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在基于钻孔数据进行三维地层建模方法中,钻孔样本间地层层序不一致导致建模时难以确定各地层的拓扑关系,快速准确地确定各地层层序和充分利用钻孔数据是建模的关键难点之一。拟通过综合考虑区域内所有钻孔数据,基于地质解释方法理论,以地层出现次数频率高原则进行全自动确定地层层序。首次引入子钻孔递归思想,利用表面建模方法,自下而上逐层创建三维地层模型,可确保钻孔数据不丢失且准确地应用于地层建模中,并能适应地层尖灭、地层超覆、透镜体等复杂地质构造。该方法地学意义明确,具有鲁棒性好、运行效率高及可操作性强等特点,算法已在同济曙光软件中实现,并已在多个实际地质建模工程中得到了验证。研究结果表明,该算法能充分利用已有钻孔信息,建模过程全自动完成,对复杂地层建模亦具有较强的适应性。 相似文献
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基于地质雷达和钻孔数据的三维地层建模 总被引:3,自引:1,他引:2
为了结合地质雷达探测图像和钻孔数据共同用于地层的三维建模,根据反射波组的同相性和反射波形的相似性,通过与钻孔采样数据的对比,从处理后的地质雷达数据中提取出虚拟钻孔数据用于建模;基于该类数据的一般分布特点,根据曲面光顺的条件构建了网格的插值算法。采用该方法对某区域进行了三维地层建模。 相似文献
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钻孔样本间因存在地层层序不一致而导致无法确定建模时各地层拓扑关系,是采用钻孔数据建立三维地质模型的难点。拟通过下述方法解决这一难点:在已知的主地层层序表情况下,由主地层层序表结合钻孔信息推测出其他地层层序表,建立地层层序表集,再通过运用空间分析的手段来确定钻孔样本与各张地层层序表的归属关系,采用最大数目地层连接法来自动确定两个地层层序表间相互连接关系,并得到合并表;然后结合这种连接法,将全部地层层序表合并为一张最终地层层序表,从而确定所有地层拓扑关系;所有钻孔数据按照最终表进行标准化,之后运用表面建模方法进行三维地层建模。在诸永高速公路K120+030~K120+300段滑坡区域的三维地层建模中,运用该方法验证了其有效性。 相似文献
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在三维地质模型构建过程中,由于复杂地质构造运动形成的地层倒转、褶皱、节理等现象,传统的地层连接方法对相邻钻孔的地层对应考虑不足,从而导致三维模型地层连接不合理.针对该问题,提出一种含复杂倒转的地层层序统一修正与连接方法,引入逻辑钻孔递归统一地层层序思想,通过地层底板高程插值依据倒转地层的判别规则计算零厚度层的插入位置,统一钻孔的地层序列及修正标准地层层序,对钻孔中倒转、缺失、重复问题进行建模前的处理.通过讨论地层缺失、倒转、重复等复杂地层构造情况和实验验证,研究结果表明该方法能够充分解决零厚度层插入位置的二义性和倒转地层判定的二义性问题.该算法能够有效解决复杂地层倒转现象,为三维地质建模中地层连接提供依据. 相似文献
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三维地质建模是地质数据可视化和空间分析的关键技术之一。针对传统建模方法建模速度慢、建模效率和精度较低的问题,提出了一种直接基于钻孔的点→线→面→体快速递进三维地质建模方法。该方法先对钻孔地层信息进行人机交互对比构成地质剖面,再按钻孔实际坐标在三维空间中还原地质剖面的实际位置,接着通过对剖面间的地层连线进行Kriging插值,形成一系列地层面模型,然后以此为基础构建三维地质框架模型,最后利用BSP矢量剪切技术来裁剪模型边界,形成研究区三维地质模型。该方法在福州市上街镇三维城市地质模型构建的实际应用中得到了验证。实践结果表明,该方法不仅可以实现三维地质模型的快速构建,还可以显著提高三维地质模型的精度。 相似文献
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基于钻孔数据的地层三维建模与可视化研究 总被引:24,自引:0,他引:24
地质体三维建模是地学信息系统核心课题之一,对现有建模方法进行分析,结合地层特点,提出首先引入虚拟钻孔,利用Kriging插值方法建立地层三维模型;其次把虚拟钻孔参数的调试结果及专家知识等资料在建模流程中予以充分体现,从而建立相对精确的三维地层模型;最后基于本文建模方法开发了一个三维地层模型,并用实际资料进行了验证,能有效满足工程需求。 相似文献
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利用三维地震勘探资料在GMS平台下实现地层实体建模的方法研究 总被引:5,自引:0,他引:5
三维地震勘探成果数据体包含丰富的地质信息,任意物性反射层均可作为钻孔地层划分的依据。物性反射层等深线数据文件与GMS中钻孔数据文件通过点的空间坐标相互关联,可高效地构建GMS中地层实体建模所需的虚拟钻孔。实践表明,该方法具有很高的地层建模精度,能成倍提高工作效率,同时也为三维地震勘探成果中其它物性特征的获取利用提供了一个可借鉴方式。 相似文献
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复杂地层建模与三维可视化 总被引:1,自引:0,他引:1
提出了一种新的复杂地层建模方法。该方法先将离散的钻孔数据点分类,而后将不同类的离散数据点用径向基函数进行拟合;所生成的拟合曲面相交、裁剪得到地层的空间范围;由离散的数据点以及拟合插值点生成地层交界面格网,再经过计算机图形处理生成地层模型的三维图形。利用该方法对复杂地层建模,自动化程度较高、效果较好。 相似文献
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PIRET PLINK-BJÖRKLUND 《Sedimentology》2005,52(2):391-428
Eighteen coastal-plain depositional sequences that can be correlated to shallow- to deep-water clinoforms in the Eocene Central Basin of Spitsbergen were studied in 1 × 15 km scale mountainside exposures. The overall mud-prone (>300 m thick) coastal-plain succession is divided by prominent fluvial erosion surfaces into vertically stacked depositional sequences, 7–44 m thick. The erosion surfaces are overlain by fluvial conglomerates and coarse-grained sandstones. The fluvial deposits show tidal influence at their seaward ends. The fluvial deposits pass upwards into macrotidal tide-dominated estuarine deposits, with coarse-grained river-dominated facies followed further seawards by high- and low-sinuosity tidal channels, upper-flow-regime tidal flats, and tidal sand bar facies associations. Laterally, marginal sandy to muddy tidal flat and marsh deposits occur. The fluvial/estuarine sequences are interpreted as having accumulated as a series of incised valley fills because: (i) the basal fluvial erosion surfaces, with at least 16 m of local erosional relief, are regional incisions; (ii) the basal fluvial deposits exhibit a significant basinward facies shift; (iii) the regional erosion surfaces can be correlated with rooted horizons in the interfluve areas; and (iv) the estuarine deposits onlap the valley walls in a landward direction. The coastal-plain deposits represent the topset to clinoforms that formed during progradational infilling of the Eocene Central Basin. Despite large-scale progradation, the sequences are volumetrically dominated by lowstand fluvial deposits and especially by transgressive estuarine deposits. The transgressive deposits are overlain by highstand units in only about 30% of the sequences. The depositional system remained an estuary even during highstand conditions, as evidenced by the continued bedload convergence in the inner-estuarine tidal channels. 相似文献
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Interaction between aeolian, fluvial and playa environments in the Permian Upper Rotliegend Group, UK southern North Sea 总被引:7,自引:0,他引:7
Sweet 《Sedimentology》1999,46(1):171-187
The Permian Upper Rotliegend Group in offshore UK Quadrants 42, 43, 47 and 48 comprises a sequence of mixed aeolian/fluvial/playa deposits. These deposits are up to 300 m thick and contain a record of the interaction between desert fluvial systems and adjacent aeolian and playa environments. The relative dominance of water vs. wind transport and deposition in this stratigraphic package was a function of fluctuations in the discharge of ephemeral fluvial systems and changes in water table/playa level driven by a combination of climatic change and syndepositional tectonics. The Rotliegend sedimentary record is punctuated by numerous surfaces recording erosion by wind and water. The origin of these surfaces is mostly climatic, with periods of increased runoff resulting in fluvial incision, especially near active faults. During periods of reduced runoff, wind erosion of fluvial deposits occurred, with fluvially derived sand being reworked into expanding aeolian dune fields. Wind erosion also occurred as a rising water table isolated dunes from their sediment supply, resulting in deflation of dunes down to the water table. These surfaces formed in a basin that was subsiding. Thus, even in a background of overall increasing accommodation space, climatically driven falls in the water table allowed for periods of erosion. The occurrence of significant erosion, especially near syndepositional fault zones, resulted in a sedimentary record that shows pronounced lateral as well as vertical facies variations. 相似文献
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The Ganga Plain is one of the most densely populated regions of the world due to its fertile soil and availability of water. The rivers of this plain are the lifeline for millions of people of this vast alluvial plain. All rivers of this plain are characterized by narrow channel confined within wide valley. Continuously increasing pressure of population on this plain has led to the intensification of settlement even into the valley of the river. This unplanned expansion has enhanced the damage due to flooding during high-discharge period and lateral erosion during low-discharge period. Flooding and lateral erosion are identified as fluvial hazards in the Ghaghara River area. Extensive studies have been carried out on flooding, but not much attention has been paid to the phenomenon of lateral erosion. However, it has been observed that lateral erosion is an independent fluvial hazard that operates during low-discharge period. Low degree of compaction due to the presence of sandy and silty facies in the river valley deposits, mass movement, palaeocurrent pattern, and fractures initiates and enhances the lateral erosion. The present paper deals with the fluvial hazards in the Ghaghara River area. 相似文献
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河流相是我国陆相盆地重要的油气储集层系类型之一,开发阶段应用高分辨率层序地层学进行河流相高精度小层划分,对于指导河道砂体的精细划分对比有重要意义。由于受到河流相地层自旋回沉积、沉积间歇面的作用、河型和砂体叠置样式的变化以及基准面旋回的级次的划分等复杂因素的影响,在开发阶段进行高精度层序对比时,难度更大。运用高分辨率层序地层学原理和方法,综合分析河流相模式的特点,充分利用河流相岩相、相序的组合特征随空容纳空间规律性变化,结合各种关键面的约束控制、油水界面在小层内部空间的分布位置以及河道的切割充填作用,进行精细河流相小层划分对比。旨在摸索一套油田开发中后期河流相高精度层序划分的思路和方法,以指导油田的生产开发。并以渤海Q油田明化镇组为例,在实际应用中取得了较好的效果。 相似文献
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选择青海共和盆地多石在沟河道中6道新月形沙丘链作为研究对象,采用Trimble4700DGPS与常规测量手段,结合野外风沙观测与自动气象站数据,初步观测分析了2006年多石在沟河道沙丘在不同季节的形态变化过程,计算出2006年风季前比雨季后多石在沟河道沙丘体积减小了548.3m3,风积量为2351m3,流水的蚀平量为2899m3,2006年风水两相营力对河道沙丘的侵蚀贡献率约为45%∶55%,流水的搬运作用强于风力的堆积作用。但从较长的时间尺度来看,研究区的风力侵蚀作用强于流水侵蚀作用,河道沙丘不断增大。多石在沟河道沙丘是一个典型的风水交互作用系统,河道成为风力与流水交互作用的"中转站",在风水的交替作用下,沉积物由风积环境进入流水环境中。 相似文献
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辽西中、新生代地质作用对区域土地资源状况的影响 总被引:1,自引:1,他引:0
中、新生代地质作用对辽西地区土地资源状况有着重要影响.其一,地质作用决定了土地资源自然状况:构造岩浆活动、区域造山动力等地质作用决定了区域地貌特征及土地资源的空间分布格局;风化作用、河流地质作用形成了不同类型的成土母质,决定了土层结构类型、土壤理化性质等土地资源的物质特征.其二,地质作用在很大程度上影响着土地资源的演化趋势:风、流水、重力等地质作用一直以不同的方式和程度改变着土地资源状况——在人类活动的参与下这种改变正愈演愈烈,如荒漠化、山体滑坡、泥石流、水土流失等.正确认识并科学分析这类地区地质作用与土地资源状况的关系,对于合理利用并有效保护土地资源具有重要意义. 相似文献
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Sedimentation in a river dominated estuary 总被引:2,自引:0,他引:2
J. ANDREW G. COOPER 《Sedimentology》1993,40(5):979-1017
The Mgeni Estuary on the wave dominated east coast of South Africa occupies a narrow, bedrock confined, alluvial valley and is partially blocked at the coast by an elongate sandy barrier. Fluvial sediment extends to the barrier and marine deposition is restricted to a small flood tidal delta. Sequential aerial photography, sediment sampling and topographical surveys reveal a cyclical pattern of sedimentation that is mediated by severe fluvial floods which exceed normal energy thresholds. During severe floods (up to 10x 103 m3 s?1), lateral channel confinement promotes vertical erosion ofbed material. Eroded material is deposited as an ephemeral delta in the sea. After floods the river gradient is restored within a few months through rapid fluvial deposition and formation of a shallow, braided channel. Over an extended period (approximately 70 years) the estuary banks and bars are stabilised by vegetation and mud deposition. Subsequent downcutting in marginal areas transforms the channel to an anastomosing pattern which represents a stable morphology which adjusts to the normal range of hydrodynamic conditions. This cyclical pattern of deposition produces multiple fill sequences in such estuaries under conditions of stable sea level. The barrier and adjacent coastline prograde temporarily after major floods as the eroded barrier is reformed by wave action, but excess sediment is ultimately eroded as waves adjust the barrier to an equilibrium plan form morphology. Deltaic progradation is prevented by a steep nearshore slope, and rapid sediment dispersal by wave action and shelf currents. During transgression, estuarine sedimentation patterns are controlled by the balance between sedimentation rates and receiving basin volume. If fluvial sedimentation keeps pace with the volume increase of a basin an estuary may remain shallow and river dominated throughout its evolution and excess fluvial sediments pass through the estuary into the sea. Only if the rate of volume increase of the drowned river valley exceeds the volume of sediment supply are deep water environments formed. Under such conditions an estuary becomes a sediment sink and infills by deltaic progradation and lateral accretion as predicted by evolutionary models for microtidal estuaries. Bedrock valley geometry may exert an important control on this rate of volume increase independently of variations in the rate of relative sea level change. If estuarine morphology is viewed as a function of the balance of wave, tidal and fluvial processes, the Mgeni Estuary may be defined as a river dominated estuary in which deltaic progradation at the coast is limited by high wave energy. It is broadly representative of other river dominated estuaries along the Natal coast and a conceptual regional depositional model is proposed. Refinement of a globally applicable model will require further comparative studies of river dominated estuaries in this and other settings, but it is proposed that river dominated estuaries represent a distinct type of estuarine morphology. 相似文献
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Numerous auriferous fluvial quartz pebble conglomerates (QPCs) are present within the Late Cretaceous–Recent sedimentary sequence in southern New Zealand. The QPCs formed in low-relief settings before, during, and after regional marine transgression, in alluvial fan and a variety of fluvial and near-shore depositional settings: In particular, during slow thermal subsidence associated with Late Cretaceous–early Cenozoic rifting, and during the early stages of orogenic uplift following mid Cenozoic marine regression. QPC maturity characteristics are complex and vary with sediment transport and recycling history, stratigraphic proximity to the transgressive Waipounamu Erosion Surface, and the amount of first-cycle detritus incorporated during recycling. For pre-marine QPCs, the amount of first cycle detritus varies with tectonic intensity and proximity of the depositional setting to remnant Cretaceous topography. For post-marine QPCs, it varies with tectonic intensity and proximity to Late Cenozoic uplift of basement ranges.QPCs do not form during a single bedrock erosion–sediment deposition cycle: Non-oxidised and/or oxidized groundwater alteration (kaolinisation) of labile minerals in immature sediment and the upper part of underlying basement, and repeated sedimentary recycling, are fundamental processes of QPC formation regardless of the tectonic or sedimentary settings. Altered immature rock disaggregates easily upon erosion, and alteration clays are winnowed to leave quartz-rich residues containing resistant heavy minerals such as zircon and gold. Detrital sulfide survives recycling if deposition and burial in saturated sediments are rapid. QPCs result only if sediment recycling is not accompanied by excessive erosion of fresh basement rock. Uplift of many parts of the Otago Schist belt since late Miocene has raised rocks above the water table, increased erosion rates, and inhibited groundwater alteration and QPC formation. QPC formation is still occurring in Southland, where the water table is high, sediments are saturated and undergoing alteration, and uplift and erosion rates, topography, and fluvial gradients are all low. The QPCs accumulate as residual gravel on the valley floors of low-competence streams that are slowly incising pervasively altered dominantly late Miocene–Pliocene immature conglomerates.QPCs formation essentially represents physical and chemical lagging of precursor strata. Accumulation of detrital gold and other heavy minerals is an inevitable consequence, and most QPCs contain some gold. Three types of significant gold placer have developed in the QPCs. Type 1 placers are essentially eluvial and/or colluvial in origin and form without significant fluvial transport, by residual accumulation in low-competence valleys during low-rate uplift, fluvial incision and QPC formation. Type 2 placers have formed during significant fluvial transport and subsequent fluvial incision, mainly in higher energy proximal and medial reaches of larger pre-marine (Eocene) and post-marine fluvial systems. Type 3 placers formed by wave-base and marine current winnowing in the shallow shelf setting during low-rate regional marine transgression, especially in the Eocene. 相似文献
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An understanding of fluvial-aeolian deposition derived from modern case-examples in a previous study is applied to the Permian Cutler Formation and Cedar Mesa Sandstone on the Colorado Plateau. These formations supply an excellent three-dimensional exposure of intertonguing fluvial and aeolian strata. Four distinct facies associations form the bulk of the Cutler Formation and Cedar Mesa Sandstone: (1) aeolian dune deposits; (2) wet interdune deposits; (3) fluvial channel deposits; and (4) overbank-interdune deposits. In addition, two distinctive types of erosion surfaces are found within the Cutler Formation and Cedar Mesa Sandstone: pebble- to granule-rich erosion surfaces (aeolian deflation surfaces) and flood surfaces. Fluvial and aeolian intertonguing result in extensive tabular sheets of aeolian sandstone separated by flood surfaces and overbank-interdune deposits. Fluvial channels are associated with the deposits overlying flood surfaces and are incised into the underlying aeolian sandstones. Overbank-interdune deposits and wet interdune deposits cover flood surfaces and intertongue with overlying aeolian sandstones. The primary characteristics of ancient fluvial-aeolian deposition are overbank-interdune deposits and pronounced extensive erosion surfaces (flood surfaces), which are parallel to underlying fluvial sandstones and thus trend parallel to the palaeoslope and palaeohydrological gradient. 相似文献
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OSL‐based chronostratigraphy of river terraces in mountainous areas,Dunajec basin,West Carpathians: a revision of the climatostratigraphical approach 
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下载免费PDF全文 Janusz Olszak Grzegorz Adamiec 《Boreas: An International Journal of Quaternary Research》2016,45(3):483-493
The technique of optically stimulated luminescence (OSL) dating applied to fluvial sediments provided a geochronological framework of river terrace formation in the middle part of the Dunajec River basin – a reference area for studies of evolution of river valleys in the northern part of the Carpathians (West Carpathians). Fluvial sediments at 18–90 m above valley bottoms were dated in the valleys of the Dunajec River and one of its tributaries. The resulting ages range from 158.9±8.3 to 12.2±1.3 ka. This indicates that some of the terrace sediments were deposited much later than previously assumed on the grounds of a combined morphostratigraphical and climatostratigraphical approach. The OSL‐based chronostratigraphy of terrace formation consists of seven separate phases of fluvial aggradation, separated by periods of incision and lateral erosion. Some of the ages determined correspond to warm stages of the Pleistocene – Marine Isotope Stage 3 (MIS 3) and MIS 5 – demonstrating that some terraces were formed during interstadial or interglacial periods. The results provide a key for evaluating rates of neotectonic uplift, allowing us to decipher the response of a fluvial system to climate change within the context of the glacial–interglacial scheme. 相似文献