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高邮凹陷阜三段沉积相分析 总被引:3,自引:2,他引:3
张金亮 《中国海洋大学学报(自然科学版)》2002,32(4):591-596
根据岩心微相分析、砂体形态和测井剖面对比分析 ,对阜三段各亚段的沉积微相进行了研究 ,掌握了沉积微相的时空展布和变化规律。在三角洲前缘发育区 ,由东北向西南方向 ,相带分异比较明显 ,由三角洲前缘的水下分流河道 -河口砂坝变为前缘席状砂和前三角洲及较深水湖泊相沉积。水下分流河道和河口砂坝砂体相互连接 ,形成厚度较稳定的三角洲前缘复合体 ,储油物性较佳。 相似文献
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本次研究依据大量的钻井、露头和岩心资料,根据沉积构造、沉积层序特征及测井曲线对比分析,对姬塬地区延九段的沉积相进行研究,认为本区延九段为潮湿气候条件下的辫状河—辫状三角洲沉积,且明确了沉积相的时空展布和变化规律。研究区辫状三角洲平原上分流河道比较发育,还发育分流间、决口扇和沼泽沉积;三角洲前缘上主要发育水下分流河道和水下分流间。研究区储层砂体发育各种层理构造和侵蚀构造。河道砂坝储层物性好,常叠覆形成构造小高点,可形成构造-岩性油藏。 相似文献
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金湖凹陷阜三段沉积相分析 总被引:3,自引:0,他引:3
根据岩心微相、砂体剖面层序和砂体平面展布分析,对金湖凹陷阜三段沉积微相进行了研究,研究表明整个凹陷共发育了3个三角洲垛体,其中源于张八岭隆起和建湖隆起的水系在西斜坡形成了广布型的三角洲前缘沉积,另2个位于卞闵杨地区和在宝应地区,三角洲前缘相带分异比较明显,由三角洲前缘的水下分流河道-河口砂坝变为前缘席状砂和前三角洲。水下分流河道和河口砂坝砂体相互连接,形成厚度较稳定的三角洲前缘复合体,加之临近生油层,三角洲前缘砂体具有较大的勘探潜力。 相似文献
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新近系明化镇组下段(明下段,N1ml)为黄河口凹陷BZ34油区的主力含油层段,该时期主要发育河控型浅水三角洲前缘沉积。为更好地表征前缘砂体的结构特征及展布规律,以BZ34油区明下段Ⅱ油组为例,综合应用岩芯、地震属性和测井等资料,分析总结了该地区的砂体沉积类型、砂体结构及沉积模式。研究结果表明:BZ34油区明下段Ⅱ油组砂体以浅水三角洲前缘水下分流河道为主;依据测井形态和叠置关系,将其砂体结构类型划分为4种:块状切叠型河道、层状叠置型河道、层状孤立型河道和指状孤立型河道;砂体结构展布特征及成因主要受古地形、沉积物供给速率、基准面旋回和古气候等因素影响。BZ34油区的水下分流河道沉积,具有垂向上交错叠置、平面上摆动连片的分布特征,与鄱阳湖现代河控浅水三角洲河道的沉积特征类似。该研究对BZ34油区后期部署加密调整井和剩余油挖潜工作具有指导意义。 相似文献
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《中国海洋大学学报(自然科学版)》2017,(9)
塔里木盆地的东河砂岩体并不是简单的滨岸沉积产物,在不同地区具备独特的沉积背景,发育不同模式控制的砂体。根据钻井、测井和地震等资料,通过塔里木盆地东河1油田实例研究,揭示了该地区浪控滨岸砂体的沉积机制和分布样式。结果表明,东河塘地区东河砂岩沉积发育具有三角洲改造背景的浪控滨岸沉积体系,其形成源于区域上的浪控三角洲背景,海侵期遭受波浪及沿岸流的强烈改造,形成现今的滨岸沉积体系。在此基础上,将改造作用最明显的临滨带砂体按成因类型进一步分级,提出了临滨坝的三类砂体组成单元:正常滨岸沉积型、水下分流河道改造型以及河口坝改造型。同时,对其分布及演化进行了探讨,认为正常滨岸沉积的滩坝砂体整体呈相对席状平行于古海岸线分布,在局部构造较低部位形成不规则窄条带状的临滨槽沉积;三角洲前缘改造型滨岸砂体兼具原始三角洲和现代滨岸沉积的形态特征,原始水下分流河道砂体自北东方向呈树枝状向海延伸;河口砂坝在原始水下河道河口处呈舌状分布;席状砂发生明显侧向迁移、以片状分布。 相似文献
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以辽河盆地西部凹陷某试验区于楼油层为例,综合7口取心井岩心、镜下薄片和分析测试资料,400口井测井资料以及工区地震资料,在建立高分辨率等时地层格架和确定沉积相类型的基础上,划分沉积微相,刻画不同沉积微相发育特征,同时分析了沉积微相对开发的影响。通过岩性、层理构造、泥岩颜色、化石特征和粒度概率曲线等相标志,确定研究区目的层为扇三角洲前缘沉积,物源呈北西-南东和南北向,可划分为水下分流河道、河口沙坝、水下分流河道间砂、水下分流河道间泥和前缘席状砂等5种沉积微相。储层以水下分流河道、水下分流河道间砂沉积为主。自底部的单层yII36b至顶部的单层yI11a,目的层整体上为向上逐渐变粗的反旋回特征。河道宽200~300m,长度可达数百米,砂体数量多,规模小。受水下分流河道的频繁分流改道,砂体相互切叠,储层非均质性强烈。蒸汽驱热采时应该充分考虑单砂体沉积微相空间组合模式和平面展布规律。 相似文献
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《海洋地质与第四纪地质》2021,41(3)
坡折带对复合岩性圈闭的发育具有重要控制作用。平湖斜坡带孔雀亭地区具备坡折带发育的古地貌背景,研究其类型和对沉积砂体、相带发育及成圈模式的控制,对下一步勘探开发具有重要意义。根据研究区坡折带发育的构造位置及与洼陷的匹配关系,可将研究区划分为高区坡折带、中区坡折带与低区坡折带。按成因机制不同,可在坡折区内进一步细分出三种类型,即断裂坡折、挠曲坡折和侵蚀坡折。高区坡折带以发育侵蚀坡折为主,控制辫状河三角洲平原沉积体系,形成侵蚀沟谷圈闭;中区坡折带以发育断裂坡折和挠曲坡折为主,控制辫状河三角洲平原与前缘沉积体系,发育辫状河道与扇体,形成断块-河道侧向尖灭复合岩性圈闭;低区坡折带发育断裂坡折,控制复合砂坝,形成断块-砂坝复合岩性圈闭。 相似文献
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对南海北部陆架坡折附近取的50个表层沉积物样品,作粒度测试,计算粒度参数。粒度分析表明研究区的沉积物主要存在4种类型:含砾砂、砾质砂、砂质砾和含砾泥质砂;沉积物组分中砾石和砂占绝对优势,基本上不含黏土。综合因子分析和聚类分析的结果把研究区划分为4类沉积区:Ⅰ类沉积区属于内陆架沉积区,Ⅱ类沉积区属于陆架坡折上部沉积区,Ⅲ类沉积区属于陆架坡折下部沉积区,Ⅳ类沉积区区属于陆架边缘沉积区,每类沉积区都代表着不同的沉积环境。研究区沉积物的粒径趋势分析结果显示,陆架坡折附近的沉积物主要向内陆架和外陆架边缘或上陆坡输运,同时存在着跨陆架输运和沿陆架坡折输运现象,这与研究区实测的底流方向相一致。本研究表明,南海北部陆架坡折附近的沉积环境和沉积物输运模式比较复杂和特殊。本研究对今后陆架和陆坡区其他相关的研究具有十分重要的指导和借鉴意义。 相似文献
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Shuo Chen Renhai Pu Huiqiong Li Hongjun Qu Tianyu Ji Siyu Su Yunwen Guan Hui Zhang 《海洋学报(英文版)》2022,41(9):86-106
The Dongfang1-1 gas field (DF1-1) in the Yinggehai Basin is currently the largest offshore self-developed gas field in China and is rich in oil and gas resources. The second member of the Pliocene Yinggehai Formation (YGHF) is the main gas-producing formation and is composed of various sedimentary types; however, a clear understanding of the sedimentary types and development patterns is lacking. Here, typical lithofacies, logging facies and seismic facies types and characteristics of the YGHF are identified based on high-precision 3D seismic data combined with drilling, logging, analysis and testing data. Based on 3D seismic interpretation and attribute analysis, the origin of high-amplitude reflections is clarified, and the main types and evolution characteristics of sedimentary facies are identified. Taking gas formation upper II (IIU) as an example, the plane distribution of the delta front and bottom current channel is determined; finally, a comprehensive sedimentary model of the YGHF second member is established. This second member is a shallowly buried “bright spot” gas reservoir with weak compaction. The velocity of sandstone is slightly lower than that of mudstone, and the reflection has medium amplitude when there is no gas. The velocity of sandstone decreases considerably after gas accumulation, resulting in an increase in the wave impedance difference and high-amplitude (bright spot) reflection between sandstone and mudstone; the range of high amplitudes is consistent with that of gas-bearing traps. The distribution of gas reservoirs is obviously controlled by dome-shaped diapir structural traps, and diapir faults are channels through which natural gas from underlying Miocene source rocks can enter traps. The study area is a delta front deposit developed on a shallow sea shelf. The lithologies of the reservoir are mainly composed of very fine sand and coarse silt, and a variety of sedimentary structural types reflect a shallow sea delta environment; upward thickening funnel type, strong toothed bell type and toothed funnel type logging facies are developed. In total, 4 stages of delta front sand bodies (corresponding to progradational reflection seismic facies) derived from the Red River and Blue River in Vietnam have developed in the second member of the YGHF; these sand bodies are dated to 1.5 Ma and correspond to four gas formations. During sedimentation, many bottom current channels (corresponding to channel fill seismic facies) formed, which interacted with the superposed progradational reflections. When the provenance supply was strong in the northwest, the area was dominated by a large set of delta front deposits. In the period of relative sea level rise, surface bottom currents parallel to the coastline were dominant, and undercutting erosion was obvious, forming multistage superimposed erosion troughs. Three large bottom current channels that developed in the late sedimentary period of gas formation IIU are the most typical. 相似文献
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根据岩心、测井解释、录井资料和地震资料,对姚一段的沉积微相类型、展布特征及其沉积演化规律进行了系统研究,结果表明黒帝庙地区姚一段发育浅水三角洲沉积体系。本次研究建立了浅水三角洲沉积体系的沉积模式,其可划分出浅水三角洲平原、浅水三角洲前缘和前浅水三角洲,根据不同的沉积特征,各亚相可进一步划分为多种沉积微相。与正常三角洲不同的是,浅水三角洲前缘河口沙坝不发育,且在该地区前浅水三角洲地带发育出露湖面的浅滩。 相似文献
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渤海湾盆地渤中凹陷古近系沉积体系演化及物源分析 总被引:22,自引:0,他引:22
综合运用地质、测井、地震及分析化验等资料,对渤海湾盆地渤中凹陷古近系沉积体系进行了较深入的研究,研究表明渤中凹陷古近系的沉积体系主要受构造升降和湖平面变化的控制,经历了3期裂陷和湖侵,发育5套沉积体系,其中沙河街组沉积时期为裂陷期,以扇三角洲、湖底扇沉积为主,并发育特征的滩坝及浅水台地相沉积;东营组沉积时期为湖侵期,主要发育大型湖泊三角洲沉积,并逐渐向辫状河相过渡。构造及沉积体系分析认为,沙三段沉积时期物源丰富,主要来自石臼坨凸起、渤南和庙西凸起,沙一、二段沉积时期物源有限,东三沉积期物源主要来自石臼坨和沙东南凸起,东二沉积期大面积的湖侵使得本区处于浅湖-半深湖环境,凹陷周边大量古水系将石臼坨凸起、沙垒田凸起的物源带入凹陷中沉积,使得大型三角洲叠覆体广泛发育。 相似文献
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During deposition in the Palaeogene, the Pearl River Mouth Basin (Enping Sag) was filled by sediments derived from northern and southern source regions. The northern sources are the fold belt Caledonian and Hercynian metamorphic rocks that are widely exposed along the South China block and stacked with Mesozoic igneous rocks, and the southern sources are Mesozoic igneous rocks from the southern Panyu lower uplift. We analysed the characteristics of the provenance and sediment-dispersal patterns of the beach and bar systems in the Palaeogene third-order sequence framework on the basis of detritus, thin section, zircon and the geophysical response test data. The source and deposition areas were distinguished based on their palaeogeomorphology. The sedimentary material composition of the deposition area was determined based on the characteristics of the detrital assemblage and cathode luminescence, and the characteristics of the age distribution were determined in detail using detrital zircon U–Pb dating. This study suggests that the provenance system in the Palaeogene mainly consisted of Palaeozoic metamorphic rocks and Mesozoic igneous rocks, with a supplement of Proterozoic metamorphic rocks. The transport capacity of three large fault troughs that delivered the northern provenances gradually increased from the Wenchang Formation (E2w) to the Enping Formation (E3e), whereas the southern provenances were transported by four or five incised valleys in E2w and then submerged in E3e. In the 3D seismic area, the features of the beach and bar sedimentary systems were described and interpreted based an analysis of the well-based sedimentary facies, seismic reflection characteristics and multiple attribute clustering. The results show that the beach and bar systems by the short-axis braided deltas mainly developed in the upper member of E2w and that the beach and bar systems on the subaqueous high in E3e developed during the Palaeogene. In addition, the bedrock-beach bar sedimentary system in the lower member (E3eL) was transferred to the braided delta–beach bar sedimentary system in the upper member (E3eU). 相似文献
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论述了福建省莆田县忠门乡苦鹅头村东南海岸一套全新世含生物碎屑的砂、砾岩的沉积特征、沉积环境及其对海平面变化的反映。砂、砾岩层可划分成上、下两段,具有不同的成因。下段(0 ̄2.6m)为海滩沉积,形成于中全新世高海平面时期。上段(2.6 ̄8m)是全新世晚期(约3 ̄2ka BP)的风沙沉积,内部夹有两个弱土壤化层,表明在风沙沉积作用过程中有过两次短暂的气候波动。 相似文献
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During the exploration of stratigraphic reservoirs, the key to locating these reservoirs is to identify the sandstone distribution. Seismic data can be used to recognize large-scale distributary-channel sedimentary bodies; however, depiction of sedimentary bodies in small distributary channels using traditional interpretation data from seismic profiles is extremely difficult. In the Upper Cretaceous first sandstone bed of the third member of the Nenjiang Formation (called the Nen 3 member for simplicity) in the XB area of the southern Songliao basin, distributary channels are the main sedimentary facies. The distributary channels migrate frequently; therefore, it is difficult to precisely depict the morphology of the channel and the distribution of sandstone. In this study, we investigated the deposition of distributary channels using equal-scale formation plane seismic attributes such as post-stack amplitude, instantaneous amplitude and seismic waveform classification, analyzed well logging data from target formations, and mapped the distribution of distributary channels. This study shows that seismic sedimentological study and stacking multiple attribute analysis can identify the distribution of distributary channels precisely and effectively. The attributes of equal-scale strata slices are evidently superior to those of time and horizon slices; Attribute extraction and selection of equal-scale formation slices is an essential step. The comprehensive selection of seismic attributes that show a good correlation to a single-well can be used to clearly depict channel bodies. The overlap of the 40-Hz single-frequency energy and the RMS amplitude depicts the sedimentary characteristics and shapes of sandstone bodies in main channels as well as small-scale distributary channels more clearly than a single attribute. These attributes show that the first sandstone bed of the Nen 3 member was from distributary channels with complex shapes. The distributary channels cut across each other vertically and laterally. It indicates that, during the deposition of the Nen 3 member in XB area, the direction of the main channel is from north to south, and the provenance could be from north and east. The method of this paper may provide some helpful suggestions to the geologist using seismic attributes to undertake research on sedimentary environment at other places in the world. 相似文献
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Reservoir characterization based on geostatistics method requires well constraints (e.g. seismic data with high quality) to predict inter-well reservoir quality that is conformed to geological laws. Nevertheless, the resolution of seismic data in multiple basins or reservoirs is not high enough to recognize the distribution of different types of sand bodies. In this paper, we propose a new method to improve the precision of reservoir characterization: reservoir modeling with the constrains of sedimentary process model and sedimentary microfacies. We employed stratigraphic forward modeling, a process-based method, to constrain the reservoir modeling in one oil-bearing interval of the third member of Eocene Shahejie Formation in J-Oilfield of Liaoxi Sag, Bohai Bay Basin.We divide reservoir modeling into two orders using different types of constrains. In the first order, we use the simulated shale model from stratigraphic forward model that is corrected by wells data as a 3D trend volume to constrain the reservoir sand-shale modeling. In the second order, different types of sedimentary microfacies in the sandy part of the model are further recognized and simulated within the constrains of sedimentary microfacies maps. Consequently, the porosity, permeability and oil saturation are modeled under the control of precise sedimentary microfacies model. The high-resolution reservoir model shows that the porosity, permeability and oil saturation of distributary channel is generally above 20%, 10md and 50%, respectively, which are much higher than that of other types of sedimentary microfacies. It can be concluded that comparing to other types of sedimentary facies, distributary channel has better physical properties and more oil accumulation in the fan-delta front and therefore is the most favorable zones for petroleum development in the research area. 相似文献
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The Late Devonian to Early Mississippian Bakken Formation in the Williston basin of North Dakota, USA, shows a tri-partite subdivision: a middle mixed carbonate-siliciclastic member is sandwiched in-between two black siliciclastic mudstones, the lower and upper Bakken member shales. However, the transition from the lower shale member to the middle member does not represent a gradual coarsening but contains in places several millimeter - to centimeter-thick siliciclastic mudstones and carbonates that consist of three facies: (1) a glauconitic carbonate-rich siliciclastic mudstone, (2) a carbonate mud-to wackestone, and (3) an echinoderm wacke-to packstone with shell fragments. These three facies are present in many (all?) of the cores close and directly in the basin center in Mountrail County, North Dakota. At least one of these three facies is present in all 23 cores included in this study.This thin carbonate unit at the transition between the lower and the middle Bakken members is interpreted as representing the remnants of the transgressive systems tract. It is assumed that relative sea-level fell before deposition of the middle Bakken member establishing a proximal coarse-grained to distal fine-grained depositional transect that successively migrated into the basin. During the subsequent transgression, the siliciclastic input was low to absent, and the entire sedimentary system switched to depositing carbonates. The proximal to distal transect during this time showed coarse-grained packstones (and grainstones?) close to the shoreline, and a fining outwards towards the distal parts of the basin. This transgression also eroded what remained of the regressive and most of the subsequent transgressive sediments, leaving only the thin carbonate layer behind. Evidence for the regression, even though no sediment is directly preserved along the lower to middle Bakken member contact, comes from the fill of clastic dykes that cut through the lower Bakken member shale. The fill of the clastic dykes is partly siliciclastic and partly carbonate and not similar to any of the surrounding sediment. This indicates that these dykes must have originated before the middle Bakken member was deposited, yet the overlying sediment must have been carbonate at some point and siliciclastic another time. As it is not present anymore, this sediment must have been entirely removed by erosion.The here presented model suggests that the Bakken Formation reflects two entire sea-level oscillations. The first encompasses the lower Bakken member shale and the siliciclastic regressive portion of the lowstand only preserved as infill of the clastic dykes. The subsequent transgression deposited the carbonates now blanketing the lower to middle Bakken member transition, and the highstand and subsequent regression plus lowstand are represented by the middle Bakken member. The transgressive surface and therewith the onset of the topmost Bakken transgression is marked by the transition from the middle to the upper Bakken shale member. 相似文献