储层等因素影响,其油藏分布具有一定的规律性。为实现乌东油田有效滚动评价及开发,针对乌南次凹箕状断陷油藏缺乏源-储整体成藏序列认识的问题,通过将乌南次凹主要目的层段构造细分,解析各区带地层、沉积、构造等规律认识,明确源岩、地貌、沉积储层、不整合及断层输导等因素对油藏分布有序性的影响。研究结果表明,洼槽区主要发育岩性油藏(湖底扇砂岩油藏),坡折带主要发育不整合油藏,斜坡区则以受断层影响的断块油藏、岩性-断层遮挡油藏为主。在油藏分布及油气富集特征研究的基础上,提出在油气富集的斜坡区中带开展多层系立体评价,在油气丰度较低的其他区带开展多井型非常规致密储层动用探索,可有效指导区域评价,支撑乌东油田的稳产上产。

准噶尔盆地沙湾凹陷柳树沟河沉积体系的发现及其石油地质意义

准噶尔盆地沙湾凹陷与玛湖凹陷具有相似的构造、沉积及成藏背景。基于对沙湾凹陷岩相古地理格局及源-汇系统的研究,提出了在凹陷中央发育有一个来自西北方向的远源大型沉积体系,即柳树沟河水系,并围绕该水系对沙湾凹陷的沉积演化特征及成藏条件进行了分析。研究结果表明:(1)沙湾凹陷柳树沟河水系起源于扎伊尔山,流经中拐凸起后,在沙湾凹陷中央形成了大型河流—三角洲沉积体系,其中的曲流河点砂坝、三角洲前缘水下分流河道、河口坝和席状砂等储集体是油气规模勘探的有利目标。(2)柳树沟河水系自二叠纪到侏罗纪继承性发育,先后经历了二叠纪水进、三叠纪早期水退与中—晚期水进及侏罗纪湖盆水体震荡发育的过程,形成了中、下二叠统规模烃源岩,二叠系—上三叠统大型三角洲扇体、侏罗系多期河道叠置的储集体以及晚二叠世晚期—早三叠世晚期区域性盖层,构成了纵向上多套生-储-盖优势组合;多期构造运动形成的不整合面和断裂体系构建了沙湾凹陷油气运移、调整的有利输导体系。(3)柳树沟河水系的发现改变了沙湾凹陷没有大型远源水系、仅发育近源扇三角洲的传统认识;凹陷中央及斜坡低部位是寻找石油天然气规模储层的新领域。

大位移、大斜度井压裂充填工艺设计及应用

大位移、大斜度井压裂充填存在着防砂管柱下入困难、现场作业风险高,难度大等特点。文章以渤海某油田为例,针对大位移大斜度井压裂充填工艺设计、管柱下入模拟分析、摩阻计算三方面进行设计。并将井斜为84.12°,水垂比为3.13的A1井进行应用案例分析,选用3.88大通径一次多层充填防砂管柱,大大提高了作业效率;采用Landmark软件对防砂筛管下入摩阻进行计算,分析下入的可行性,优化钻杆方案,使充填效率较设计提升30%;针对层温度低的特点,提出了使用低温酶破胶剂来提高反排效率;最后对相关压裂充填施工工艺参数进行设计,采用低砂比,大排量充填,从而形成短宽缝,达到很好的充填效果。

东海陆架盆地西湖凹陷天台斜坡构造变换带发育特征及形成机理

东海陆架盆地西湖凹陷天台斜坡构造位置特殊,深层NW向断裂带从斜坡区通过,并对斜坡南、北部新生界的构造特征起到了明显的调节和变换作用。通过三维地震资料精细解释和平衡剖面复原,建立了天台斜坡深层NW向断裂和浅层断裂的发育模式,厘定了NW向变换带的构造属性,同时结合区域地质背景,探讨了构造变换带的演化过程和形成机理。结果表明:天台斜坡中生界发育包括天台西断裂和孤山断裂在内的NW向伸展滑脱断层,并对斜坡南、北部新生界地质结构、断裂发育和伸展强度等起到了明显的调节和变换作用。天台斜坡北部和南部分别表现为缓坡和陡坡结构特征,北部断裂密集发育,而且孤山断裂上盘发育弧形断裂,北部伸展强度也要明显大于南部。发育于天台西断裂和孤山断裂之间的NW向构造变换带明显不同于伸展背景下的变换构造,属于离散构造变换带。受秦岭-大别造山后碰撞伸展作用与欧亚板块和太平洋板块的碰撞、俯冲过程影响,天台斜坡构造变换带主要经历了晚侏罗世—早白垩世初期变换带孕育期、早白垩世中期—早始新世变换带雏形期、中晚始新世—渐新世早期变换带成熟期和渐新世晚期—现今变换带静止期4个演化阶段。

非洲Muglad盆地Fula凹陷白垩系AG组岩性油气藏勘探潜力

借鉴国内断陷盆地岩性油气藏勘探理论与技术,运用层序地层学分析方法,对中非裂谷系Muglad盆地Fula凹陷开展多级次层序地层划分、烃源岩地化分析、油气成藏规律研究和有利区带划分与潜力评价。研究结果表明:①受基准面旋回发育控制,Fula凹陷AG组可划分为5个三级层序,湖泛面附近是岩性油气藏最有利分布位置。②研究区AG组主要发育三大物源体系,福西陡坡带为短轴近物源快速沉积,相带平面展布较窄;东北部发育辫状河三角洲沉积,展布范围较大,沉积持续时间长;AG组沉积晚期在东南部发育一套展布范围较小的辫状河三角洲沉积;三角洲前缘和滨浅湖滩坝是岩性油气藏发育的有利相带。③AG组AG2段(SQ4)暗色泥岩主要沉积于浅湖—半深湖环境,干酪根类型为Ⅰ—Ⅱ1型,TOC平均为3.41%,生烃潜量(S1+S2)多大于8 mg/g,为好—极好烃源岩,可为构造-岩性油气藏的形成提供充足的油气来源。④AG组可划分出7个岩性油气区带,其中Fula-Moga斜坡带北部成藏条件优越,勘探潜力大。

玛湖地区构造演化及对玛东斜坡百口泉组油气成藏的影响

为了落实玛湖地区构造演化对玛东斜坡三叠系百口泉组油气成藏的影响,在系统梳理地层厚度、断裂类型以及构造要素组合特征等主要构造特征的基础上,分析了构造演化过程及不同时期的构造运动对百口泉组油气成藏的影响。研究结果如下:①玛湖地区构造演化分为5个阶段,石炭纪晚期强烈挤压构造形变阶段;二叠纪早中期西部隆起逆冲推覆阶段;二叠纪末期-三叠纪早期整体抬升遭受剥蚀阶段;三叠纪侏罗纪缓慢下降阶段;白垩纪末期掀斜阶段。②构造运动对玛东斜坡油气成藏的影响主要包括以下4个方面:控制烃源岩分布;提供油气的垂向输导和横向运移通道;改善储层物性;导致油气逸散和二次聚集。③距离断层较近且继承性发育的背斜、鼻状构造等有利构造部位是油气勘探的重要方向。

饶阳凹陷肃宁洼槽对蠡县斜坡供烃潜力的地球化学证据

蠡县斜坡是饶阳凹陷重要的油气探区,其油气来源问题一直是勘探关注的重点,特别是斜坡南部的油源问题一直存在争议。本研究通过开展任西–肃宁洼槽烃源岩评价及地球化学特征分析、蠡县斜坡原油油源分析和运移路径示踪,证实了肃宁洼槽对斜坡南部的供烃潜力,并明确了蠡县斜坡不同区域油源。蠡县斜坡原油可分为3类,其中:A类原油由淀北洼槽E_(s4)-Ek烃源岩供烃,主要分布在蠡县斜坡北部;B类原油由任西洼槽Es_(1)^(下)烃源岩供烃,主要分布在斜坡北中部;C类原油位于蠡县斜坡中南部,油源分析及芳烃运移示踪参数指示其由肃宁洼槽Es_(1)^(下)烃源岩供烃。蠡县斜坡中南部油藏油源的明确,从源的角度证实了肃宁洼槽对蠡县斜坡中南部的供烃能力,为蠡县斜坡南部的勘探提供了有力的证据,对斜坡南部勘探具有重要指导意义。

准噶尔盆地玛湖凹陷西斜坡原油油源解析:基于单体烃碳同位素组成、分子比值与浓度定量分析

通过对玛湖凹陷中部(西斜坡)24个原油样品饱和烃组分、芳烃组分、二苯并噻吩(DBT)、甲基二苯并噻吩(MDBTs)、二苯并呋喃(DBF)和甲基二苯并呋喃(MDBFs)等化合物定量分析及正构烷烃单体C同位素组成分析,将油样分为Ⅰ、Ⅱ两类。与Ⅱ类原油相比,Ⅰ类原油具有:①相对较高的Pr/n-C17、Ph/n-C18值和较低的Pr/Ph值;②相对较高的伽马蜡烷/(C30藿烷+伽马蜡烷)值;③相对较高的C29甾烷异构化比值、三环萜烷/(三环萜烷+C30藿烷)值、三芳甾烷TA(Ⅰ)/(TA(Ⅰ)+TA(Ⅱ)值和甲基二苯并噻吩比值4-MDBT/1-MDBT;④相对较高的二苯并噻吩(DBT)和甲基二苯并噻吩(MDBTs)含量、较低的二苯并呋喃(DBF)和甲基二苯并呋喃(MDBFs)含量和较高的DBT/(DBT+DBF)和MDBTs/(MDBTs+MDBFs)值。其中,两类原油MDBFs含量和DBT/(DBT+DBF)、MDBTs/(MDBTs+MDBFs)值差异比较显著。此外,Ⅱ类原油正构烷烃单体C同位素分布型式具有一定程度的“倒转”,即随碳数增加δ^(13)C值先变轻,至n-C25达到最低值,之后变重,而Ⅰ类原油不具有“倒转”特征。Ⅰ类原油来源于下二叠统风城组烃源岩,Ⅱ类原油来源于中二叠统下乌尔禾组烃源岩与下二叠统风城组烃源岩的原油组分混合产物。Ⅰ类原油比Ⅱ类原油分布于相对较深的储层,两类原油具有不同的运聚通道和分布规律。

西湖凹陷天台斜坡新生代构造差异特征及其形成机制

天台斜坡位于西湖凹陷西斜坡的南段,经过35年勘探,仅钻探4口井,尚未取得商业油气发现,基础油气地质条件不明确制约了油气勘探进程。针对该斜坡构造特征缺乏系统研究的问题,以三维地震资料精细解释和综合地质分析为基础,系统总结了天台斜坡不同区段的新生代构造样式及其几何学特征和形成机制。天台斜坡自北往南依次表现为双向断层控制的北段复杂斜坡、反向断层控制为主的中段复杂缓坡和顺向断层控制为主的南段简单缓坡。天台斜坡构造特征的区段差异性与其新生代构造演化过程密切相关,从断陷阶段延续到断拗阶段的不均一伸展作用,在其北、中、南段分别控制了不同的断裂发育程度及构造组合样式,并在北段和中段之间形成了特殊的弧形断裂发育带。

辽河东部凹陷斜坡带扇三角洲地震沉积学表征

扇三角洲是断陷盆地斜坡带重要的油气储层类型,岩性复杂,沉积相带横向变化快,井间沉积相表征难。选取发育典型扇三角洲沉积的辽河东部凹陷斜坡带铁匠炉地区,开展地震反射等时性分析和多属性融合的沉积相地震表征。研究发现:1)斜坡带扇三角洲沉积区存在局部地震反射“穿时”现象,分频倾角差分析能识别显著的穿时地震反射。2)均方根振幅、能量半时和振幅不对称性属性包含了砂岩发育程度和岩性组合信息,对三者进行RGB融合,可为少井区沉积相地震表征提供简便且有效的方法。3)研究区发育北物源的两个大型扇三角洲和东南物源的一个小型扇三角洲,目前勘探开发主要集中在北物源扇三角洲储层。研究为斜坡带扇三角洲沉积相地震表征提供了有效方法,为研究区下一步勘探提供了方向和目标。

断陷盆地缓坡带物源转换与沉积响应——以渤海湾盆地饶阳凹陷蠡县斜坡古近系源-汇系统为例

寻求盆外物源通量变化与盆内沉积体系的定量耦合响应仍然是源-汇系统研究的薄弱环节,也是断陷湖盆源-汇系统研究框架下的一个重要命题。基于渤海湾盆地饶阳凹陷蠡县斜坡全覆盖的3D地震资料和岩心、测井数据,结合碎屑锆石U-Pb定年技术,对研究区古近系沙(沙河街组)二段与沙一段开展物源体系定量化表征,并通过定量沉积构造解释和定量地震地貌测量,建立了浅水三角洲的定量化表征方法。研究显示,沙一段-沙二段沉积时期,古永定河分支被古大清河袭夺,造成蠡县斜坡A区特征锆石含量由37%下降至26%,对应的A区浅水三角洲面积由144 km2减小至38 km2,平均水下分流河道宽度由104 m减小至47 m;古唐河水系特征锆石含量由31%上升至39%,对应的B区浅水三角洲面积由71 km2增加至94 km2,平均水下分流河道宽度由77 m增加至88 m;古大沙河水系沉积物通量未观察到明显变化,对应的C区浅水三角洲面积由206 km2降低至185 km2,平均水下分流河道宽度由120 m减小至81 m。构造作用、气候变化及湖平面升降等异旋回作用影响范围较大,将会造成沉积体系的同步响应;而物源通量变化将影响特定沉积体系,是研究区浅水三角洲沉积响应的主要驱动机制。