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991.
砂岩侵入复合体是指沉积砂质母岩,在未固结时由于某种机制而积累了异常高压,产生液化、流化、再活动,向上覆细粒沉积物侵入的各种砂体的总和。目前已经在全球50多个深水盆地中(Braccinietal,2008)及所有的年代地层中都发现了从毫米到千米级别的砂岩侵入体。砂岩侵入复合体包含母岩、侵入体系和喷出体系三部分,通过对目前报道的一些砂岩侵入复合体实例分析,对其各建筑要素的外部几何形体和边界特征、内部沉积构造和显微结构进行了总结。不规则的几何形态,突变的边界特征,与液化作用相关的无构造砂岩、碟状构造、管状构造以及独特的泥岩碎屑表现出来的粒序性、条带等沉积构造,形状各异的矿物颗粒以及泥岩碎屑中砂岩裂缝切割等显微结构都可以作为识别砂岩侵入复合体的标准。加强砂岩侵入复合体的研究,为侵入圈闭的勘探和开发提供理论基础。 相似文献
992.
S. W. Mao X. X. Wang Y. S. Gao Z. C. Wang 《Australian Journal of Earth Sciences》2013,60(8):1175-1180
AbstractThe Upper Triassic Chang 8 Member, the eighth member of the Yanchang Formation, is a key reservoir interval in the Jiyuan area of the Ordos Basin. The reservoir quality of the Chang 8 Member tight sandstones is extremely heterogeneous owing to the widespread distribution of carbonate cements. The carbonate cements commonly develop near sandstone–mudstone interfaces and gradually decrease away from the interfaces to the centres of the sand bodies. However, the content of carbonate cements (≤6%) has a positive correlation with the visual porosity in the Chang 8 Member sandstone, revealing that the carbonate cements contribute to the compaction resistance and the residual primary pores of reservoirs during the diagenetic process. Three main types of carbonate cement are identified: type I (calcite), type II (calcite and ferrocalcite), and type III (dolomite and ankerite). The type I calcite is characterised by enriched δ13C (mean –3.41‰) and δ18O (mean –15.17‰) values compared with the type II (mean δ13C?=?–7.33‰, δ18O?=?–18.90‰) and type III (mean δ13C?=?–10.0‰, δ18O?=?–20.2‰) cements. Furthermore, the mean δ18O value (–4.7‰) of the type I pore fluids is 1.5‰ and 0.9‰ lower than the type II (mean –3.2‰) and type III (mean –3.8‰) pore fluids, respectively. This indicates that the evolving pore fluids experienced some relative strong water–rock interactions that provided the original materials (e.g. Ca2+, Fe3+, and Mg2+) for the carbonate cements during the diagenetic process. The highly saline lake water directly provided the primary material for the type I calcite precipitation, which also provided the material necessary for the precipitation of the type II and type III carbonate cements, causing enriched δ18O values of the pore fluids during the precipitation of the type II and type III carbonate cements. Although the earlier dissolved pores were filled with ferrocalcite, dolomite and ankerite in the middle–late diagenetic stages, some residual pores and fractures remained to become the potential reservoir storage spaces for the oil and gas exploration in the Jiyuan area. 相似文献
993.
康滇古大陆裂谷的发生和演化造就了楚雄盆地,沉积出煤、铜、盐旋回与含矿建造和矿床组合.铜矿的生成(特别是改造富集)与煤(有机质)、盐(热卤水)密切相关.大姚—牟定式砂岩铜矿以其规模最大而具代表性.它的成矿作用的演化是从风化沉积作用到成岩作用、后生作用再到改造作用.作用的结果是分别产生含铜有机质沉积体、成岩矿层、后生矿层和改造富矿体.层状矿体赋存于砂岩浅紫交互带是氧化性流体与还原性流体相汇于斯而发生氧化—还原反应沉积成岩的结果.其金属硫化物的生成顺序与分带是遵循S、O、Fe、Cu热液体系中矿物共生组合规律的,随介质条件、四元素浓度的差异而变化. 相似文献
994.
裂缝是川西北地区九龙山构造上三叠统须家河组二段致密砂岩天然气藏分布的重要控制因素。利用野外露头、岩心、成像测井和薄片等资料,并结合实验分析,对该区裂缝的成因类型、发育特征、形成期次及其形成机理进行了分析。研究区须二段致密砂岩储层发育有构造裂缝和成岩裂缝两种类型,其中以构造裂缝为主,主要有北东东-南西西向、北北东-南南西向和北西-南东向3组。按照裂缝的倾角,构造裂缝又可分为高角度构造裂缝和低角度构造裂缝。其中,高角度构造剪切裂缝主要是在印支晚期、燕山晚期和喜马拉雅期3期构造作用下形成,形成构造裂缝的力源来自于龙门山以及米仓山-大巴山的水平构造挤压作用、深埋藏造成的异常高压流体压力以及抬升剥蚀造成的应力作用。低角度构造裂缝主要与构造挤压作用下断层的逆冲作用或层间滑动造成的近水平剪切作用有关。 相似文献
995.
N. Mortimer R. E. Turnbull J. M. Palin A. J. Tulloch N. Rollet T. Hashimoto 《Australian Journal of Earth Sciences》2013,60(6):735-742
We present U–Pb zircon ages from a phosphate-cemented pebbly sandstone dredged from the central Lord Howe Rise and a 97 Ma rhyolite drilled on the southern Lord Howe Rise. Four granitoid pebbles from the sandstone give U–Pb ages in the range 216–183 Ma. Most detrital zircons in the bulk sandstone are also Late Triassic–Early Jurassic, but subordinate populations of Late Cretaceous and Precambrian zircons are present. The pebbly sandstone's highly restricted Late Triassic–Early Jurassic zircon population indicates the nearby occurrence of underlying basement plutons that are the same age as parts of the I-type Darran Suite, Median Batholith of New Zealand and supports a continuation of the Early Mesozoic magmatic arc northwest from New Zealand. Zircon cores from the southern Lord Howe Rise rhyolite do not yield ages older than 97 Ma and thus provide no information about older basement. 相似文献
996.
当前地质找矿工作的某些新动向与岩矿测试的新贡献 总被引:4,自引:3,他引:1
近年来地质找矿取得了一系列的新进展,也出现了以人为本的新趋势,现代的矿产地质工作面临着不分地区、不分矿种、不分专业的新动向,开拓国内和国外两个市场,利用国内和国外两种资源的新格局,要求地质找矿工作与岩矿测试工作密切结合.地质人员要充分了解现代测试技术的特点,充分发挥实验室和仪器设备的作用;实验室也需要主动为地质找矿工作提供支撑,针对“现、散、快、廉、难、全”的新特点研发相应的分析测试技术与设备,而不是被动地“来样品、出数据”;主管部门也需要在制定政策、规划立项时就安排好地质与测试工作的结合. 相似文献
997.
998.
为定量评价特低渗透砂岩的微观孔喉非均质性,以鄂尔多斯盆地西峰油田长8储层为例,利用先进的恒速压汞技术对孔喉参数进行了测试.结果表明,不同渗透率级别的样品,孔隙参数的差异小,非均质性弱,孔隙半径介于80~300 μm范围内;微观孔喉的非均质性主要体现在喉道特征参数上,喉道参数制约储层品质影响开发效果;样品渗透率越大,喉道半径越大,分布范围越宽,大喉道含量越高,同时大喉道对渗透率的贡献也随之增加,渗透性主要由占少部分的较大喉道来贡献;平均喉道半径和主流喉道半径与渗透率表现出了非常好的相关关系,渗透率越小,受喉道参数的影响程度越强.较大的孔喉比和较宽的分布区间是特低渗透砂岩储层的显著特点,也是开发效果差的主要原因,不同渗透率级别的储层,开发过程中应根据喉道大小及其分布范围区别对待. 相似文献
999.
A large number of uniform cone‐shaped dissolution pipes has been observed and studied in Quaternary coastal calcareous arenites in Apulia and Sardinia (Italy) and Tunisia. These cylindrical tubes have a mean diameter of 52·8 cm and are up to 970 cm deep (mean depth for sediment‐free pipes is 1·38 m). They generally have smooth walls along their length, are perfectly vertical and taper out towards their bottoms. Their development is not influenced by bedding nor fractures. Sometimes their walls are coated by a calcrete crust. Their morphology has been studied in detail and their relationships with the surrounding rocks and with the environment have been analysed. The perfectly vertical development is a clear evidence of their genesis controlled by gravity. The depth of the dissolution pipes can be described by an exponential distribution law (the Milanovic distribution), strongly suggesting they developed by a diffusion mechanism from the surface vertically downward. We believe dissolution pipes preferentially form in a covered karst setting. Local patches of soil and vegetation cause infiltration water to be enriched in carbon dioxide enhancing dissolution of carbonate cement and local small‐scale subsidence. This process causes the formation of a depression cone that guides infiltrating waters towards these spots giving rise to the downward growth of gravity‐controlled dissolution pipes. A change of climate from wetter phases to drier and hotter ones causes the formation of a calcrete lining, fossilizing the pipes. When the pipes become exposed to surface agents by erosion of the sediment cover or are laterally breached the loose quartz sand filling them may be transported elsewhere. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
1000.
Helen C. Kerbey 《Proceedings of the Geologists' Association. Geologists' Association》2011,122(1):16-24
Flexible quartzitic rocks are found in various locations around the world and have been identified as both sandstones and quartzites. The term itacolumite was first used for a Brazilian quartzite thought to be a new type of rock in 1822. As analytical methods have improved flexibility has been shown to be due to irregular interlocking quartz grains surrounded by regular intergranular spaces. Platy minerals such as muscovite are sometimes present and probably add support to the structure, but are not necessary for flexibility. The underlying cause of the texture appears to be chemical dissolution of quartz at the grain boundary. 相似文献