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1.
厄瓜多尔Oriente盆地南部区块沉积特征 总被引:3,自引:0,他引:3
通过构造演化和地层发育特征分析,将厄瓜多尔Oriente盆地南部区块Napo组划分为4个层序。根据岩心中的潮汐层理、羽状交错层理、冲洗交错层理、具有大量贝壳等特征,识别研究区具有潮坪沉积环境。针对其沉积坡度缓,碎屑岩和碳酸盐岩互层沉积的特点,建立了缓坡混积陆棚边缘的沉积相模式,认为Oriente盆地南部区块Napo组发育有海岸平原、潮坪、局限台地和混积陆棚相。相序的垂向组合和平面迁移受海平面升降的控制,指出潮坪砂岩主要出现在各层序的陆架边缘体系域,水下浅滩砂岩出现在海侵体系域。从沉积角度看,潮汐水道砂体是最好的储层砂体。 相似文献
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碳酸盐岩台地是海相碳酸盐岩储层发育的主要环境之一.通过对滨里海盆地东缘肯基亚克油田石炭纪孤立碳酸盐台地储层的沉积和成岩特征分析以及储层预测研究,指出孤立碳酸盐岩台地边缘相带窄,相变快,储层质量明显受沉积和成岩作用共同控制;其中台地边缘礁滩相属浅水高能沉积,成岩作用过程中又经历了较强烈的白云岩化、溶蚀等有利成岩作用的改造... 相似文献
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渤海湾盆地莱州湾凹陷KL油田地区古近系沙河街组发育了陆源碎屑岩和碳酸盐岩的混合沉积构造,国内外学者在莱州湾凹陷地区已做了一些岩相古地理方面研究工作,但KL油田地区的混合沉积研究至今未涉及。由于KL油田地区钻遇沙河街组沙三下亚段的井较少(迄今全地区钻遇沙三下亚段井9口),本文充分利用有限的钻井资料,结合岩心资料、分析化验资料、单井沉积相解剖以及地震相分析,对渤海湾盆地莱州湾凹陷KL油田地区碳酸盐岩台地混合沉积特征以及沉积演化模式进行了较为深入的探讨。研究表明,KL油田古近系沙河街组主要以扇三角洲沉积体系为主,混积岩主要发育在沙河街组沙三下亚段,而沙三下亚段发育三种不同的沉积环境:KL-1井区发育辫状河三角洲,中部KL-4井区发育滨浅湖混积滩坝,东部KL-9井区在I油组处于潍北凸起物源供给区,发育了扇三角洲。沙三下亚段沉积时期,沉积物在碳酸盐岩台地上进行混合沉积,狭义上表现为混积岩,主要类型包括:泥质灰岩、含泥灰岩、灰质粉砂岩;广义上表现为混积层系,主要类型包括:含陆源碎屑一碳酸盐混积岩、含碳酸盐一陆源碎屑混积岩、碳酸质一陆源碎屑混积岩。 相似文献
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波斯湾海域古生界蕴藏着巨大的天然气资源。从区域构造演化出发,对该区古生界胡夫组的沉积特征进行分析,建立了"大型缓斜坡碳酸盐岩台地"沉积模式,提出了该区古生界"源-相-势"复合控藏的成藏规律,并指明了下一步勘探方向。研究表明,波斯湾海域胡夫组主要发育台地与台地边缘相区,从波斯湾西北部向东南部依次发育局限—蒸发碳酸盐岩台地、开阔碳酸盐岩台地、台地边缘浅滩—生物礁,纵向上主要为灰岩、白云岩和膏盐的互层沉积。开阔碳酸盐岩台地、台地边缘浅滩—生物礁为有利储层发育相带。波斯湾海域志留系古赛巴段热页岩烃源灶分布及规模控制着胡夫组油气分布与资源规模。胡夫组沉积相带控制油气平面富集区,膏盐盖层控制油气藏纵向与平面分布。热页岩生烃灶周围的低势能古基底高与盐拱构造是古生界主要的油气聚集带,同时,储层物性、油气运移与保存条件是古生界油气成藏的关键。根据资料分析,波斯湾海域南海湾盐次盆胡夫组发育大量盐拱背斜圈闭,且志留系古赛巴段烃源岩与胡夫组圈闭叠合性好,成藏条件优越。该盐拱构造带预测资源量巨大,为波斯湾海域古生界有利勘探方向。 相似文献
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崂山隆起为南黄海盆地的构造稳定区,中-古生代海相地层存在较好的油气前景,但其构造复杂,地震资料信噪比低等缘故制约了油气勘探进程。该文采用类比方法,运用相同沉积演化历史环境的四川盆地测井和地震资料作为研究样本,分析碳酸盐岩储层测井和地震响应特征,建立南黄海古生界海相碳酸盐岩地震相和储层分布特征。根据简化的Zoeppritz方程引入岩石弹性模量,对南黄海崂山隆起地震测线进行叠前三参数反演,获得相对密度、体积模量和剪切模量数据体,沿着研究目的层提取以上3种属性参数进行3D聚类分析,再反投到地震剖面上获得地震相,在地震相的控制下再次进行聚类交互,分别获得各地震相下有利储层的空间分布情况。通过分析,南黄海崂山隆起下二叠世和石炭纪时期主要发育局限台地相、开阔台地相、台地边缘浅滩相和台地边缘生物礁相4种沉积相,相应发育岩溶型白云储层和礁、滩相储层,储层受沉积环境影响较大,但后期的构造运动对储层孔隙也有一定的改造作用。 相似文献
6.
东南亚地区发育100多个新生代沉积盆地,这些沉积盆地经历了不同程度的裂谷作用。为了指导东南亚油气勘探,通过对盆地构造-沉积演化进行分析,系统研究了东南亚地区盆地油气成藏组合的要素特征,并探讨了裂谷作用对油气成藏组合的影响。研究结果认为:东南亚地区盆地构造-沉积演化经历了同生裂谷早期、同生裂谷晚期、后裂谷早期和后裂谷晚期4个裂谷作用阶段。根据裂谷作用阶段和在相应裂谷作用阶段形成的储层类型,从深到浅划分出4套油气成藏组合:深部成藏组合、下部成藏组合、中部成藏组合和上部成藏组合。深部成藏组合发育同生裂谷早期湖相浊积砂岩、湖相冲积扇储层,下部成藏组合发育同生裂谷晚期海进时期河流-三角洲砂岩储层,中部成藏组合发育后裂谷早期海相碳酸盐岩储层,上部成藏组合发育后裂谷晚期海退时期河流-三角洲砂岩储层。其中,中部成藏组合发育的后裂谷早期海相碳酸盐岩储层勘探潜力最大。 相似文献
7.
以该盆地中心16区块为例,分析了其构造-沉积发育史及石油地质要素。研究表明该区前白垩系为断陷-裂陷盆地,白垩系为稳定的被动大陆边缘,新生界为前陆盆地。将主要目的层白垩系划分析5个层序,主要是河流-受潮汐控制的河口湾、三角洲-大陆架沉积,海平面相对升降变化决定了沉积体系的时空演化进而决定生储盖配置。含油气系统主力烃源岩为白垩系浅海相泥页及灰岩。产层为白垩系的河流相、海陆交替相和海相砂岩(NAPO组和HOLLIN组),其中,HOLLIN组和M段为低位期底积层,分布广泛,为主要侧向运移输导层。海陆交替相的潮汐水道砂一滨岸砂坝-障壁砂坝为主要储层,断层控制水道砂岩分布,来自断层的烃类与厚层优质砂岩及浅海泥岩、泥灰岩形成良好生储盖配置,斜坡带走滑断层和山前带逆冲断层为垂向输导层。盖层(亦为烃源岩层)为白垩系各旋回海侵期页岩或(泥)灰岩,稳定,封盖性好。晚白垩纪-渐新世(早安第斯期)为生排烃高峰期,中新世以后形成的圈闭不利于捕集油气。 相似文献
8.
结合区域构造、地层概况、岩相古地理等方面的背景资料,对宣汉盘龙洞上二叠统长兴组生物礁地层剖面进行了观测描述。通过室内镜下岩石薄片鉴定分析,识别出主要岩石类型为礁灰岩、礁云岩、生屑灰岩、颗粒灰岩及晶粒白云岩。根据露头观察和室内镜下岩石薄片鉴定分析,结合岩石学、古生物等沉积相标志的研究,认为该剖面发育开阔台地、台地边缘生物礁和台地边缘浅滩三种沉积相类型,其中台地边缘生物礁发育,可进一步识别出礁基、礁核和礁前亚相,礁核以骨架礁和障积礁为主;台地边缘浅滩进一步划分为粒屑滩、鲕粒滩等亚相。初步总结出了该剖面的沉积相模式,并对该剖面的沉积演化序列和识别标志进行了讨论。 相似文献
9.
下刚果盆地油气资源非常丰富,有较大勘探前景。但由于其储层是碳酸盐岩储层,受复杂的盐岩活动影响,其构造特征及油气成藏特征也非常复杂,因此给地质认识带来了很大的困难。此文通过对该区区域地质背景、油气成藏条件和勘探潜力的综合分析,认为下刚果盆地构造演化经历了前裂谷期、同裂谷期、过渡期和漂移期四个时期。主要发育盐下和盐上两套主力烃源岩。盐上及盐下地层均具有良好的储盖组合。盐上地层构造经历了三期构造演化和两个演化序列。研究区主要发育盐下生-盐下储、盐下生-盐上储、盐上生-盐上储共三种成藏组合。认为白垩系碳酸盐岩构造具有良好的勘探前景,盐上地层是下一步勘探需要重点关注的区域,盐下构造也是较好的潜在勘探领域。研究成果对我国石油公司参与下刚果盆地或类似盆地的研究和油气勘探具有一定的借鉴意义。 相似文献
10.
《海洋地质前沿》2016,(3)
2005年南黄海盆地油气勘探由新生界向中古生界转变。综合利用区域地质、地球物理、地球化学和钻井资料,从地层层序、沉积相和沉积体系、残留盆地构造特征以及石油地质条件等几个方面阐述最近几年来南黄海盆地中古生界油气勘探的进展。中古生界残留地层可以分为下构造层(震旦—奥陶系)、中构造层(志留系)和上构造层(泥盆系—三叠系)3套层系。盆地中古生界以海相沉积为主,发育碳酸盐岩台地—斜坡—盆地相沉积体系、碳酸盐岩缓坡—盆地相沉积体系和海陆过渡三角洲沉积体系。中古生界发育下寒武统、上奥陶统—下志留统、上、下二叠统4套区域性烃源岩,其中以二叠系栖霞组、龙潭组和大隆组烃源岩层最为有利。中古生界储层以碳酸盐岩储层为主,其次是碎屑岩储层。综合分析认为,南黄海盆地中古生界油气勘探最有利的区带为中部隆起区。 相似文献
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12.
四川盆地中南部地区中三叠统雷口坡组沉积相研究 总被引:1,自引:0,他引:1
川中南部地区中三叠统雷口坡组划分为3个相(开阔台地相、局限台地相、蒸发台地相)、4个亚相(潮下、泻湖、潮阃坪、潮上坪)和17个微相。沉积相横向上总体变化不大,岩性较统一,蒸发岩较发育,纵向上沉积相变化具有同步性。利用单因素法和优势相法,并结合层序地层学研究成果,把雷口坡组分为7个作图单元,较精确地展示了雷口坡纽不同层段的沉积相展布和演化。研究区内雷口坡期的相对海平面升降变化和台地次级洼隆相间的古地貌共同控制着沉积相带展布和演化。雷口坡组以局限台地相为主,主要发育在雷一段1亚段的台内滩微相,为储集体有利的发育相带,多发育于潮间高处与泻湖的过渡区附近相对高能带。 相似文献
13.
The South Karaku
oil field is located in southeast Turkey, and produces, from the Late Cretaceous Mardin Group, carbonate reservoirs consisting of the Karababa, Derdere, Sabunsuyu and Areban Formations. The Karababa Formation is divided into three members, of which the productive Karababa-C member, discussed here, is composed of shallow marine bioclastic mudstone to wackestone. It is affected by early to late diagenetic processes that caused modification of the original pore system by cementation, dissolution and fracturing. Two petrophysical-petrologic facies can be discriminated by principal component analysis, and linear, multiple and stepwise multiple regression analysis of petrophysical data. These correspond to vuggy-moldic porosity and microporosity dominated reservoirs. 相似文献
14.
The main reservoir of the Humbly Grove Oilfield comprises variably dolomitic grainstones and packstones representing the Bathonian Great Oolite Group. The Bathonian sequence commences in Lower Fuller's Earth claystones which coarsen upwards into oncolitic claystones and skeletal packstones probably equivalent to the Fuller's Earth Rock. Above is a variable succession of wackestones and thin packstones which have a distinctive sandstone at their base. This sequence is named here the Hester's Copse Formation. The succeeding Great Oolite Limestone is predominantly oolitic and cross-bedded on a variety of scales. It exhibits both coarsening and fining sequences which have locally well-developed capping hardgrounds and burrowed horizons. The Great Oolite Limestone is subdivided into three Members: the lowest (the Humbly Grove Member), and the highest (the Herriard Member) begin with massive shoal oolite deposition, but each then pass upward into more interbedded sequences representing a more transgressive environment. The middle member (the Hoddington) is a thin but widely correlatable wackestone. The overlying Forest Marble commences abruptly in claystones, but there is an upward increase in both the incidence and thickness of discrete oolitic limestones. Both the Great Oolite Limestone and Forest Marble were affected by early fresh-water dissolution and cementation in addition to the localized development of submarine cements. The top of the Great Oolite Group is represented by the Cornbrash. The Lower Cornbrash is a thin micritic limestone while the Upper Cornbrash is a calcareous claystone which passes upwards into the Kellaways Clay. The Bathonian sequence overlies the dolomitic limestones of the Inferior Oolite, the Lower Fuller's Earth claystones being interpreted as a basinal marine mudstone sequence, marking a substantial deepening and transgressive phase at the opening of the Bathonian. These mudstones shoal upwards into the quiet, but photic, water deposits of the Fuller's Earth Rock. The Hester's Copse Formation represents the temporary development of wave-dominated terrigenous shoreface and lagoonal conditions. Renewed transgression established a high-energy, tide-dominated, carbonate shelf upon which the Great Oolite Limestone was deposited as a series of shoal oolites, channels, tidal deltas and spill-overs. Periodic exposure of the carbonate sand-bodies led to the production of early dissolutional and cementation fabrics that post-date (and largely obliterate) submarine cements. The Forest Marble opened with a further phase of deepening, and the temporary establishment of muddy facies. Subsequently discrete tide-dominated ridges and linear channelized oolitic sands prograded into the area. The latest Bathonian is marked by subsidence of the carbonate ramp to the south of the London Platform, the Cornbrash-Kellaways Clay sequence accumulating under progressively deepening waters. 相似文献
15.
Permo-Triassic carbonate successions host some of the largest oil and gas reserves in the Arabian Plate, including the world's largest gas reservoirs of the Upper Dalan and the Kangan formations in the South Pars Gas Field, Persian Gulf Basin. Both formations are stratigraphically equivalent to the Upper Khuff Formation which has been long recognized as a major oil and gas reservoir in the Arabian Peninsula. The Permian Upper Dalan Formation is composed mainly of mixed carbonate-evaporite sequences that formed on a laterally continuous homoclinal carbonate ramp with significant variations in reservoir heterogeneity and quality. They can be grouped in 18 microfacies. High reservoir qualities are found within high-energy shoal environments with a tendency of the best reservoir quality to occur towards the basin in a mid-ramp setting. In contrast, low-energy tidal flat environments exhibit the poorest reservoir quality. Reservoir quality from lagoonal environments is diverse. Diagenesis has significantly affected reservoir properties by both enhancing and destroying original porosity and permeability. Bivariate plots of porosity and permeability values, combined with thin section petrography indicate that pore-filling “pervasive” and poikilotopic anhydrite cements had the greatest negative impact on the reservoir quality whereas dolomitization and dissolution of grains and cements played the most positive role. Two third-order sequence stratigraphic cycles link lithologies and depositional environments to sea-level fluctuations. HSTs are associated with better reservoir characteristics than TSTs. 相似文献
16.
Brisk, persistent easterly trade wind influences define Holocene patterns of carbonate sedimentation across the Caicos Platform (southeastern Bahamas). Resultant predictive sedimentary facies models based on trade wind influences are more widely applicable to the exploration for subsurface carbonate plays than are existing models based on the northern Bahamas facies patterns, which are characterized by gentle trade winds and strong platform-margin-related oceanic processes (swells and tidal currents). The Caicos Platform relationships may be more applicable because many ancient shallow carbonate depositional environments were within the trade wind belts and commonly within broad intracratonic seas that were little influenced by oceanic processes.The grainstone-dominated Caicos Platform exhibits reservoir potential over much of its surface, in contrast to northern Bahamian platforms, where oceanic tidal currents or swells and gentle easterly trade winds confine higher energy environments with reservoir potential to platform margins. Strong easterly trade winds across Caicos Platform promote widespread Holocene platform-interior oolitic, skeletal and grapestone grainstone bodies on this platform. Orientations of ooid sand bodies vary depending on preexisting topography, water depth and bottom energy. Shallow subtidal ooid sand shoals orient parallel to these winds. Ooid sands developed along older shorelines orient parallel to the shorelines but prograde perpendicular into these winds. Deeper platform-interior oolitic sands exist as widespread, sheet-like deposits. These trade winds allow reefs and ooids to coexist in many settings, permit isolated linear reefs to flourish on certain leeward platform margins, and promote effective off-bank transport of carbonate sands that create onlapping grainstone wedges. These relationships are very applicable to the rock record.Strong trade wind influences, such as seen on Caicos Platform, better explain the occurrence of Cretaceous reef and/or oolitic grainstone reservoirs developed well in from platform margins (Fairway Field in East Texas; Black Lake Field in Louisiana) than do existing northern Bahamian models. Depositional models based on conditions in the northern Bahamian models would predict low-energy facies in these platform-interior settings. A trade-wind-driven depositional model, characterized by strong persistent easterlies, also better explains the origin of the onlapping wedge of skeletal grainstones at Poza Rica oilfield in Mexico.The Caicos Platform easterly trade-wind-driven depositional model should generally apply to any ancient shallow carbonate environment that developed 5–22° north or south of the paleoequator, whether or not a platform margin was near by. Future carbonate exploration or exploitation should always factor in not only geological age, but also physiographic, latitudinal and climatic setting at a global and local scale. 相似文献
17.
To improve the understanding of the distribution of reservoir properties along carbonate platform margins, the connection between facies, sequence stratigraphy, and early diagenesis of discontinuities along the Bathonian prograding oolitic wedge of the northeastern Aquitaine platform was investigated. Eight facies are distributed along a 50 km-outcropping transect in (1) toe-of-slope, (2) infralittoral prograding oolitic wedge, (3) platform margin (shoal), (4) open marine platform interior, (5) foreshore, and (6) terrestrial settings. The transition from shallow platform to toe-of-slope facies is marked in the field by clinoforms hundred of meters long. Carbonate production was confined to the shallow platform but carbonates were exported basinward toward the breakpoint where they cascaded down a 20–25° slope. Ooid to intraclast grainstones to rudstones pass into alternating marl-limestone deposits at an estimated paleodepth of 40–75 m. Three sea-level falls of about 10 m caused the formation of discontinuities corresponding to sequence boundaries. Along these discontinuities, erosional marine hardgrounds formed in a high-hydrodynamic environment at a water depth of less than 10 m, displaying isopachous fibrous cements and meniscus-type cements. The cements pass landward into meniscus and microstalactitic forms along the same discontinuities, which are characteristic of subaerial exposure. During the deposition of transgressive systems tracts, carbonate accumulation remained located mostly on the shallow platform. Energy level increased and carbonates were exported during the deposition of highstand systems tracts forming the infralittoral prograding oolitic wedge. During the deposition of lowstand systems tracts, carbonate production fell to near zero and intraclast strata, derived from the erosion of hardgrounds on the shallow platform, prograded basinward. Early diagenetic cements are related exclusively to discontinuities that are not found within the prograding wedge because of the continuous high sedimentation rate under lower hydrodynamic conditions. This absence of early cementation within the infralittoral prograding oolitic wedge was conducive to porosity conservation, making such features good targets for carbonate reservoir exploration. This study proposes a novel sequence stratigraphy model for oolitic platform wedges, including facies and early diagenesis features. 相似文献
18.
The development of stratigraphic sequences has been demonstrated to be controlled by a set of factors including variations in subsidence, sediment input, eustatic sea level and physiography. Well and seismic data from the Jeanne d'Arc Basin, Grand Banks indicate that mid-Cretaceous tectonism controls at least three of these factors, namely subsidence, sediment input and physiography. North Atlantic rift tectonism was therefore the dominant factor in controlling the migration of coastal to shallow marine environments and the development of sequence stratigraphy in this basin during the mid-Cretaceous. The Avalon Formation respresents a mainly Barremian to Early Aptian regressive phase of clastic, marine to marginal marine sedimentation. This followed the deposition of a thick sequence of mainly marine limestones and shales of the Whiterose Formation above a mid-Valanginian sequence-bounding unconformity. The increased clastic input and northward progradation of coastal environments represented by the Avalon Formation occurred during uplift of a basement arch to the south with subsidence of the basin increasing to the north, accompanied by only relatively minor faulting. These features indicate that a period of epeirogenesis was initiated during the Barremian. Continuing uplift over an expanding area at the southern end of the basin is interpreted to have resulted in the development of an angular unconformity with incised valleys. This mid-Aptian unconformity defines the top of the Whiterose/Avalon sequence. Initiation of brittle fracturing of the sedimentary package and underlying basement (i.e. rifting) in mid-Aptian times resulted in rapid fault-controlled subsidence and fragmentation of the Jeanne d'Arc Basin. This great increase in subsidence rate caused retrogradation of coastal environments across the previously developed sequence-bounding unconformity, despite continuing high rates of sediment input from the uplifted basin margins. The transgressive, siliciclastic Ben Nevis Formation comprises two separate but related facies associations. A locally preserved basal association represents interfingering back-barrier environments and is herein defined as the Gambo Member. An upper, ubiquitous facies association comprises tidal-inlet channel, shoreface and lower shoreface/offshore transition sandstones. This upper facies association onlapped marine ravinement diastems above the laterally equivalent back-barrier facies. The rapid fault-controlled subsidence and high sediment input rate of this mid-Aptian to late Albian rift period resulted in the accumulation and preservation of very thick shoreface sandstones. The transgressive sandstones were buried by laterally equivalent offshore shales of the Nautilus Formation. Flooding of the basin margins induced by the onset of thermal subsidence in latest Albian or early Cenomanian times marks the top of the Ben Nevis/Nautilus syn-rift sequence. 相似文献
19.
An understanding of the paleoenvironment and the main sedimentary processes behind preserved deposits is crucial to correctly interpret and represent lithofacies and facies associations in geomodels that are used in the hydrocarbon industry, particularly when a limited dataset of cores is available. In this paper a fairly common facies association is discussed containing massive sands - here defined as thick (>0.5 m) structureless sand beds devoid of primary sedimentary structures, or with some faint lamination - deposited by mass failures of channel banks in deep fluvial and estuarine channels. Amongst geologists it is generally accepted that liquefaction is the main trigger of large bank failures in sandy subaqueous slopes. However, evidence is mounting that for sand deposits a slow, retrogressive failure mechanism of a steep subaqueous slope, known as breaching, is the dominant process. A model of breaching-induced turbidity current erosion and sedimentation is presented that explains the presence of sheet-like massive sands and channel-like massive sands and the sedimentary structures of the related deposits. Sheet-like packages of spaced planar lamination that are found together with massive sand bodies in deposits of these environments are identified as proximal depositional elements of breach failure events. The model, acquired from sedimentary structures in deposits in the Eocene estuarine Vlierzele Sands, Belgium, is applied to outcrops of the Dinantian fluvial Fell Sandstone, England, and cores of the Tilje and Nansen fms (Lower Jurassic, Norwegian Continental Shelf). The possible breach failure origin of some other massive sands described in literature from various ancient shallow water environments is discussed. Breach failure generated massive sands possibly also form in deep marine settings. The potentially thick and homogeneous, well-sorted sand deposits bear good properties for hydrocarbon flow when found in such an environment. However, in case of deposition in an estuarine or fluvial channel, these sand bodies are spatially constricted and careful facies interpretation is key to identifying this. When constructing a static reservoir model, this needs to be considered both for in-place volume calculations as well as drainage strategies. 相似文献