Sedimentary Processes and Depositional Characteristics of Coarse-grained Subaqueous Fans along Steep Slopes in a Lacustrine Rift Basin:A Case Study from the Dongying Depression,Bohai Bay Basin,China

Coarse-grained subaqueous fans are vital oil and gas exploration targets in the Bohai Bay basin,China.The insufficient understanding of their sedimentary processes,depositional patterns,and controlling factors restricts efficient exploration and development.Coarse-grained subaqueous fans in the Yong′an area,Dongying Depression,are investigated in this study.These fans include nearshore subaqueous fans,and sublacustrine fans,and their sedimentary processes,depositional patterns and distribution characteristics are mainly controlled by tectonic activity and paleogeomorphology.Nearshore subaqueous fans developed near the boundary fault during the early–middle deposition stage due to strong tectonic activity and large topographic subsidence.Early sublacustrine fans developed at the front of the nearshore subaqueous fans in the area where the topography changed from gentle to steep along the source direction.While the topography was gentle,sublacustrine fans did not develop.During the late weak tectonic activity stage,late sublacustrine fans developed with multiple stages superimposed.Frequent fault activity and related earthquakes steepened the basin margin,and the boundary fault slopes were 25.9°–34°.During the early–middle deposition stage,hyperpycnal flows triggered by outburst floods developed.During the late deposition stage,with weak tectonic activity,seasonal floods triggered hyperpycnal flows,and hybrid event beds developed distally.

柴达木盆地七个泉背斜狮子沟组与七个泉组构造-沉积演化及对砂岩型铀矿成矿的启示

从构造-沉积演化角度分析矿体的形成和发育过程是砂岩型铀矿研究工作的重要内容。作者基于文献调研、野外地质调查和井震解释,对柴达木盆地七个泉背斜狮子沟组与七个泉组构造-沉积演化过程及其与砂岩型铀矿成矿的联系开展研究。研究认为:(1)狮子沟组富泥质砂,呈现退积旋回;七个泉组富砾,呈现进积旋回,底部与狮子沟组间发育新近系—第四系角度不整合,内部发育规模稍小的第四系内部角度不整合;狮子沟组—七个泉组发育由泥石流、下切沟道—充填和片流沉积构成的大型冲积扇,其中砂质层中密集发育地震变形构造。(2)新近纪以来最剧烈的构造抬剥事件发生在新近纪—第四纪之交,由此形成了新近系—第四系不整合并奠定了七个泉背斜构造格局。(3)推测七个泉背斜狮子沟组砂岩型铀矿潜在铀矿化段主要形成于新近纪—第四纪构造抬剥事件中,该事件催生出含矿构造,并加大了源区铀通量,最终控制了潜在铀矿化段形成发育和空间展布。新近系—第四系不整合则可作为预测潜在铀矿化段空间展布的关键构造控矿标志。同时,冲积扇扇中/扇缘中砂砾岩百分含量介于20%~50%之间的砂(砾)泥互层带可作为关键沉积控矿标志。研究成果可以为青藏高原东北缘盆地分析提供沉积学和地层学证据,对理解柴达木盆地其他背斜砂岩型铀矿形成发育过程具有重要价值。

Diagenesis of the Paleogene Sandstones in the DN2 Gas Field,Kuqa Foreland Basin and its Link to Tectonics

We investigated diagenesis of the sandstones from the DN2 Gas Field of the Kuqa Foreland Basin(KFB),in order to infer the timing of fluid migration and discuss the linkage between fluids and tectonics.The textures and chemical composition of authigenic minerals,fluid evidence from fluid inclusions and formation water measurements were all used to fulfill this aim.Eodiagenesis occurred with the participation of meteoric water and connate water.Mesodiagenesis is related to high salinity fluids,which were attributed as originating from the overlying Neogene Jidike Formation evaporite(principal minerals including halite,anhydrite,glauberite,carnallite and thenardite).The onset of high salinity fluid migration is inferred to occur during the late Miocene(12.4-9.2 Ma)through the use of homogenization temperatures measured in the present study and K-Ar dating of authigenetic illites from previous work.This period is consistent with the crucial phase(13-10 Ma)that witnessed the rapid uplift of the southern Tianshan Mts and the stage when calcite and anhydrite veins formed in the studied strata.We thus argue that diagenesis related to high salinity fluids occurred as a response to the Tianshan Mts'rapid uplift and related tectonic processes.The flow of high salinity fluids was probably driven by a density gradient and channeled and focused by fractures formed contemporaneously.

库车坳陷迪那气田古近系裂缝发育的多样性与差异性

以岩心观察和薄片鉴定为基础,辅以扫描电镜、粘土矿物X-衍射、流体包裹体、油层物性分析等手段,结合区域地质研究成果,系统研究塔里木盆地库车坳陷迪那气田古近系低渗-特低渗砂岩储层裂缝的多样性和差异性。结果表明:宏、微观裂缝主要为构造裂缝,其余依次为溶蚀裂缝、成岩裂缝和超压裂缝。构造裂缝分为剪切裂缝、扩张裂缝和震裂缝3种主要类型(以剪切裂缝为主)和3个发育期次;其中对储集烃类最为有效的裂缝形成于晚喜马拉雅期(上新世末期,即2.6~1.81 Ma)的构造挤压作用;溶蚀裂缝、成岩裂缝与超压裂缝与油气注入引起的溶蚀作用、粘土矿物脱水收缩、强烈构造挤压、快速深埋及流体增压造成的地层超压有关,主要形成时间为库车末期至西域期(2 Ma至现今)。裂缝发育的差异性主要受岩石类型、沉积相带、单层厚度和与主控断层距离的控制。位于气田中部的水下分流河道以粉细砂岩为主,裂缝最发育,单井产能高。裂缝线密度与单层厚度呈"座椅"式负相关,随着与主控断层距离增大而减小;泥岩裂缝线密度小于0.4条/m,且与单层厚度无关。

多断湖盆构造控砂与沉积充填过程——以渤海湾盆地济阳坳陷沾化凹陷东部始新统为例

构造控砂一直为断陷盆地分析调查工作的重点和难点。综合井-震、岩心和镜下鉴定资料,以渤海湾盆地济阳坳陷沾化凹陷东部始新统沙四上亚段—沙三段(SQ1—SQ3)为例,探讨构造主导下的控砂机制和沉积充填过程,取得认识如下:1)Ⅰ级构造转换带奠定盆地宏观构造-沉积格局,多阶构造坡折叠合湖平面升降控制三级层序内部体系域之间的砂体加积与沉积体系旋回性变化,Ⅱ级构造坡折和次级断层控制体系域内局部输砂系统和砂体展布,陡坡带往往不利于碎屑物质注入湖盆;2)SQ1—SQ2存在孤北和孤南两个独立输砂系统,SQ3两个输砂系统合二为一,SQ1主要发育进退积不明显的、小而多的扇三角洲,SQ2开始发育三角洲、(半)深湖和滑塌砂体,SQ3主要发育大型三角洲,(半)深湖区广泛发育滑塌砂体;3)构造活动通过构造转换带、坡折带、次级断层和陡坡带等主导多断湖盆控砂机制和沉积充填过程,气候仅可强化或弱化前者的控制作用,但不会改变盆地充填过程。

近岸水下扇微相划分研究及意义初探——以滦平盆地下白垩统西瓜园组为例

滦平盆地下白垩统西瓜园组沉积期发育大量的粗碎屑岩沉积,通过野外实地考察以及结合无人机摄影技术,将流体搬运机制与微相划分相结合,对断陷湖盆内部粗碎屑沉积体进行详细研究。结果表明:滦平盆地西瓜园组沉积期北部受边界断层活动影响,发育典型陆相断陷湖盆的近岸水下扇沉积体系。根据露头观测及研究,可划分出扇根、扇中及扇端三种亚相。其中扇根亚相以碎屑物质直接入湖、岩性较粗、分选极差、无磨圆为特征。扇中亚相采用"水下河道微相"及"边缘微相"的划分方式,水下河道微相可见同时发育由碎屑流及浊流两种不同流体性质控制的沉积体,沉积迅速,界限清晰且含轻微冲刷,横向连续性较为稳定,砾石出现一定定向性,磨圆较差,在扇中亚相中最为发育;边缘微相沉积相对较为混杂,漂砾较为常见,可见明显的板状交错层理,横向连续性差,指示河道的改道或者边缘沉积,不发育冲刷-充填构造。扇端亚相以砂泥岩薄互层或者厚层细砂岩为特征,可见细小砾石层。微相划分方法结合流体搬运机制及沉降方式,更加具有成因性依据,同时更好地解释了远离物源区的稳定砾石层发育。研究结果为近岸水下扇内部砂体发育规律和叠置关系研究及下一步油气勘探与开发提供了新思路。

悬浮法PVC树脂粒径的影响因素

讨论了悬浮法PVC树脂生产过程中影响树脂粒径的主要因素,有针对性地从聚合釜搅拌、反应配方、体系氧含量、pH值、聚合温度和转化率等方面提出了粒径的控制方案。

滦平盆地陡坡带下白垩统西瓜园组水下粗碎屑岩沉积特征及搬运机制

为探讨陆相断陷湖盆陡坡带构造活动控制下水下粗碎屑岩沉积特征、搬运机制及其演化规律,以滦平断陷盆地陡坡带下白垩统西瓜园组为研究对象,采用无人机倾斜摄影、实测剖面、砾石定向性定量表征等技术方法,从沉积背景、岩相类型、沉积单元及相序特征等方面开展野外露头解剖工作.滦平盆地西瓜园组沉积时期,近岸水下扇沉积于构造沉降速率大、湖平面上升、深水、古地貌陡峭环境,洪水携带粗碎屑沉积沿陡坡带入湖,底部发育与地震活动相关的砾质碎屑流,伴随发育滑动‒滑塌沉积,上部发育高密度浊流.随着沉积物不断供给,斜坡坡度逐渐减小;随着粗碎屑沉积搬运距离不断增加,砂砾质碎屑流中砾石表现出明显定向性,高密度浊流所占厚度比例增加;末端以低密度浊流为主.扇三角洲沉积于构造沉降速率相对较低、水深相对较浅、古地貌相对平缓的环境,发育相对成熟的供源体系,汇水系统长度较长,扇三角洲前缘粗碎屑岩由碎屑流向高密度浊流、牵引流、低密度浊流转换.