共查询到17条相似文献,搜索用时 156 毫秒
1.
埕岛油田馆陶组发育典型的高弯度曲流河沉积。通过分频融合地震属性提取与优选、储层构型模式指导、动态响应特征约束等手段,对研究区海上稀井网条件下曲流带和点坝进行精细刻画。研究表明: (1)分频融合地震属性的储层预测方法提高了曲流带的预测精度,振幅类属性与砂体厚度相关性最好,以最大峰值振幅为最佳,相比原始地震属性,分频融合得到的最大峰值振幅属性更好地刻画了曲流带砂体边界与砂体厚度分布;(2)复合正韵律、砂体厚度大、紧邻废弃河道分布为点坝三大重要识别标志,与此相对应,点坝表现为高最大峰值振幅、高反演属性的地震响应特征,而废弃河道呈弯月状低振幅属性、“顶平底凸”的低反演属性特征;(3)在应用地震属性确定点坝位置的基础上,通过经验公式推算点坝跨度,可认知研究区点坝的规模,有效指导地下点坝识别,动态信息的约束也为点坝识别提供了依据。井震结合的曲流带及点坝识别方法可为相似油田构型分析提供借鉴。 相似文献
2.
《古地理学报》2018,(6)
埕岛油田馆陶组发育典型的高弯度曲流河沉积。通过分频融合地震属性提取与优选、储层构型模式指导、动态响应特征约束等手段,对研究区海上稀井网条件下曲流带和点坝进行精细刻画。研究表明:(1)分频融合地震属性的储层预测方法提高了曲流带的预测精度,振幅类属性与砂体厚度相关性最好,以最大峰值振幅为最佳,相比原始地震属性,分频融合得到的最大峰值振幅属性更好地刻画了曲流带砂体边界与砂体厚度分布;(2)复合正韵律、砂体厚度大、紧邻废弃河道分布为点坝三大重要识别标志,与此相对应,点坝表现为高最大峰值振幅、高反演属性的地震响应特征,而废弃河道呈弯月状低振幅属性、"顶平底凸"的低反演属性特征;(3)在应用地震属性确定点坝位置的基础上,通过经验公式推算点坝跨度,可认知研究区点坝的规模,有效指导地下点坝识别,动态信息的约束也为点坝识别提供了依据。井震结合的曲流带及点坝识别方法可为相似油田构型分析提供借鉴。 相似文献
3.
准噶尔盆地阜东斜坡头屯河组是重要的油气勘探目的层。基于岩心、测井及地震等资料,探究研究区的沉积特征及其展布规律,对该区今后油气滚动勘探有重要意义。研究表明:研究区目的层岩性以泥岩、粉砂岩及细砂岩组合为主,总体表现出“泥包砂”的特点;其中砂岩成分成熟度低,具有近物源特征;粒度概率累计曲线主要为跳跃悬浮式,水动力类型为牵引流;测井曲线可分为钟形、箱形和线形3类。综合岩性、粒度、测井及地震反射特征等明确了研究区主要发育曲流河沉积,可识别出曲流河道、点坝、泛滥平原和废弃河道4种沉积微相。研究区沉积物源来自东北方向,曲流河展布特征主要受地形坡度、物源远近及粒度特征影响。曲流河由北东向南西延伸,且西南部的河道弯曲度有增大的特征,河道逐渐呈现网状分布特征,点坝砂体也更加发育;同时,西北部也出现了连片分布的曲流河沉积。因此,后续油气勘探优质储层的找寻应重点考虑西北部与西南部的点坝砂体。 相似文献
4.
基于过程的分流平原高弯河道砂体储层内部建筑结构分析--以大庆油田萨北地区为例 总被引:4,自引:1,他引:3
河道砂体内部结构已成为影响剩余油分布的决定因素。本研究旨在弄清三角洲平原高弯曲河道砂体内部结构,指导开发调整。解剖分为复合河道、单一河道、基本结构要素及要素内部结构等四个层次。基于三角洲平原上高弯河流的形成过程,依据河泛沉积分布及河道沉积体内部沉积特征识别单一河道。依据砂体厚度分布及砂体测井响应所体现的砂体所处的河道位置识别最终废弃河道,依据测井响应特征识别中间废弃河道,通过中间废弃河道及最终废弃河道位置关系,分析河道摆动特征,追踪河道迁移演化。按照河道演化过程识别点坝及其平面展布。在点坝内部通过岩芯、对子井分析确定侧积体的垂向厚度、倾向、倾角,进而获取侧积体平面发育频率,建立点坝内部的结构模型。研究基于河流演化过程,将河流过程与沉积结果统一起来,从过程角度解释了砂体形成,使解剖结果更合理更准确,可很好地指导剩余油预测分析。 相似文献
5.
Q油田是渤海大型河流相沉积的稠油油田,其北区NmⅣ1主力含油砂体为复合曲流带沉积,经过16年的注水开发,油水关系复杂,平面注水受效不均的问题日益严重,如何优化注釆结构来改善开发效果已成为急需解决的问题。优化现有注釆井网的关键是认识复合曲流带砂体内部不同单河道砂体的切叠关系及展布特征,即对目标砂体开展内部不同单河道的构型单元分布特征研究。首先,依据岩电标定的测井曲线特征、局部发育的薄夹层以及曲流河纵向下切模式,对复合砂体内部不同单河道砂进行划分与对比;然后基于单井沉积微相划分结果,开展井间剖面相对比分析,表明复合砂体内部存在5种不同单河道砂体切叠模式;建立5种正演概念模型,利用地震正演模拟合成地震记录,总结了不同单河道砂体间顶面高程差异、点坝边界、废弃河道等曲流河砂体构型边界的波形特征;利用地震属性提取及多种地质构型方法,综合分析,最终实现了海上大井距条件下复合曲流带砂体内部不同单一曲流河砂体构型边界的精细识别;最后由注采动态资料的响应关系评估不同的切叠模式对注水效果的侧向遮挡程度,并以此为依据,优化现有的注釆井网并取得了非常好的生产效果。 相似文献
6.
冀东油田明化镇组NmⅢ12-1小层井网分布不均,但地震资料品质较好。为此,对该小层进行井震结合砂体构型表征,建立曲流河砂体构型边界的正演概念模型。利用地震沿层切片属性、反演等地震资料及测井砂体特征有效提高单一河道边界及点砂坝砂体识别精度。采用“模式拟合”对点砂坝及其内部构型进行表征,利用水平井及动态资料验证构型解剖的合理性。在此基础上,建立三维储层构型模型并进行数值模拟,预测剩余油,提出曲流河砂体控制剩余油分布。开发中后期的油藏,正向微构造、储层构型和井网是剩余油分布的主控因素。构型控制的剩余油多集中在点砂坝的中上部;废弃河道及点砂坝内侧积层对渗流产生一定的遮挡,在废弃河道附近及侧积层间的侧积体常富集剩余油。研究对油田开发方案的调整具有重要意义。 相似文献
7.
准噶尔盆地车排子凸起新近系沙湾组为湖盆缓坡多物源、复杂沉积体系沉积,其沉积体系认识争议很大,时空演化难以刻画.准确刻画其沉积体系类型、演化规律和砂体分布特征,是精细刻画单砂体及内部构型等储层的基石,对后期油气开发具有重要指导意义.在岩心、测井、测试分析及地震资料,充分利用相位转换、地层切片等地震沉积学技术方法,对其沉积体系特征进行深入研究.建立研究区精细层序地层格架,将沙湾组划分为2个三级层序、4个四级层序;识别出冲积扇、辫状河、曲流河、曲流河三角洲、扇三角洲及滨浅湖6种沉积体系类型,并确定沉积体系边界及演化规律;建立了多物源冲积扇-辫状河、扇三角洲-曲流河三角洲沉积模式及砂体分布模式.辫状河道、心滩、点坝复合体及冲积扇砂体均钻遇较好油气显示,为重要储集体.此次研究丰富了地震沉积学在湖盆缓坡多物源、多沉积体系类型中的应用. 相似文献
8.
辫状河储层内部建筑结构分析 总被引:2,自引:0,他引:2
为适应开发中后期剩余油分析的需要,对辫状河储层内部结构进行了复合河道、单一河道、结构要素及结构要素内部结构4个层次的结构格架表征。复合河道和单一河道的识别及边界确定主要依据洪泛沉积的测井响应及地层对比。而河道内部结构解剖基于沉积体的内部特征和地貌特点。据此识别出高地貌的坝核、坝侧缘及低地貌的河床、废弃河道和深潭5种基本结构要素,通过对地貌分析和要素识别查明了基本结构要素的分布及演化。而结构要素内部结构主要是由于非渗透性的沉积单元造成的渗流缓冲带和夹层形成的结构内部的次级分割,在坝体系内主要是前种泥岩,而在河床中则是停滞期的细粒沉积,基于坝边界,可对这些细粒沉积进行较准确的预测。通过研究建立了储层内部结构格架,为开发动态分析奠定了基础。 相似文献
9.
曲流河地层内部结构复杂,岩性界面具有穿时性,传统的地震相分析法不能满足油藏开发地质研究中对储层内部结构精细解释的需要,急需探索有效的地震解释方法。采用基于探地雷达的露头探测、点坝复合体三维正演模拟和实际地震资料相结合的方法,分析了地震资料频率和地层厚度对曲流河内部结构地震反射特征的影响,研究了利用地层切片解释曲流河沉积结构的原理和方法,建立了开发尺度的曲流河内部结构地震沉积学解释技术。研究发现:(1)高频地震资料中地震反射能够反映曲流河侧积复合体边界,而低频地震资料中反射同相轴与岩性界面一致;(2)不同厚度的点坝侧积单元地震反射特征存在差异,造成反射剖面的多解性。同时指出曲流河内部结构地震沉积学解释的技术关键:(1)发挥地震资料平面与剖面信息的相互约束和补充;(2)将地质体作为三维空间发育的成因体,利用其平面与剖面特征的成因联系指导解释;(3)级次化解释方法,在不同级次上采用针对性的解释方法。将该方法应用于墨西哥湾新近系地震沉积学解释,实现了曲流河点坝复合体内部结构的三维刻画。 相似文献
10.
针对浅水湖盆三角洲储层构型模式研究的不足,在考察鄱阳湖现代浅水湖盆三角洲沉积和解剖扶余油田扶余油层古代浅水湖盆三角洲储层构型的基础上,综合应用卫星照片、岩心、测井等资料,建立了浅水湖盆三角洲平原分流河道和三角洲前缘水下分流河道的沉积构型模式。研究结果表明:浅水湖盆三角洲主要发育三角洲平原上部曲流型分流河道、三角洲平原下部顺直型分流河道和三角洲前缘顺直型水下分流河道3种砂体类型,曲流型分流河道主要为侧积的点砂坝沉积构型模式,顺直型分流河道主要为垂积的心滩坝沉积构型模式,顺直型水下分流河道主要为垂积的分流砂坝沉积构型模式。同时从沉积亚相、砂体几何形态、夹层倾向及倾角、废弃河道、决口扇、粒度分析等几个方面总结了不同类型的分流河道及水下分流河道砂体的判别标志,为浅水湖盆三角洲储层内部构型及地质建模研究工作奠定了基础。 相似文献
11.
D. J. STEWART 《Sedimentology》1981,28(1):1-20
The meander-belt deposit comprises a sandstone resting on an erosion surface and bounded above and below by massive varicoloured mudstones with rootlet traces. The sandstone unit is composed of six bodies separated from one another, horizontally, by erosion surfaces; together the bodies form a single multilateral sand body. Internally each body is composed of lateral accretion units inclined at up to 6° from the horizontal. Vertical sequences of facies show significant variations but the grain size generally fines upwards. The principal lithofacies within the sandstones are, in common ascending order, intraformational conglomerate, large-scale cross-bedded, horizontal bedded and small-scale cross-laminated sandstone, and alternate sandstones and mudstones. Current directions are normal to the true slope of accretion surfaces and show insignificant scatter within individual bodies but are very diverse overall. Five of the sand bodies are believed to represent individual point bars, and one body an abandoned channel. Together they comprise the meander belt. The river was subject to very variable discharges and carried high suspended loads. Analysis of vertical profiles indicates that grain size segregation along the length of the point bars caused differentiation of the bars into coarse-grained heads and sandy tails. 相似文献
12.
利用渤海湾盆地冀中坳陷饶阳凹陷留西油田留18断块内岩心、录井、测井、三维地震以及生产动态资料,应用层次分析的方法,对远源浅水辫状河三角洲前缘进行了相带划分,对砂体构型进行了解剖,明确了各相带内沉积构型样式的特征,建立了远源浅水辫状河三角洲前缘精细的沉积构型模式。研究表明: (1)研究区水体整体较浅,远源浅水辫状河三角洲前缘亚相广泛发育,并进一步分为前缘近端、前缘中端和前缘远端3个相带,不同相带在砂体厚度、岩性组合特征和砂体横向连通性等方面存在差异。(2)前缘远端水下分流河道水动力较弱,所携带沉积物较少,形成横向连通性较差的小规模河口坝,河口坝之间的厚层泥质披覆夹层为主要的夹层类型。(3)前缘中端分流河道水动力强度中等,形成串珠状或分叉树枝状的河口坝,单一河口坝由2~4期前积增生体构成,前积倾角约2.2°,增生体间的泥质披覆夹层为主要的夹层类型。(4)前缘近端分流河道水流强度较大,下切作用较强,所携带沉积物较多;下伏河口坝互相叠置切割,形成连片分布的复合体;单个河口坝由多个前积增生体构成,前积倾角约3.5°,增生体内的漫溢夹层及增生体间的泥质披覆夹层为主要夹层类型。 相似文献
13.
Massimiliano Ghinassi Wojciech Nemec Mauro Aldinucci Slavomir Nehyba Volkan Özaksoy Francesco Fidolini 《Sedimentology》2014,61(4):952-977
The mode of channel‐bend transformation (i.e. expansion, translation, rotation or a combination thereof) has a direct bearing on the dimensions, shape, bedding architecture and connectivity of point‐bar sandstone bodies within a fluvial meander belt, but is generally difficult to recognize in vertical outcrops. This study demonstrates how the bend transformation mode and relative rate of channel‐floor aggradation can be deciphered from longitudinal outcrop sections aligned parallel to the meander‐belt axis, as a crucial methodological aid to the reconstruction of ancient fluvial systems and the development of outcrop analogue models for fluvial petroleum reservoirs. The study focuses on single‐storey and multi‐storey fluvial meander‐belt sandstone bodies in the Palaeogene piggyback Boyabat Basin of north‐central Turkey. The sandstone bodies are several hundred metres wide, 5 to 40 m thick and encased in muddy floodplain deposits. The individual channel‐belt storeys are 5 to 9 m thick and their transverse sections show lateral‐accretion bed packages representing point bars. Point bars in longitudinal sections are recognizable as broad mounds whose parts with downstream‐inclined, subhorizontal and upstream‐inclined bedding represent, respectively, the bar downstream, central and upstream parts. The inter‐bar channel thalweg is recognizable as the transition zone between adjacent point‐bar bedsets with opposing dip directions into or out of the outcrop section. The diverging or converging adjacent thalweg trajectories, or a trajectory migrating in up‐valley direction, indicate point‐bar broadening and hence channel‐bend expansion. A concurrent down‐valley migration of adjacent trajectories indicates channel‐bend translation. Bend rotation is recognizable from the replacement of a depositional riffle by an erosional pool zone or vice versa along the thalweg trajectory. The steepness of the thalweg trajectory reflects the relative rate of channel‐floor aggradation. This study discusses further how the late‐stage foreland tectonics, with its alternating pulses of uplift and subsidence and a progressive narrowing of the basin, has forced aggradation of fluvial channels and caused vertical stacking of meander belts. 相似文献
14.
Paul R. Durkin Stephen M. Hubbard John Holbrook Zennon Weleschuk Paul Nesbit Chris Hugenholtz Tania Lyons Derald G. Smith 《Sedimentology》2020,67(6):2819-2849
Downstream migration of point bars is an important process in meander belts. Inherent to downstream migration is sediment accumulation in concave channel banks, immediately adjacent to and downstream of convex point bars. Despite this, associated concave bank processes are often overlooked, with depositional products sparsely identified in the stratigraphic record. Counter-point-bar deposits are a type of concave-bank deposit that have been positively identified in subsurface three-dimensional seismic datasets, yet outcrop examples are not well-constrained. This study characterizes and establishes recognition criteria of counter-point-bar deposits in outcrop using extensive exposure of Late-Cretaceous meander-belt deposits in eastern Alberta, Canada. Using a combination of traditional field-based sedimentological analyses and three-dimensional outcrop mapping with an Uncrewed Aerial Vehicle and Structure-from-Motion photogrammetry, point bar, counter-point bar, and associated abandoned-channel deposits, as well as adjacent floodplain deposits are identified. Bed-scale characteristics of counter-point-bar deposits include interlaminated and interbedded siltstone and fine-grained sandstone, abundant organic detritus, and evidence of deformation and slumping. At the bend scale, accretion packages bounded by internal erosion surfaces are composed of dipping siltstone and minor sandstone beds that extend from the top to the base of the meander belt. At the belt scale, positive identification relies on concave accretion surface mapping, their orientation relative to the meander-belt edge (i.e. dipping away), and consideration of meander-bend evolution. These results have implications for recognition of counter-point-bar deposits in analogous, less-constrained data sets, which provides a foundation for more complete palaeoenvironmental interpretations. 相似文献
15.
委内瑞拉奥里诺科重油带H区块Oficina下段发育大面积分布的砂质辫状河沉积,储层内重油资源丰富,拥有巨大的开发潜力。研究区目前尚处于开发前期的油藏评价阶段,平均井距较大且缺少三维地震资料覆盖,仅局部存在一定数量的新钻水平井。考虑到现有资料的实际情况,首先从动态角度分别对心滩砂坝与辫状河道的形成、演化过程予以分析,并重点讨论了活动河道、砂质河道充填、废弃河道充填三种河道存在状态的区别。在此基础上,采用现代沉积类比、经验公式调研、水平井资料应用等手段,对研究区辫状河主要沉积单元的关键参数进行表征,以恢复其发育规模。根据以上研究成果,总结本区的砂质辫状河沉积模式,并在其指导下建立三维地质模型。将该模型与研究区的储层分布预测工作相结合,取得了良好的应用效果,对于后续开发方案的实施以及提高新井的砂岩钻遇率具有重要意义。 相似文献
16.
Modern fluvial meander plains exhibit complex planform transformations in response to meander‐bend expansion, downstream migration and rotation. These transformations exert a fundamental control on lithology and reservoir properties, yet their stratigraphic record has been poorly evaluated in ancient examples due to the lack of extensive three‐dimensional exposures. Here, a unique exhumed meander plain exposed to the north of Scarborough (Yorkshire, UK) is analysed in terms of architecture and morphodynamics, with the aim of developing a comprehensive model of facies distribution. The studied outcrop comprises tidal platforms and adjacent cliffs, where the depositional architecture of un‐tilted deposits was assessed on planform and vertical sections, respectively. In its broader perspective, this study demonstrates the potential of architectural mapping of extensive planform exposures for the reconstruction of ancient fluvial morphodynamics. The studied exhumed meander plain is part of the Scalby Formation of the Ravenscar Group, and originally drained small coastal incised valleys within the Jurassic Cleveland Basin. The meander plain is subdivided into two storeys that contain in‐channel and overbank architectural elements. In‐channel elements comprise expansional and downstream‐migrating point bars, point‐bar tails and channel fills. Overbank elements comprise crevasse complexes, levées, floodplain fines and lake fills. The evolution of the point bars played a significant role in dictating preserved facies distributions, with high flood‐stage nucleation and accretion of meander scrolls later reworked during waning flood‐stages. At a larger scale, meander belt morphodynamics were also a function of valley confinement and contrasts in substrate erodibility. Progressive valley infilling decreased the valley confinement, promoting the upward transition from prevalently downstream migrating to expansional meander belts, a transition associated with enhanced preservation of overbank elements. Strikingly similar relations between valley confinement, meander‐bend transformations and overbank preservation are observed in small modern meandering streams such as the Beaver River of the Canadian prairies and the Powder River of Montana (USA). 相似文献
17.
Major part of the Holocene Ganges-Brahmaputra delta occupies the southern and southwestern part of Bangladesh with a smaller
part extending beyond the international boundary in the west. Five facies assemblages are documented in the lower deltaic
plain in five different depositional environments: levee or levee complex, bil or depression, abandoned meander belt, interdistributary
plain and estuarine plain. The thickness of the Holocene sediments ranges from 30 m to 70 m in the deltaic plain, usually
floored by the Pleistocene stiff clays, with the exception of the abandoned meander belt deposit where Holocene channel sand
deposited directly on the Pleistocene sand. Radiocarbon dates indicate that low-rate sedimentation has occurred in the northern
part, where 4-6 m thick sediments were deposited since the mid-Holocene, whereas 10-30 mthick sediments were deposited in
the southern part during the same span of time. In addition, significant coastal subsidence (3 mm/a on average), added by
sea-level rise (1.5 mm/a, conservative rate) occurs in the study area, which serves as a negative factor in degrading the
coastal plain of Bangladesh in the future, while taking into consideration the weaker sedimentation in the area. 相似文献