Geochemical evidence of paleogeography and paleoclimate during deposition of the 2nd Member of Kongdian Formation in Kongnan area

The 2nd Member of Kongdian Formation has been made up of a large number of oil shale and mudstone in the Kongnan aera of Huanghua depression around the Bohai Bay.In the Kongnan area,the lake basins were very large and deep during the deposition of the 2nd Member of Kongdian Formation.During that period,the lakes were sealed,uncommunicated with the sea water and the paleoclimate was very warm and wet in Kongnan area.Analyzing the content of the trace element and the rare earth element,carbon and oxygen isotope in the disquisition,The authors prove the two views correct.

Reconsideration of the sediment characteristics of the second member of the Triassic Xujiahe Formation in Sanhuiba,Huaying Mountain

The second member of the Triassic Xujiahe Formation in the Sanhuiba area in Huaying Mountain is an important section of sedimentary delta facies in the Chongqing Tianfu Geological Survey and Training Base. In spite of some initial efforts on its lithology and lithofacies, the existing research is yet to be completed and suffers from contradictory conclusions and inadequate evidence. Starting from the sedimentary microfaeies types and cyclic features, we analyzed the vertical sequence of a sedimentary delta model and discovered that this section is a constructional delta deposit. Eight incomplete and asymmetric regressive cycles are marked off, given that frequent erosion surfaces appeared in the section. Based on the analysis of structural characteristics of every monocycle, we summarized the system of cycles, tracts and sequence characteristics of the overall section. In view of this systematic series of cycles, we discussed the features of the syndepositional tectonic movements in the area and conclude that, due to frequent erosion, migration and diversion of a sub-channel branch was brought about by oscillating movements of the crust. In a comparison with neighboring sections, we explored the cause of erosion and the relations between erosion and cycles. This study greatly strengthens existing research and theories, makes an important and comprehensive contribution to geological surveys and training in the area and provides essential suggestions for coal exploration, oil and gas evaluation and in general to exploration and development in the target stratum.

莱州湾洼陷带浅层岩性油藏富集机理与亿吨级油田新发现——以垦利10-2油田为例

针对莱州湾凹陷深洼带浅层明下段油气成藏与富集机制不明的关键问题,利用钻测井、三维地震资料等综合分析,结合古环境、现代沉积类比、地球化学指标等分析,开展了砂体展布规律、油藏运聚模式研究,揭示了莱州湾凹陷洼陷带明下段沉积古环境与规模性砂体发育机制,建立了岩性油藏油气运移和大面积岩性油藏富集模式。研究表明:(1)明下段Ⅳ油组与Ⅴ油组水生草本植物占比高,化石丰度与分异度介于湖相与河流相之间,为典型的河湖交互沉积环境;测井曲线既有反映河流相砂体的正旋回特征、湖泊作用的反旋回特征,也有正、反复合旋回特征;受河流-湖泊沉积环境频繁交互、快速转换,共同组成了大面积展布、内部广泛连通的“枝蔓式”连片砂体。(2)油气经过陡坡带深层砂体中转站聚集,再通过边界油源断层运移至浅层,最后沿着浅层连片砂体向南部高部位运移;地化指标均具有长距离的运移效应,表现为“迂回式”的成藏特点。(3)明下段岩性油藏富集机制受控于连片砂体展布范围、砂体构型与泥岩封盖能力共同控制;油气先沿河道线状充注,再向湖漫砂体面状调整,形成了浅层砂体“先枝后蔓-枝蔓互联”的大面积连片含油场面;不同期次砂体构型差异控制油气富集程度,其中“枝蔓式”连片砂体保存能力优于孤立河道砂体,最大含油幅度可达117 m。新认识成功指导发现中国深洼带浅层首个大型高产岩性油田--垦利10-2油田,突破了被传统认定为渤海浅层勘探的“禁区”,开辟了渤海湾盆地深洼带浅层大型油田发现的新局面。

四川盆地东部地区二叠系茅口组孤立浅滩的发现及天然气勘探潜力

中二叠统茅口组长期以来一直是四川盆地天然气勘探的重点层系之一,茅口组天然气勘探开发先后以四川盆地南部地区岩溶缝洞型石灰岩储层和四川盆地中部地区滩相白云化储层为主要目的层系。为了寻找并落实茅口组下一个天然气勘探方向,在勘探程度相对较低的四川盆地东部(以下简称川东)地区开展了大量基础研究工作,在重新梳理地层格架的基础上,对茅口组沉积、储层及成藏条件进行了系统分析,指出了该区孤峰段硅质岩下茅二下亚段孤立浅滩的存在,最后明确了茅口组天然气的勘探潜力。研究结果表明:(1)川东地区在茅口组孤峰段事件性硅质岩沉积之前,宣汉—万州地区茅二下亚段发育碳酸盐岩孤立浅滩,面积可达6500 km^(2);(2)在宣汉—万州地区茅二下亚段发现了滩相基质孔储层,其中发育于茅二下亚段底部的孔隙型白云岩储层厚3~12 m,发育于茅二下亚段中上部的孔隙型石灰岩储层厚5~18 m;(3)川东地区茅口组滩相储层成藏条件优越,其中烃源岩主要为下伏上奥陶统五峰组—下志留统龙马溪组厚层页岩,且与烃源岩沟通的断裂发育,区域盖层主要为孤峰段硅质岩及吴家坪组海相泥岩、页岩,保存条件良好。结论认为,川东地区茅口组孤立浅滩的发现和良好的成藏组合条件,将进一步加快该区天然气勘探开发进程,茅口组大面积分布的高能浅滩有望成为下一个天然气勘探开发重要领域。

秦皇岛29-2油田与米桑油田的混合沉积储层对比

对比我国秦皇岛29-2油田与伊拉克米桑油田的储层岩性、储集空间、沉积模式等特征。秦皇岛29-2油田与米桑油田均发育混合沉积,前者发育湖相混合沉积,后者发育海相混合沉积。这两类沉积储层都具有岩性复杂多样、物性差异大的特点,且储集空间均以次生溶蚀孔隙为主,残余原生孔隙度不高,部分颗粒间有少量原生孔隙在一定条件下得以完好保存。二者储层岩性的差异在于:秦皇岛29-2油田的沙二段储层厚度变化大且规模有限,主要优质储层为生屑云岩层;米桑油田的储层厚度稳定且分布广泛,主要优质储层为含石英砂岩层。其储集空间的差异在于:秦皇岛29-2油田沙二段受到淡水淋滤作用;米桑油田Asmari组在构造作用下形成大量微裂缝,扩大了储集空间,加大了储层的连通性。构造作用、沉积物源供给的差异导致了两油田储层规模和分布特征的差异。

四川盆地红星地区二叠系页岩岩相及其微观孔隙结构特征

四川盆地红星地区二叠系是页岩气勘探的重要接替领域,目前整体勘探程度低,页岩岩相类型不清、储层微观孔隙结构特征不明。利用铸体薄片、扫描电镜、X射线衍射、总有机碳(total organic carbon,TOC)和低温氮气吸附实验等技术手段,明确了二叠系茅口组四段-吴家坪组页岩岩相类型及其微观孔隙结构特征,探讨了优质储层主控因素。结果表明:①红星地区二叠系页岩发育高碳高硅类、高碳低硅类、低碳高硅类、高黏土类和灰质混合类共5种岩相类型;②高碳高硅类岩相储集特征以微孔-小孔为主,高碳低硅类页岩储集特征以微孔为主,低碳高硅类页岩储集特征以小孔-中孔为主,高黏土类页岩储集特征以中孔-大孔为主;灰质混合类页岩储集特征以大孔为主;③高碳高硅类岩相孔隙度、孔体积和比表面积最大,其次为高碳低硅类、高黏土类和低碳高硅类,灰质混合类岩相最小;④微孔主要受有机质含量控制,微孔体积与有机质含量成正比,小孔体积与长英质矿物含量成正比,中孔体积与黏土矿物含量成正比,大孔基本不发育;⑤综合岩相发育占比和储集特征认为,高碳高硅类和高碳低硅类岩相是最优质的岩相类型,高黏土类和低碳高硅类次之,灰质混合类相对最差。

Analysis of lithofacies and evaluation of effective reservoirs of member 2 of Xujiahe Formation in the Xinchang area in Western Sichuan

In the Xinchang area in western Sichuan Basin,a total of 121.12 billion cubic meters of proved reserves of natural gas are discovered in Member 2 of Xujiahe Formation,but only 7.739 billion cubic meters of proved reserves of natural gas are produced.The main reason is that sandstones in Member 2 of Xujiahe Formation in the Xinchang area are generally tight,with strong heterogeneity,only intervals with relatively good physical properties have a certain production capacity;therefore,it is very necessary and important to evaluate effective reservoirs in Member 2 of Xujiahe Formation.Through analysis of cores,with consideration of color,sedimentary texture and grain size,lithofacies of Member 2 of Xujiahe Formation in the Xinchang area can be divided into 12 types.According to data of physical properties and thin section analysis,it can be concluded that the favorable lithofacies in the upper submember of Member 2 of Xujiahe Formation are the massive medium-coarse sandstone,the medium-coarse sandstone with cross bedding,and the medium-coarse sandstone with carbonaceous fragments.On the basis of electrical characteristics,well-logging interpretation standards for favorable lithofacies are established,in addition,favorable lithofacies and effective reservoir in the Xinchang area are determined,and distribution of favorable lithofacies(effective reservoir)is identified,which lay a solid foundation for next deployment of appraisal well and development of effective reserves.

Micropore structure characteristics and quantitative characterization methods of lacustrine shale-A case study from the member 2 of Kongdian Formation, Cangdong sag, Bohai Bay Basin

To better understand the micropore characteristics of lacustrine shale and develop quantitative methodsfor characterizing lacustrine shale, the reservoir space types, structures and spatial distribution patternsof effective pores in the shale of Member 2 of Kongdian Formation in Cangdong sag are studied usingcores, thin sections, scanning electron microscopy (SEM), confocal laser scanning microscopy (CLSM),nuclear magnetic resonance (NMR), whole-rock X-ray diffraction (XRD) data, etc. Various shale porositycalculation methods are evaluated. The study results show that the reservoir spaces of the shale mainlyinclude three types, i.e., matrix pores, organic pores and fractures. Flaky pore throats formed bydissolution-induced pores and mould pores can improve the pore connectivity. NMR effective porosity ofthe shale varies from 0.59% to 4.42% with an average of 2.38%, accounting for 49.54% of the total NMRporosity and 34.53% of the gas porosity. The shale is divided into the unimodal-type felsic shale, bimodaltype felsic shale, carbonate shale and mixed shale. The different lithologies exhibit linear correlationsamong NMR, gas and effective porosities. The shale has effective porosity of 0.56%-4.53% with an averageof 2.12%. Furthermore, the shale reservoir is divided into four classes: Class I reservoir with effectiveporosities of more than 2.5%;Class II1 reservoir with effective porosity of 2.0%-2.5%;Class II2 reservoirwith effective porosity of 1.5%-2%;and Class III reservoir with effective porosity of less than 1.5%.

Geological characteristics and key exploration technologies of continental shale oil sweet spots: A case study of Member 2 of Kongdian Formation in the Cangdong sag in the Huanghua depression, Bohai Bay Basin

Under the general trend of stepping-up oil and gas exploration and development in China,the unconventional oil and gas resources such as shale oil and gas have become an important alternative.Abundant continental shale oil resources are developed in Member 2 of Kongdian Formation(Ek2)of the Cangdong sag in the Huanghua depression of the Bohai Bay Basin which has complex structure,strong heterogeneity,and large buried depth,thus,the geological characteristic of shale oil accumulation and key exploration technologies are investigated on base of the system coring of 635.8 m,centimeter-level fine description and analysis of over ten thousand samples,therefore,the“four accurate”technologies have been developed,including the accurate selection of sweet spot areas,accurate drilling of sweet spot layers,accurate fracturing of sweet spot layers and accurate measure of fracture-rich sections.The results show that the continental shale strata in Member 2 of Kongdian Formation can be divided into three types:felsic shale,limy dolomitic shale and mixed shale.The Member 2 of Kongdian Formation is characterized by diverse mineral components,abundant laminae,good source rocks and medium thermal evolution degree,tight reservoir with rich micropore and microfractures,high oil saturation and brittle mineral content,indicating good prospect of shale oil exploration.Through sedimentological study,TOC and Ro evaluation,brittle mineral calculation,and seismic fusion inversion,a total of 126 km^(2) of Class I sweet spots in Member 2 of Kongdian Formation was delineated comprehensively,which guides horizontal well deployment(Well GD1701H and Well GD1702H).The drilling rate of sweet spot of these two horizontal wells is up to 96%by tracing thin layer through fine calibration,locating compartment through fine inversion,ensuring window entry through precise positioning,and tracking sweet spot through adjustment.The “one-excellent and five-highs”criterion is used to select perforation points to realize differential designs of fracturing intervals and clusters.Micro-seismic and potentiometry monitoring show that the artificial fractures formed by volumetric fracturing are 300e400 m long and 120 m high,and control a volume of about 0.07 km^(3).The maximum daily oil production of two horizontal wells is 48 t and 66 t respectively to realize the economic exploitation of shale oil reserves controlled by fractures.The shale oil exploration in Member 2 of Kongdian Formation shows that the continental shale oil has great potential of exploration and development,and the above technologies are critical and effective for shale oil efficient recovery.

川西南地区中二叠统茅口组一段沉积微相特征及有机质富集模式

为了研究四川盆地中二叠统茅口组一段(茅一段)沉积微相和有机质富集规律,开展了岩石学、沉积微相分析。将川西南乐山沙湾剖面茅一段划分为生物碎屑含灰泥岩(MF1)、生物碎屑泥灰岩(MF2)、生物碎屑含泥灰岩(MF3)、灰泥灰岩(MF4)、生物碎屑粒泥灰岩(MF5)、钙藻粒泥灰岩(MF6)、生物碎屑泥粒灰岩(MF7)和钙藻泥粒灰岩(MF8)共8个沉积微相。结合沉积古环境及地球化学分析认为:①茅一段早、中期,主要发育MF2沉积微相,其次为MF7和MF8沉积微相。该期整体为海侵、缺氧环境,发育上升洋流,初级生产力较高。中、晚期主要发育MF6、MF7和MF8沉积微相,为相对海退环境,含氧量略有上升,上升洋流强度减弱,初级生产力下降。末期以MF2沉积微相为主,含氧量略有上升,初级生产力增强。②茅一段的有机质富集主要受海洋初级生产力与缺氧环境的调控,同时受上升洋流的间接影响。较高的初级生产力与较低的含氧量有利于有机质富集与保存。上升洋流可带来深层营养成分,从而增强海洋初级生产力。③MF2与MF7沉积微相在区域上稳定分布,且具有较高初级生产力和较低含氧量沉积环境,是茅一段有机质富集的有利沉积微相。

眼皮-眼球灰岩地球化学特征及其古环境意义——以川中地区茅一段为例

在岩心观察和岩石薄片鉴定基础上,对川中地区茅一段眼皮-眼球灰岩岩心样品进行常量元素、微量元素、碳氧同位素及稀土元素测试分析,探讨了眼皮、眼球灰岩2种岩相地球化学特征及其古环境意义。研究结果表明:1)眼皮灰岩泥质质量分数为10%~45%,而眼球灰岩小于10%。2)眼皮、眼球灰岩δ^(13)CPDB平均值分别为4.38‰,3.84‰,δ^(18)OPDB平均值分别为-5.39‰,-6.00‰,总稀土元素质量分数平均值分别为10.54,3.43μg/g;眼皮、眼球灰岩均呈Ce负异常、Eu正异常特征,且眼球灰岩异常程度更高。3)眼皮、眼球灰岩不同常量氧化物之间的质量分数相关性明显,眼皮灰岩相关系数为0.52~0.95(平均值0.69),而眼球灰岩为0.91~0.99(平均值0.96)。4)眼皮灰岩微量元素、总稀土元素及陆源元素质量分数均显著高于眼球灰岩,反映2种岩相原始沉积物组成存在差异,眼皮灰岩陆源物质输入更高。5)眼皮、眼球灰岩均沉积于干热气候下的高盐度海水缺氧环境,平均古水深相近,平均古水温分别为19.9,22.5℃;眼球灰岩沉积时期气候更炎热,古气候周期性变化是造成原始沉积物组成差异的主要因素。研究成果对深化四川盆地茅一段眼皮-眼球灰岩成因认识具有重要意义。

苏北盆地高邮凹陷阜宁组二段页岩裂缝特征分析

苏北盆地高邮凹陷阜宁组二段(以下简称阜二段)页岩油勘探获得突破,是未来增储上产的现实目标。裂缝作为储集空间和运移通道,在页岩油勘探开发中发挥着重要作用。以X1井为研究对象,根据成像测井、岩心和微观薄片观察结果,分析了高邮凹陷阜二段页岩油储层不同尺度裂缝发育特征;结合裂缝参数统计和裂缝充填物稳定碳氧同位素分析,确定了裂缝形成期次,讨论了裂缝动态演化过程及裂缝对页岩油气富集的影响。结果表明:构造裂缝总体较为发育,主要为脆性剪切裂缝和张剪性裂缝,剪切裂缝长度长,横向连通性好;非构造裂缝主要为层理缝和顺层方解石脉,在部分亚段异常发育。不同类型的天然裂缝后期均遭受了一定程度的改造,未被完全充填的裂缝、裂缝充填物溶蚀形成的孔洞,以及超压层理缝和微裂隙,均是页岩油有利的储集空间。研究结果为高邮凹陷深层页岩油选区、选段提供了新的思路和理论依据。

苏北盆地高邮凹陷阜二段页岩天然裂缝发育特征及其对页岩油富集和保存的影响

苏北盆地高邮凹陷古近系阜宁组二段(阜二段)页岩油勘探获得重大突破,是下一步增储上产的重要领域。页岩层系中天然裂缝发育复杂,其对页岩油富集和保存的影响认识不清,制约了下一步勘探部署。综合来自HY1、H101、HY7、S85X等井的岩心、录井、测井和镜下薄片、扫描电镜、大视域扫描电镜拼接(Maps)、微区矿物扫描(Qemscan)、冷冻岩心有机地球化学分析等资料,结合HY1HF、HY3HF等井的生产动态资料,系统分析了阜二段页岩层系中天然裂缝发育特征,进一步揭示了不同类型天然裂缝对页岩油富集和保存的影响。结果表明,阜二段页岩层系主要发育穿层构造裂缝和层控构造裂缝,以及层理缝和收缩缝等非构造裂缝。其中,穿层构造裂缝发育程度与岩性及构造部位密切相关;层控构造裂缝主要发育在白云石条带、砂质/白云质混合条带和顺层方解石脉等脆性层;层理缝主要为异常高压成因,发育集中在阜二段中下部Ⅲ~Ⅴ亚段。层理缝与顺层方解石脉、白云石条带和砂质/白云质混合条带中发育的层控构造溶蚀缝洞既是页岩油的有利储集空间,也是高效渗流通道,有利于页岩油富集;穿层构造裂缝有效性较好,相对于页岩的基质更为富集页岩油(S 1),但其纵横向连通性较好,因而也是页岩油逸散的高效通道,对阜二段Ⅴ亚段“Ⅴ下”甜点层保存条件不利,对Ⅳ亚段甜点层影响较小,平面上与断层距离越小,断层规模越大,构造裂缝越发育且越不利于页岩油保存。

榆林气田山西组2段砂岩成岩作用及孔隙演化

榆林气田主力气层山西组2段为一套辫状河三角洲沉积,储集岩主要为石英砂岩、岩屑石英砂岩。该储层砂岩是典型的低孔低渗储集岩。以岩芯观察为基础,结合对薄片鉴定、扫描电镜、阴极发光和物性等资料分析后认为,榆林气田山西组2段砂岩经历了压实作用、胶结作用、交代作用、溶解作用和粘土杂基的充填作用等多种成岩作用,目前已达到了晚成岩阶段A期。山2 段储集砂岩孔隙中,原生粒间残余孔隙占44.7% ,各类次生孔隙占5 5 .3% ,可见成岩作用是控制该区储层物性特征的一个关键因素。孔隙演化经历了原生孔隙的破坏、次生孔隙的形成和次生孔隙的破坏3个阶段,其中压实、胶结作用起主要破坏性作用。

鄂尔多斯盆地中东部山2段储集层岩性微观特征差异性的地质意义

通过大量薄片观察、扫描电镜、阴极发光等分析,并结合储集层物性、压汞等分析资料,研究鄂尔多斯盆地中东部山2段石英砂岩与岩屑砂岩微观储集特征的差异。石英砂岩石英含量高,杂基和软岩屑含量低,几乎不含长石;岩屑砂岩则石英含量低,杂基和软岩屑含量高,普遍含少量长石。根据石英砂岩与岩屑砂岩的石英颗粒表面特征的显著差异分析,石英砂岩是清水高能化学环境的沉积,沉积速率缓慢,具有以粒间孔为主的复合型孔隙组合,储集性好,勘探前景广阔;岩屑砂岩是混水低能、地表化学作用较弱环境的沉积,沉积埋藏作用迅速,孔隙发育差,仅见少量粒内溶孔,储集性差,勘探效益不明显。

苏北盆地构造演化对阜二段页岩油富集成藏的控制作用初探

苏北盆地几大主力凹陷阜二段页岩油勘探接连取得重大突破,但不同凹陷、不同井区页岩油产量差异较大,在大面积连续分布的页岩油层中科学高效地寻找甜点区,构造的影响及控制作用不可忽视。因此从构造特征和构造演化入手,通过对比不同凹陷地层、构造、沉积演化和地层压力等特征,来综合研究构造演化对页岩油富集的控制作用。

鄂尔多斯盆地山2段砂岩储层的孔隙类型与孔隙结构

在铸体薄片鉴定、粒度分析、压汞曲线及物性分析统计的基础上,对鄂尔多斯盆地山2段砂岩储层的孔隙类型、孔隙结构等微观特征进行了深入分析,结果表明:山2段储集空间主要为粒间溶孔、原生残余粒间孔、岩屑粒内溶孔、杂基溶孔和高岭石晶间孔,局部发育微裂隙;渗透率随孔隙度的增大而增大,而孔隙度和渗透率的大小又与砂岩的孔隙结构有关。根据砂岩的压汞参数及物性特征,划分出4类储层:Ⅰ类——优质储层,主要发育粒间溶孔,具有较好的颗粒支撑,孔隙连通性好;Ⅱ类——较好储层,其储集空间为粒间溶孔—粒内溶孔—高岭石晶间孔组合;Ⅲ类——较差储层,主要发育残余粒间孔—高岭石晶间孔组合;Ⅳ类——差储层,仅发育孤立微孔。指出粗粒结构与含砾支撑结构的石英砂岩储层物性较好;含砾支撑结构储层具有双众数粒度分布特征,有利于孔隙水的流动,促进填隙物溶蚀和粒间溶孔的形成,使得储层的渗透率得到提高。

鄂尔多斯盆地延长油气区山西组山2段储层砂岩成岩作用

根据薄片、铸体薄片、扫描电镜、X-射线衍射及化验分析等资料,对延长油气区山2段储层的岩石学特征、成岩作用类型和阶段划分及其对孔隙的影响进行了研究。研究表明,该区山2段储层砂岩以石英砂岩、岩屑质石英砂岩为主,成分成熟度较高,结构成熟度较低。成岩作用类型主要包括:压实作用、胶结作用和溶蚀作用。砂岩经历了早成岩阶段A、B期和晚成岩阶段A1、A2和B期的成岩演化阶段。压实作用和胶结作用是砂岩孔隙度降低的主要原因,分别造成19.5%和14%的原生孔隙丧失;溶解作用形成的次生孔隙在一定程度上改善了砂岩储集性能,溶蚀作用增加的新孔隙平均为1.7%。

鄂尔多斯盆地长北气田山西组2段高分辨率层序构型与砂体预测

以钻井测井、岩芯描述和样品分析为基础,高分辨率层序分析为技术方法对鄂尔多斯盆地长北气田山西组2段进行了精细的沉积相和层序分析,将山2段确定为海相辫状河三角洲沉积体系,并将其划分为1个长期、2个中期、4个短期和9个超短期基准面旋回层序和2大类5种基准面旋回结构类型。分析了不同级别基准面旋回层序的叠加式样与砂体展布和演化规律,建立了以中期基准面升、降半旋回相域为等时地层单元的山2段地层格架和对单砂层进行了等时追踪对比,确定中期上升期是三角洲河道砂体连续叠置形成巨厚砂体的最有利时期,洪泛期为细粒沉积物沉积期,也是隔层和局域性盖层主要发育期,下降期受侵蚀影响河道砂体不发育。以高分辨率层序分析为基础,建立等时地层格架为约束条件,结合单砂体为等时地层单元编制砂岩等厚图、砂/泥比等值线图和沉积微相图,对长北气田山2段砂体分布开展序贯指示三维模拟和预测,为长北气田山2段气藏高效开发提供依据。

渤海湾盆地渤中坳陷渤中25-1油田古近系沙河街组沙二段沉积相及演化

渤中25-1油田位于渤海湾盆地渤中坳陷南部,其主力油层为古近系沙河街组沙二段。在岩心观察的基础上,结合测井、录井及地震资料综合分析,认为沙二段发育辫状河三角洲和湖泊2种沉积相类型;由于距离物源较远,研究区内主要发育辫状河三角洲前缘亚相和滨浅湖亚相。沙二段沉积时的古地貌北高南低,早期水体较浅,主要发育由西南部低洼处向东北部隆起区超覆的滨浅湖滩坝砂体;随着构造沉降、水体加深,来自西南物源的辫状河三角洲前缘砂体向东北方向不断推进,最终占据了研究区的主体,滩坝砂体则逐渐萎缩至消亡;沙二段沉积末期,研究区西部BZ25-1-1井区发生局部构造抬升遭受剥蚀,导致该井区完全缺失沙二段,周边井区也有不同程度的厚度缺失。