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1.
西非下刚果盆地为一典型被动大陆边缘含盐盆地,下刚果盆地北部海域在白垩系海相碳酸盐岩层系获得丰富油气发现。研究区海相碳酸盐岩领域油气勘探面临的核心瓶颈问题,即白垩系碳酸盐岩的沉积模式、演化规律、储层特征以及沉积储层发育控制因素。综合钻井、地震、区域地质等资料,分析认为自下向上相对海平面的上升控制了沉积演化,沉积体系演化模式为浅海碳酸盐岩台地→浅海混积陆棚→半深海-海底扇。下刚果盆地碳酸盐岩储层展布在纵向及平面上均可以划分为内中外3个储层发育带,碳酸盐岩储层最主要发育于下白垩统Albian阶下Sendji组。该时期研究区整体发育浅海碳酸盐岩混积缓坡台地沉积体系,沉积亚相可进一步划分为混积滨岸、后缓坡、浅水缓坡以及深水缓坡4种类型,其中浅水缓坡亚相颗粒滩微相与后缓坡亚相台内浅滩、砂质浅滩微相储层最为发育。碳酸盐岩储层岩性组合主要包括颗粒灰岩、砂岩、砂质灰岩、白云岩4种类型;储层发育主要受沉积相带的控制,并受成岩作用的影响。 相似文献
2.
珠江口盆地珠江组碳酸盐岩油藏在近年取得了勘探新突破,如LF15-1油藏的成功评价,极大地鼓舞了区域碳酸盐岩勘探。由于碳酸盐岩储层非均质性强、分布复杂,受古地形、沉积环境、成岩作用叠合影响,储层评价困难。笔者在前人研究的碳酸盐岩地层速度和储层孔隙度呈线性关系成果的基础上,充分挖潜地震资料计算碳酸盐岩地层速度对研究区储层发育区进行宏观分析,结合叠前叠后联合相控反演进行碳酸盐岩储层精细刻画,在研究区评价出3个有利储层发育区,识别出有利储层Ⅰ区是一个规模超过12km2的岩性圈闭,为区域后续勘探奠定了良好基础。 相似文献
3.
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
4.
以大量岩心观察为基础,结合室内电镜扫描和物性特征分析,对西部斜坡带储层成岩序列与孔隙演化进行了研究,认为储层岩石类型主要为长石岩屑砂岩及岩屑长石砂岩,储集空间以粒间溶孔和粒内溶孔为主,属中孔中渗一低孔低渗型储层。成岩作用及孔隙演化对储层物性有重要影响,该区主要经历了压实、胶结、溶解以及交代等多种成岩作用,其中压实作用和交代作用对储层起破坏作用,溶解作用对储层改善起建设性作用。成岩阶段可划分为早成岩A期、B期和晚成岩A1期、A2期及B期,目前储层处于晚成岩A2期,原生孔隙大部分被破坏,次生孔隙发育,并在2900~3200m和3600。4000m处形成两个次生孔隙发育带。 相似文献
5.
《海洋地质前沿》2015,(9)
准噶尔盆地中拐地区二叠系佳木河组为扇三角洲环境下形成的富火山岩岩屑的致密砂岩储层。综合运用岩心观察、薄片鉴定、物性测试等对佳木河组储层成岩作用特征及其控制因素进行了研究,结果表明:佳木河组储层机械压实作用和胶结作用强,导致储层致密化;浊沸石、片沸石和方沸石是主要胶结作用产物;受佳木河组顶部不整合及烃源岩演化影响,发育弱酸性大气水溶蚀和晚期有机酸溶蚀2期溶蚀作用,浊沸石和方沸石溶孔是其主要表现形式,溶蚀面孔率平均为0.74%。而储层岩性、沸石胶结和逆掩断层活动控制佳木河组储层压实作用;火山岩岩屑是沸石胶结的物质基础,沉积相带和岩性控制不同区域沸石胶结物类型的差异性;弱酸性大气水淋滤是导致佳木河组储层溶蚀的主要原因。 相似文献
6.
巴西盐下湖相碳酸盐岩是现今海外油气勘探的热点领域,但中国关于该类储层特征的研究相对薄弱。通过综合应用岩心、薄片、物性测试等资料,系统研究了储层岩石类型、储集空间类型、储层物性特征、成岩作用类型及其对物性的影响情况。研究表明微生物灰岩和生物碎屑灰岩是盆地的主要储层类型,其中微生物灰岩由叠层石和鲕粒灰岩互层组成,生物碎屑灰岩由贝壳灰岩组成。盐下微生物灰岩储层的孔隙类型以溶孔、晶间孔、粒间孔等次生孔隙和受过改造的原生孔隙为主;生物碎屑灰岩储层的孔隙类型以铸模孔、溶孔、溶洞及晶间孔为主。盐下湖相碳酸盐岩储层整体物性较好,具有中-高孔渗特征;白云岩化和溶蚀作用是改善盐下湖相碳酸盐岩储层的主要成岩作用类型,储层主要处于中成岩阶段,少量处于早成岩阶段。 相似文献
7.
北部湾盆地涠西南凹陷碳酸盐岩潜山储层特征与主控因素分析 总被引:1,自引:1,他引:0
北部湾盆地涠西南凹陷已发现多个碳酸盐岩潜山油田和含油构造,运用岩心、薄片、钻井、测井、地震等资料,对石炭系碳酸盐岩储层特征及主控因素进行了综合分析。研究认为涠西南凹陷碳酸盐潜山主要分布在一号断裂带至二号断裂带附近,其中一号断裂带碳酸盐岩潜山主要为上石炭统黄龙组,岩性为浅灰色灰岩、白云质灰岩、白云岩互层,沉积微相以碳酸盐台地-台缘生屑灰岩滩为主,发育裂缝、溶孔、溶洞等储集空间;二号断裂带碳酸盐岩潜山主要为下石炭统下部石磴子段、孟公拗段,岩性为灰色、深灰色灰岩,沉积微相以台内灰岩滩沉积和台缘生屑灰岩滩为主,发育良好的裂缝型储集层。碳酸盐岩潜山储层发育程度主要受碳酸盐岩沉积环境、地下水活动、古构造应力以及潜山上覆地层岩性等内因和外因诸多因素影响,在这些因素共同作用下,涠西南凹陷碳酸盐岩潜山发育孔隙、裂缝、溶洞等多种储集空间,具备良好的储集条件。 相似文献
8.
冀中坳陷深县凹陷古近系碎屑岩储层成岩作用及成岩演化序列分析 总被引:1,自引:0,他引:1
通过运用岩心化验分析资料、薄片、扫描电镜资料及X射线衍射等资料,对深县凹陷古近系砂岩储层岩石特征、成岩作用类型、成岩阶段、成岩演化序列和孔隙演化进行了系统的分析。研究结果表明:深县凹陷古近系砂岩类型为长石岩屑砂岩或岩屑长石砂岩,岩石的结构成熟度和成分成熟度均较低;影响该区储层物性的成岩作用主要是压实作用、胶结作用、溶蚀作用和交代作用;在此基础上,通过成岩阶段划分与孔隙演化研究,深县凹陷古近系砂岩储层位于成岩阶段的早成岩B期至晚成岩B期。不同成岩阶段的成岩作用强度不同,因此,不同成岩阶段的储层物性变化较大。 相似文献
9.
Shwebo盆地勘探多年来,储层是影响勘探成效的关键因素。研究结果表明,Shwebo盆地白垩系—古近系储层主要岩石类型为长石砂岩、石英砂岩及凝灰质砂岩;孔隙类型主要为残余粒间原生孔隙和微裂隙溶蚀孔隙。孔隙结构复杂、非均质性强以及低孔、低渗是储层的主要特征。沉积环境和成岩作用是影响储层质量的主要因素,其中,影响盆地西部岛弧带储层质量的关键因素是火山活动及成岩作用;影响Shwebo盆地内储层质量的关键因素是胶结作用及压实作用,并指出了盆地有利储层勘探区。 相似文献
10.
从沉积环境背景出发,通过岩心观察、薄片鉴定和扫描电镜分析等方法对江汉盆地潜江凹陷马王庙地区古近系新沟嘴组下段储层成岩作用做了系统的研究.研究表明马王庙地区新下段沉积时期盆地处于干旱蒸发—氧化环境的Ⅰ型沉积环境和半干旱—潮湿弱氧化—弱还原环境的Ⅱ型沉积环境,相应地发育两种储层,经历了两种成岩类型,受其相应的地层水影响,成岩作用差异较大.Ⅰ型成岩作用以胶结作用更显著,对储层孔隙起破坏作用,其较好储层发育受断裂带控制;Ⅱ型成岩作用以溶解作用为主,对储层具有建设作用,成藏面积广,其储层物性相对较好.该认识为深入研究该区成岩作用规律奠定了基础,也有助于油区进一步勘探开发. 相似文献
11.
通过对莱州湾凹陷区域构造地质背景、岩石学特征、沉积环境等分析,认为莱州湾凹陷南部地区古近系沙三下亚段的地层埋藏浅,广泛发育湖相碳酸盐岩与陆源碎屑岩的混合沉积,混合沉积特征主要为结构混合和互层混合。考虑到混积岩成分和成因的复杂性,本文在岩心、壁心观察、铸体薄片鉴定、荧光薄片鉴定和扫描电镜分析的基础上,对莱州湾凹陷南部地区混积岩样品进行了X-射线衍射分析和岩石有机质中碳氢氧元素分析,分析了碳酸盐岩和陆源碎屑岩混积的岩石学特征。结果显示:莱州湾凹陷南部地区浅层沙三下亚段混积岩中陆源碎屑平均含量为60.5%,碳酸盐矿物含量为28.2%,属于碳酸盐质陆源碎屑岩,混积岩主要为泥灰岩、灰质砂岩和砂质白云岩。其中,碎屑矿物主要以细-粉砂级石英为主,碳酸盐矿物主要为泥晶方解石;粘土矿物组合主要为伊蒙混层,其次为伊利石、高岭石和绿泥石;且三者呈均匀混合的特征。同时通过铸体薄片、扫描电镜和储层流体包裹体观察,综合分析成岩作用表明,埋藏浅的沙三下亚段混积岩储层主要经历了压实、压溶作用、溶蚀作用、胶结交代作用,其中胶结交代作用较强,而研究区压实、压溶作用对比渤海湾盆地大部分埋藏较深的古近系地层都弱,储集空间以原生粒间孔为主,其次为粒内溶蚀孔和微缝。压实、压溶作用弱和溶蚀作用强是研究区沙三下亚段储层物性好的主要原因。 相似文献
12.
盐城凹陷天然气储层为成分成熟度很低的砂砾岩、砾状砂岩、砂岩和少量粉砂岩,砂岩类型主要为长石岩屑砂岩和少量岩屑长石砂岩。成岩矿物主要类型有粘土矿物、石英、钠长石、碳酸盐、硬石膏和石膏等。储层以次生孔隙发育为特点,以粒间孔隙和骨架颗粒溶孔最为发育,溶解作用发育程度与泥质岩在成岩过程中粘土矿物和有机质的演化关系极其密切。盐城天然气进入储层发生在始新世———新近纪,主要成藏期发生在4.5~10Ma。天然气储层成岩演化阶段处于晚成岩A亚期。储层性质明显地受到沉积相和成岩作用的影响。沉积物粒度较粗、厚度较大的河道砂的储集物性明显优于各种粒度较细、厚度较薄的席状砂体。 相似文献
13.
Significant volumes of the known hydrocarbon reserves are found in carbonate rocks, many of these dolomitized. The spatial distribution of diagenesis on these rocks is one of the main challenges in oil reservoir modeling. Reactive transport models can be a powerful tool to understand the active diagenetic processes and their effects on the quality of these reservoirs. In this study it was used, for the first time, the CMG-GEM simulator to model diagenetic evolution of a carbonate sequence, subjected to compaction-driven and geothermal flow in a simulated period of 200 thousand years. It was simulated carbonate cementation, dolomitization and dissolution, with and without presence of faults. Among the analyzed variables, the volume of circulating fluid was the most important factor. For both mechanisms, flow simulated velocities obtained had magnitudes smaller than 10−6 m/day. Diagenesis was insignificant for these low speeds at simulated time interval. Only dolomitized facies presented relevant diagenesis in form of calcite dissolution and dolomite precipitation. Simulations with flow rates of 1 m/day revealed a considerable increase in observed diagenesis, especially in carbonate cementation and in porosity enhancement. Diagenesis was more pronounced in more permeable sediments, highlighting the role of fluid flow in diagenetic reactions. Relative dissolution was greatly reduced during simulations performed with absence of dolomite and dolomitization reactions. The presence of faults strongly influences spatial distribution of diagenesis, especially relatively to dissolution. More permeable facies were more dissolved near fault, decreasing with increasing distance. Low permeability facies, as mudstones, are not dissolved, even near fault. Spatial distribution of diagenesis would then be dependent mainly on the quality of original pore structure, of fault presence and mineral composition of rock. 相似文献
14.
Fractured reservoirs are of prime interest as fracture networks control most of the fluid flow and/or accumulation. However, characterizing 3D fracture patterns from subsurface data remains challenging. Studying fractures on outcrops is a good substitution to 1D data from subsurface exploration tools. In addition, outcrops allow deciphering the nature, origin and conditions for fracture formation through the geodynamic history. In this paper, we aim at characterizing the true 3D fracture patterns and determining the genetic role of facies, diagenesis and rock physical properties. We targeted a platform–slope transect within a carbonate reservoir analog, the Maiella Mountain in central Italy, where implications for analog hydrocarbon reservoir can be discussed.Fracture patterns are sorted based on geometric and kinematic criteria from field measurements and petrographic analyzes on thin-sections. Sedimentary facies, pore types and rock physical properties have been characterized in order to establish the impact of early diagenesis on rock evolution. Diagenetic sequences have been unraveled and correlated to the fractures. Fracture sequences have been determined considering the cross-cutting relationships and compared with burial–uplift history. In the two studied formations (platform and slope carbonates), we interpret a stage of fracturing perpendicular to bedding, formed at shallow depth and occurring prior to major regional tectonic events. The studied carbonates have undergone early diagenesis during fast and shallow burial, conferring early brittle behavior. The amount of stylolites is not correlated to burial depth but to fracture density, porosity and free air P–wave velocity. It means that fracture development, mechanical and petrophysical properties are acquired during early diagenesis.Both studied formations have undergone the same geodynamic history and their brittle response is different and not related to folding but to burial and early cementation. Deciphering the close relationship between sedimentary facies, diagenetic and geodynamic history has allowed unraveling the controling factors on rock properties and therefore on fracture pattern. 相似文献
15.
Whilst the relationship between stratigraphic development and carbonate cementation within siliciclastic succession has been documented through a number case studies, these studies have been generally restricted to observations upon individual sequences and/or limited sub-surface data. In this paper, long-term (5 million years), large-scale (>200 km) stratigraphic controls on carbonate cementation patterns are documented from the Upper Cretaceous Panther Tongue Member, Blackhawk Formation and Castlegate Sandstone exposed in the Book Cliffs in Utah and Colorado, USA. Together, these comprise eight progradational wedges of sandstones, which interfinger with the Mancos Shale, deposited within the Western Interior Seaway foreland basin. Petrographic analyses of ferroan dolomite cement bodies within these sandstone wedges show that the ferroan dolomite cements are all early, relative to burial diagenesis within the host sandstones. Stable isotope analyses indicates that a significant meteoric component was present in precipitating fluids and this is consistent with the observation that cements, are always present down-dip of sequence boundaries and/or leached whitecaps beneath coals. In addition, the lateral distribution of cement bodies increases consistently up-succession from less than 5 km in extent in the older sequences, to 30 km in extent in the youngest sequences. These changes in distribution are in response to the increased progradation and increased and more aerially extensive sequence-boundary development in younger sequences. The implications of these data are that whilst localized spatial patterns of diagenesis, and in particular carbonate cementation, are predictable and controlled by the nature and presence of individual stratal surfaces, systematic diagenetic alteration patterns are also present at the sedimentary basin scale and controlled by the nature of larger-scale stratigraphic development and basin evolution. This evolution may be driven by eustatic shifts, or through tectonic or climatic driven base-level shifts. These observations allow an improved insight into the basin-scale processes that control the macroscopic diagenetic properties of sedimentary successions and sub-surface hydrocarbon reservoirs. 相似文献
16.
Dongxia Chen Xiongqi Pang Zhenxue Jiang Jianhui Zeng Nansheng Qiu Maowen Li 《Marine and Petroleum Geology》2009
A great difference exists between the hydrocarbon charging characteristics of different Tertiary lacustrine turbidites in the Jiyang Super-depression of the Bohai Bay Basin, east China. Based on wireline log data, core observation and thin-section analyses, this study presents detailed reservoir property data and their controlling effects from several case studies and discusses the geological factors that govern the hydrocarbon accumulation in turbidite reservoirs. The lacustrine fluxoturbidite bodies investigated are typically distributed in an area of 0.5–10 km2, with a thickness of 5–20 m. The sandstones of the Tertiary turbidites in the Jiyang Super-depression have been strongly altered diagenetically by mechanical compaction, cementation and mineral dissolution. The effect of compaction caused the porosity to decrease drastically with the burial depths, especially during the early diagenesis when the porosity was reduced by over 15%. The effect of cementation and mineral dissolution during the late-stage diagenesis is dominated by carbonate cementation in sandstones. High carbonate cement content is usually associated with low porosity and permeability. Carbonate dissolution (secondary porosity zone) and primary calcite dissolution is believed to be related to thermal maturation of organic matter and clay mineral reactions in the surrounding shales and mudstone. Two stages of carbonate cementation were identified: the precipitation from pore-water during sedimentation and secondary precipitation in sandstones from the organic acid-dissolved carbonate minerals from source rocks. Petrophysical properties have controlled hydrocarbon accumulation in turbidite sandstones: high porosity and permeability sandstones have high oil saturation and are excellent producing reservoirs. It is also noticed that interstitial matter content affects the oil-bearing property to some degree. There are three essential elements for high oil-bearing turbidite reservoirs: excellent pore types, low carbonate cement (<5%) and good petrophysical properties with average porosity >15% and average permeability >10 mD. 相似文献
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渤东低凸起东营组储集层以低渗为特征,低渗成为制约该区东营组勘探的重要因素.通过多种分析测试方法,研究了渤东低凸起L3构造东营组低渗储集层特征,探讨了低渗储集层成因.L3构造东营组储集层砂岩溶蚀作用发育,斜长石含量低,碳酸盐胶结物含量低,高岭石含量高,石英加大明显.储集层主要以中孔低—特低渗为主,孔径小,连通差,吼道窄,排驱压力大.微量元素分析表明,研究区东营组沉积时为淡水环境;测井和岩心观察证实,地层中含多层碳质泥岩和煤层.早期腐殖酸的溶蚀作用,造成低温下不稳定的斜长石大量溶蚀,这些溶蚀孔隙在后期深埋过程中受压实和成岩作用影响被复杂化、细小化是储集层低渗的主要原因.早期碳酸盐胶结物少,岩石抗压实能力差也是储层低渗的重要原因. 相似文献