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1.
Reservoirs公司 《海相油气地质》2005,10(3):51-60
西班牙东部海域的卡萨布兰卡油田发现于1975年1980年晚期投入生产。介绍了该油田的勘探史,描述了该盆地的构造演化史,区域地层、沉积相及储层特征等。该油田主要由以北东、南西向断层为界的具有五个相互独立高点的台地相碳酸盐岩潜山圈闭构成上覆中新统页岩盖层其主力油层为中上侏罗统和下白垩统石灰岩和白云岩烃源岩主要含型干酪根总有机碳为石灰岩主要由球粒骨架粒泥灰岩和泥粒灰岩泥岩和少量骨架颗粒灰岩构成这些灰岩均因致密胶结而基本损失原始孔隙而绝大多数的白云岩为细晶白云岩原生孔隙微乎其微基质孔隙度仅为5% 相似文献
2.
微生物碳酸盐岩研究是近年来国内外关注的热点,虽然已经取得了一定的成果和认识,但是在储层精细描述方面研究相对薄弱。以巴西桑托斯盆地盐下白垩系湖相微生物碳酸盐岩油田为例,利用露头、岩心、测井、地震等资料综合分析了研究区储层沉积特征、岩性、物性特征及其主控因素,并在此基础上对储集体内幕结构进行分类和描述,初步建立其定量表征方法。结果表明:(1)研究区由3个独立的碳酸盐岩台地沉积组成,可细分为微生物灰岩丘、高能颗粒滩、丘间洼地和台间洼地4个亚相;(2)微生物灰岩、生物碎屑颗粒灰岩、介壳颗粒灰岩、层纹岩等是主要的储层岩石类型;(3)储层物性较好,孔隙度4%~27%,集中在5%~15%,平均12.5%;渗透率为(0.01~3 000)×10-3μm2,平均120×10-3μm2;(4)储层发育受沉积和成岩双重作用,古构造控制优势储层的发育,准同生期溶蚀作用对储层改造作用加强,周期性暴露溶蚀使生物碎屑颗粒填充至丘间洼地形成高孔高渗条带;(5)研究区储层的内幕结构以微生物灰岩丘群为基础,细分为丘基、丘核、丘翼、丘间... 相似文献
3.
曾母盆地是位于南海南部的一个大型新生代沉积盆地,具有面积大、沉积速率快、沉积厚度大的特点。国内外油气勘探和研究表明,曾母盆地具有十分良好的油气地质条件,主要发育渐新统海陆过渡相炭质页岩、煤层、海相泥岩和下—中中新统海相泥岩两大套烃源岩,以及渐新统—中新统砂岩和中—上中新统灰岩或礁灰岩两大套储层。康西坳陷和东巴林坚坳陷为盆地两个主要生烃区。纵向上,油气主要赋存于下中新统砂岩和中上中新统碳酸盐岩,前者以含油为主,后者以含气为主;横向上,曾母盆地具有南油北气的特征,气田主要分布在东部南康台地上和西部斜坡上,油田主要赋存在巴林坚地区。油气分布具有明显的分区性,主要与盆地不同构造单元构造和沉积作用的差异性相关。 相似文献
4.
塔河油田是我国最大的陆上整装碳酸盐岩油田,其油田水分布与运动特征反映了油气运移规律。该区奥陶系油田水现今总体矿化度高,南北向存在从低到高再到低的3个矿化带,各带内平面分割性强,纵向层间差异大。塔河油田奥陶系的流体经历了多期次活动,奥陶系储层共捕获了4~5期盐水包裹体,其均一温度范围集中在60~80℃,90~105℃,110~140℃和145~170℃,盐度集中在0.5%~4%、5%~10%、10%~13%、14%~18%、>18%,反映出奥陶系储层曾经历过了4~5期热流体活动,对照埋藏史与油气运移史,高盐度流体活动与油气运移具有良好的匹配关系,油田水化学指标(油田水变质系数、碳酸盐岩平衡系数等)反映出塔河油区现今保存条件良好。井剖面包裹体纵向温度、盐度纵向不规则变化表明流体的活动以侧向运移为主。流体势分析说明运移方向不仅包括塔河东、南面是烃源岩方向,而且具有高流体势的西面也可能是油气来源方向。 相似文献
5.
湖泊三角洲研究的回顾与展望 总被引:7,自引:1,他引:6
本文以中国陆相含油气盆地为例,简要地回顾了湖泊三角洲的研究史、研究现状和存在的主要问题。认为高分辨率层序地层学理论在湖泊三角洲不同级次的等时成因地层单元划分对比中的应用,可将单井的一维信息转化为油田范围至盆地范围的三维信息,从而为储层预测和油气藏精细描述提供更可靠的依据,为油气勘探带来广阔的前景。 相似文献
6.
利用岩心、薄片、测井等资料,研究了伊拉克艾哈代布油田上白垩统Khasib组的沉积相及其储层发育主控因素。研究区Khasib组主要发育碳酸盐岩缓坡和局限台地两种沉积相。Khasib组与下伏Mishrif组之间为不整合接触。Khasib组的沉积演化从碳酸盐岩缓坡泥岩开始,逐渐过渡到局限台地环境,发育多期叠置的生屑滩和砂屑滩。Khasib组碳酸盐岩是研究区重要的含油层系,主要储集岩为颗粒灰岩和泥粒灰岩,平均孔隙度22.17%,平均渗透率4.622×10-3μm,为高孔中低渗孔隙型储层。研究表明沉积相对Khasib组储层发育具有控制性,主要影响孔隙类型和孔隙结构。Khasib组沉积相研究能够为该油田的合理开发提供沉积学依据。 相似文献
7.
伊拉克HF油田上白垩统Hartha组灰岩沉积在碳酸盐缓坡环境,储层发育特征及其主控因素尚不明确。通过钻井、测井、岩芯和地震资料,并结合薄片观察、分析化验,研究了该油田Hartha组的岩石学特征、储集空间特征及物性特征,并分析了沉积相和成岩作用对储层发育的控制。结果表明,厚度约50 m的Hartha组的储层岩石类型主要为粒泥灰岩、泥粒灰岩和颗粒灰岩,孔隙度10%~22%,渗透率集中在(0.1~0.5)×10^(-3 )μm^2和(1~5)×10^(-3 )μm^2,基质物性较好。Hartha组上段储集性能相对较好,Hartha组下段发育外缓坡灰泥,储集性较差。沉积作用对储层的物性起着主要控制作用,滩相储层的物性明显好于非滩相。该套灰岩的储集空间为粒间孔、铸模孔、生物体腔孔,以及粒内溶孔和微裂缝。晚白垩世暴露剥蚀期,在表生作用下Hartha A层溶孔部分被胶结物充填,存在局部的强烈胶结带。 相似文献
8.
塔里木盆地、鄂尔多斯盆地和四川盆地主要碳酸盐岩储层的发育均与障壁岛或其后缘等沉积环境有关,并受早期大气淡水淋滤溶蚀作用、白云石化作用、古岩溶作用以及埋藏溶蚀作用等成岩因素的控制。认为三大盆地碳酸盐岩储层可划分为大气淡水淋溶型礁滩灰岩储层、古岩溶型礁滩灰岩储层、白云石化型礁滩白云岩储层和古岩溶型含膏白云岩储层等四种类型。提出了与障壁有关的储层综合成因与预测模式,其中构成障壁的台地边缘礁滩带是大气淋溶型礁滩灰岩储层、古岩溶型礁滩灰岩储层和白云石化型礁滩白云岩储层的有利发育区,而障壁岛后缘的蒸发盆地边缘坪区域是古岩溶型含膏白云岩储层有利发育区。 相似文献
9.
南海油气分布特征及主控因素探讨 总被引:1,自引:0,他引:1
以最新油气田储量数据为基础,运用统计学与石油地质综合分析相结合的方法,研究表明,南海以气为主,其油、气探明储量分别占总探明储量的38%和62%。总探明储量中:碎屑岩储层油气田所占比例最高,占57%;其次为生物礁碳酸盐岩储层油气田,占36%;前第三系基岩裂缝型储层油气田,占7%。碎屑岩储层油气田主要分布于近物源区域,生物礁储层油气田主要分布于远离物源的台地区,基岩裂缝型储层油气田主要分布于南海西部走滑带控制的盆地中。油气主要分布于中中新统,其次为下中新统与前第三系基岩,它们分别占总探明储量的51%、17%和11%。高地温梯度与烃源岩的有机质类型决定了南海油气资源以气为主,盆地类型的差异决定了南海南部油气资源较北部丰富。盆地构造演化史和周边古水系控制了南海油气田储集类型和时空分布。 相似文献
10.
伊拉克艾哈代布油田白垩系生物铸模孔及体腔孔发育的灰岩储层特征及成因分析 总被引:2,自引:0,他引:2
伊拉克地区艾哈代布油田白垩系(含)生物灰岩的生物铸模孔和体腔孔普遍发育,是主要的储集空间。本文综合利用铸体薄片观察、物性实验数据和压汞曲线等资料对该类储层的特征和成因进行分析。生物铸模孔以绿藻铸模孔为主,常发育在生物碎屑滩和藻屑滩中;发育的体腔孔主要为底栖有孔虫和浮游有孔虫体腔孔,在滩间凹地及台坪中常见。研究区灰岩储层的平均孔隙度在20%~25%,为中高孔储层,渗透率与孔隙结构和孔隙组合类型密切相关。生物铸模孔和晶间微孔组合储层的孔隙结构相对较好,平均渗透率约在2×10-3~10×10-3μm2之间,为中高孔-中低渗储层;体腔孔和晶间微孔组合储层的孔隙结构相对较差,平均渗透率小于2×10-3μm2,属于中高孔低渗储层。生物铸模孔及体腔孔灰岩储层的发育受控于沉积环境和同生期溶蚀作用。藻屑滩沉积在较局限的环境,因同生期的暴露溶蚀作用,发育铸模孔。滩间凹地、台坪等相对静水环境沉积物中有孔虫含量较高,原生的有孔虫体腔孔发育。由于这两类孔隙分布相对"孤立",主要靠晶间隙连通,形成了储层的中高孔和低渗透的特征。 相似文献
11.
安哥拉下刚果盆地吉拉索尔深水油田 总被引:4,自引:2,他引:4
吉拉索尔油田位于西非安哥拉17号深水区块,水深1200~1400m,距安哥拉海岸150km。1996年发现,2001年产油,是安哥拉投入开发的第一个深水油田。油田面积约140km2,地质储量约为15.5×108bbl,可采储量约7.25×108bbl,为轻质油。油田所在的下刚果盆地主要经历了裂谷期、过渡期和热沉降期三个阶段的构造演化,相应沉积了裂谷期陆相地层、过渡期蒸发岩层和热沉降期海相地层。主要烃源岩为下白垩统Bucomazi组湖相页岩,有机质丰度高,类型好,成熟度适中,为很好的烃源岩。盆地深水区主要储层为上渐新统—中新统河道充填浊积砂岩复合体,砂岩固结差,物性良好。吉拉索尔油田主要由几个河道浊积砂岩复合体叠置组成,其中夹几个薄层席状砂岩,复合体之间被海相泥页岩分隔。上覆第三系泥岩为其主要盖层。 相似文献
12.
鄂尔多斯盆地东缘煤田勘探程度较高,煤层气地面钻井勘探历史比较长,勘探程度较高,煤层气开发试验取得了明显成果.美国圣胡安盆地FAIRWAY地区是煤层气产量最高的区域,称之为“甜点”.鄂尔多斯盆地东缘的不同区域二叠系煤层气产能不同,与多种因素有关,对该地区的“甜点”区的煤层特征、储层特征、圈闭特征等进行了详细分析,有利于指... 相似文献
13.
The Salt Range/Potwar Plateau (SRPP) is part of the Himalayan foreland and an important petroleum province in north Pakistan. The hydrocarbons are commonly produced from stacked Cambrian to Eocene clastic and carbonate reservoirs which have an average thickness of 1 km. These strata are overlain by at least 5 km of Miocene and younger continental molasse sedimentation in the deepest part of the foreland basin. Surface and subsurface (seismic interpretations and borehole data) geology combined with the timing and the patterns of sedimentation has allowed to interpret the deformation as thin skinned, with a detachment in weak Eocambrian evaporates and the development of ramp-and-flat structures, since about 8 Ma. We have reviewed the structural interpretations with new borehole logs, field geology, and reserve estimates in this paper to precisely define oil-field structures with a view on future exploration. As a result of this work, 12 oil fields are classified as three detachment folds, four fault-propagation folds, four pop-ups, and one triangle zone structure. The latter two are identified as better prospects with the last one as the best with estimated reserves of 51 million barrels of oil (MMBO). Hence, the triangle zones along with other ramp-and-flat structures from the North Potwar Deformed Zone (NPDZ) are recognized to provide potential future prospects. Finally, a 40-km-long structural cross section from NPDZ is used to discuss complex deformation of the triangle zone and duplex structures as future potential prospects. About 55 km of shortening across the NPDZ during Plio-Pleistocene time is calculated, which has important bearing on the geometry of prospects, reserve calculations, and the future exploration. 相似文献
14.
N. F. Exon Y. Lafoy P. J. Hill G. R. Dickens I. Pecher 《Australian Journal of Earth Sciences》2013,60(5):629-645
The Fairway Basin is a large, generally north – south-trending, sediment-filled structure in water 1500 – 3000 m deep, on the eastern slope of the Lord Howe Rise in the Tasman Sea, and is partly within Australian jurisdiction. It was poorly known until a few years ago, when seismic profiling and piston coring cruises were carried out. The basin, about 1100 km long and 120 – 200 km wide, can be divided into three segments—north, central and south—that trend northwest, north and north-northwest, respectively. All three segments probably formed by thinning of continental crust during breakup of Lord Howe Rise and surrounding aseismic continental ridges in the Late Cretaceous and Paleocene. Normal faulting, large inputs of terrigenous sediment and subsidence to bathyal marine depths occurred during that time. A period of compression, perhaps related to overthrusting on New Caledonia, occurred in the Eocene, leading to uplift (and in parts, erosion) of northern Lord Howe Rise, and reversal of faulting in the basin. By the Oligocene, the area was again in bathyal depths, and pelagic ooze and some turbidites accumulated. The basinal sequence is generally 2000 – 4000 m thick, with 1200 – 3200 m of Cretaceous to Eocene sediment concentrated in depocentres, capped by 500 – 800 m of Oligocene and younger sediment. In the depocentres, numerous sedimentary diapirs pierce sedimentary sequences. The sedimentary diapirs appear to be fed by Cretaceous muds deposited during rifting. Often, these diapirs are overlain by faults extending to the seafloor, and hummocky bathymetry is possibly caused by fluid escape. The overall geology suggests that the Fairway Basin may be a large frontier hydrocarbon province. Seismic profiles display a bottom-simulating reflector above many depocentres, 500 – 700 m below the seafloor. The bottom-simulating reflector has positive polarity, which could result from a diagenetic phase transformation, a thin gas hydrate layer with a sharp top, or from the sharp base of a gas layer (probably beneath gas hydrates). Standard piston cores taken above diapirs and apparent fluid-escape features have recovered little gas. Other than drilling, the next steps in assessing petroleum potential are to clearly document fluid-escape structures, and to sample any fluids emitted for hydrocarbons. 相似文献
15.
A high-temperature geothermal resource has been located on the island of St Lucia (W.I.), which was tapped by means of a well drilled in 1988 to a total depth of 1410 m, in the Sulphur Springs area. The well encountered mainly dacitic agglomerates and lava flows and a permeable zone below ≈1340 m, with a maximum temperature of ≈290°C.Well productivity decreased from an initial value close to 62 t/h to about 33 t/h under well-head pressures of 1.5 MPa (15 bar a) after 255 h of production. Initial reservoir static pressure was 7.5 MPa (75 bar a). A decline in reservoir pressure of about 15% was observed at the end of the production test. During the first two days of exploitation the well initially produced a two-phase fluid with high steam fraction, which then developed into superheated steam with a high content of non-condensable gas exceeding 100 1/kg at standard conditions and a computed P(CO2) of 1 MPa (10 bar).The average steam fraction at reservoir conditions, computed from gas composition after 120 h of production is 0.3.High HCl concentrations of about 300 ppm are present in the condensate steam indicating the presence of a high concentrated boiling brine to the point of halite saturation. All data support the hypthesis of a hydrothermal hot-water system prior to drilling, that underwent a very rapid drawdown with production. 相似文献
16.
The microphytobenthos consists of unicellular eukaryotic algae and cyanobacteria that grow within the upper several millimeters of illuminated sediments, typically appearing only as a subtle brownish or greenish shading. The surficial layer of the sediment is a zone of intense microbial and geochemical activity and of considerable physical reworking. In many shallow ecosystems, the biomass of benthic microalgae often exceeds that of the phytoplankton in the overlying waters. Direct comparison of the abundance of benthic and suspended microalgae is complicated by the means used to measure biomass and by the vertical and horizontal distribution of the microphytobenthos in the sediment. Where biomass has been estimated as chlorophyll a, there may be negligible to large (40%) error due to interference by degradation products, except where chlorophyll is measured by high-performance liquid chromatography. The vertical distribution of microphytobenthos, aside from mat-forming species, is determined by the opposing effects of their vertical migration, which tends to concentrate them near the surface, and physical mixing by overlying currents, which tends to cause an even vertical distribution through the mixed layer of sediment. Uncertainties in vertical distribution are compounded by frequently patchy horizontal distribution. Under-sampling on small (<1 m) scales can lead to errors in the estimate that are comparable to the ranges of seasonal and geographic variation. These uncertainties are compounded by biases in the techniques used to estimate production by the microphytobenthos. In most environments studied, biomass (as chlorophyll a) and light availability appear to be the principal determinants of benthic primary production. The effect of variable light intensities on integral production can be described by a functional response curve. When normalized to the chlorophyll content of the surficial sediment, the residual variation in the data described by the functional response curve is due to changes in the chlorophyll-specific response to irradiance. Production by the benthos is often a significant fraction of production in the water column and microphytobenthos may contribute directly to water column production when they are resuspended. Thus on both the basis of biomass and biogeochemical reactivity, benthic microalgae play significant roles in system productivity and trophic dynamics, as well as such habitat characteristics as sediment stability. *** DIRECT SUPPORT *** A01BY074 00003 相似文献
17.
《Applied Geochemistry》1988,3(6):573-582
Detailed molecular and isotopic analysis of near surface liquid hydrocarbon seepage is useful not only in determining the presence of petroleum hydrocarbons but also to indicate the type and quality of deeper seated hydrocarbons. Near surface sediment bitumens collected over known production in the offshore Santa Maria basin were shown to be similar to reservoired petroleum in the adjacent onshore. Triterpane, sterane and aromatized sterane compositional similarities between oils and near surface sediment bitumens suggest a common source in the Monterey Formation. An empirical model based on the relation between oil composition (pristane/phytane and bisnorhopane/hopane ratios) and API gravity was applied to the near surface bitumens and accurately predicted the API gravity of the nearest known production. The improvement and refinement of geochemical prospecting techniques has greatly enhanced their use and reliability as exploration tools. 相似文献
18.
The Rocky Mountain basins of western North America contain vast deposits of coal of Cretaceous through early Tertiary age. Coalbed methane is produced in Rocky Mountain basins at depths ranging from 45 m (150 ft) to 1,981 m (6,500 ft) from coal of lignite to low-volatile bituminous rank. Although some production has been established in almost all Rocky Mountain basins, commercial production occurs in only a few. Despite more than two decades of exploration for coalbed methane in the Rocky Mountain region, it is still difficult to predict production characteristics of coalbed methane wells prior to drilling. Commonly cited problems include low permeabilities, high water production, and coals that are significantly undersaturated with respect to methane. Sources of coalbed gases can be early biogenic, formed during the early stages of coalification, thermogenic, formed during the main stages of coalification, or late stage biogenic, formed as a result of the reintroduction of methane-generating bacteria by groundwater after uplift and erosion. Examples of all three types of coalbed gases, and combinations of more than one type, can be found in the Rocky Mountain region. Coals in the Rocky Mountain region achieved their present ranks largely as a result of burial beneath sediments that accumulated during the Laramide orogeny (Late Cretaceous through the end of the Eocene) or shortly after. Thermal events since the end of the orogeny have also locally elevated coal ranks. Coal beds in the upper part of high-volatile A bituminous rank or greater commonly occur within much more extensive basin-centered gas deposits which cover large areas of the deeper parts of most Rocky Mountain basins. Within these basin-centered deposits all lithologies, including coals, sandstones, and shales, are gas saturated, and very little water is produced. The interbedded coals and carbonaceous shales are probably the source of much of this gas. Basin-centered gas deposits become overpressured from hydrocarbon generation as they form, and this overpressuring is probably responsible for driving out most of the water. Sandstone permeabilities are low, in part because of diagenesis caused by highly reactive water given off during the early stages of coalification. Coals within these basin-centered deposits commonly have high gas contents and produce little water, but they generally occur at depths greater than 5,000 ft and have low permeabilities. Significant uplift and removal of overburden has occurred throughout the Rocky Mountain region since the end of the Eocene, and much of this erosion occurred after regional uplift began about 10 Ma. The removal of overburden generally causes methane saturation levels in coals to decrease, and thus a significant drop in pressure is required to initiate methane production. The most successful coalbed methane production in the Rocky Mountain region occurs in areas where gas contents were increased by post-Eocene thermal events and/or the generation of late-stage biogenic gas. Methane-generating bacteria were apparently reintroduced into the coals in some areas after uplift and erosion, and subsequent changes in pressure and temperature, allowed surface waters to rewater the coals. Groundwater may also help open up cleat systems making coals more permeable to methane. If water production is excessive, however, the economics of producing methane are impacted by the cost of water disposal. 相似文献
19.
Spillage and improper disposal of saline produced water from oil wells has caused environmental damage at thousands of sites in the United States. In order to improve understanding of the fate and transport of contaminants at these sites, the U.S. Geological Survey carried out multidisciplinary investigations at two oil production sites near Skiatook Lake, Oklahoma. As a part of this effort, the hydrology and subsurface transport of brine at OSPER site “A”, a tank battery and pit complex that was abandoned in 1973, was investigated. Based on data from 41 new boreholes that were cored and completed with monitoring wells, a large (∼200 m × 200 m × 20 m) plume of saline ground water was mapped. The main dissolved species are Na and Cl, with TDS in the plume ranging as high as 30,000 mg/L. Analysis of the high barometric efficiency of the wells indicated a confined aquifer response. Well-slug tests indicated the hydraulic conductivity is low (0.3–7.0 cm/day). Simplified flow and transport modeling supports the following conceptual model: (1) prior to the produced water releases, recharge was generally low (∼1 cm/a); (2) in ∼60 a of oil production enough saline produced water in pits leaked into the subsurface to create the plume; (3) following abandonment of the site in 1973 and filling of Skiatook Reservoir in the mid-1980s, recharge and lateral flow of water through the plume returned to low values; (4) as a result, spreading of the brine plume caused by mixing with fresh ground water recharge, as well as natural attenuation, are very slow. 相似文献
20.
柿庄北地区位于沁水盆地东南部,是我国重要的煤层气产区。煤层裂缝作为主要的渗流通道,对煤层气高产富集起到重要控制作用。该区山西组3号煤层中褶皱轴部走向为近南北向,野外露头区发育一组共轭剪裂缝,优势方位为NW与近EW向,其次是近SN向。根据构造形迹确定燕山期应力场以SEE105°挤压为主。利用水力加砂压裂法对现今井点目的层地应力进行计算,通过古地磁定向与声速各向异性确定现今最大水平主应力方向为NE55°。将煤层构造与地表起伏形态作为主要影响因素,采用有限元法对燕山期及现今地应力场进行数值模拟,利用弹性力学理论对裂缝参数进行计算,计算结果认为柿庄北3号裂缝孔隙度、渗透率普遍较小,整体上中部背斜区 > 中部平缓区 > 东部单斜区 > 中部向斜区 > 西部地区。模拟的裂隙特征与实测数据所反映的裂缝特征相近,单井产气量高的地区,裂隙较发育。 相似文献