Centrifuge modeling of buried continuous pipelines subjected to normal faulting

Seismic ground faulting is the greatest hazard for continuous buried pipelines.Over the years,researchers have attempted to understand pipeline behavior mostly via numerical modeling such as the finite element method.The lack of well-documented field case histories of pipeline failure from seismic ground faulting and the cost and complicated facilities needed for full-scale experimental simulation mean that a centrifuge-based method to determine the behavior of pipelines subjected to faulting is best to verify numerical approaches.This paper presents results from three centrifuge tests designed to investigate continuous buried steel pipeline behavior subjected to normal faulting.The experimental setup and procedure are described and the recorded axial and bending strains induced in a pipeline are presented and compared to those obtained via analytical methods.The influence of factors such as faulting offset,burial depth and pipe diameter on the axial and bending strains of pipes and on ground soil failure and pipeline deformation patterns are also investigated.Finally,the tensile rupture of a pipeline due to normal faulting is investigated.     

运用放射性水化学方法寻找隐伏铀矿体

着重介绍了放射性水化学方法寻找隐伏铀矿的过程：即,从找到放射性水化学异常点到放射性水化学异常晕,到初步评价和工程揭露。以放射性水化学找矿2个成果为例,说明放射性水化学方法是寻找隐伏铀矿的有效方法之一。     

隐伏构造蚀变岩型钼矿区勘探线布设方法及矿体圈定中有关问题的讨论

建议隐伏矿矿区采用行、排剖面网法布置勘探线和钻孔,利于多方位编制研究性勘探线剖面图,研究和确定深部矿体产状。对隐伏构造蚀变岩型、石英脉—蚀变岩型钼矿333类型资源/储量的圈定与外推分七种情况作了叙述,对米.百分值工程矿体的圈定和外推分五种情况作了叙述。低品位矿应圈定矿体与估算资源/储量。     

季节性冻结-冻融期地中蒸渗计资料处理探讨

本文针对地中蒸渗计在冻结-冻融期存在的问题,利用实验站冻土及土壤水分势能资料,探索了冻土层的发育及其水分运移规律,通过对亚砂土不同埋深及不同年度的地中蒸渗计资料处理,得出冻结期和冻融期地中蒸渗计资料的处理方法及其埋深临界值。这对准确利用冻结-冻融期地中蒸渗计资料具有重要的指导意义。     

降扎铀矿床的成矿规律

通过对降扎铀矿床地质条件的分析,总结了矿床围岩蚀变、控矿构造形式、矿石矿物特征、铀矿体主要特征、矿物组合、成矿流体、盲矿体地表放射性物化探异常等矿床特征和成矿规律,指出向阳沟矿段等已知矿段深部、向阳沟以西地段、热乎东地段为以后的找矿靶区.     

黔西北青杠林铅锌矿区隐伏矿体预测

通过对青杠林铅锌矿床地质、地球物理及地球化学信息进行分析,归纳提取了地质和物化探找矿标志,建立了该矿的地质一地球物理一地球化学找矿模型,并进行隐伏铅锌矿体预测,对青杠林矿区重点地区实施工程查证。     

华北油田留58潜山雾迷山组储层非均质性研究

留58潜山蓟县系雾迷山组油藏为块状裂缝性灰岩油藏,储层空间类型包括了原生孔隙,溶蚀孔隙,以及裂缝等类型.潜山储层物性的分布特点表现为纵向上的分层发育和横向上的分带发育.综合本区测井解释及岩心观察认为,影响潜山储层发育的因素包括储层岩性,纵向上不同储层段与内幕隔层的配置关系,以及平面上储层发育带是否处于潜山构造顶部或断层...     

冀中坳陷潜山油气输导体系及与油气藏类型的匹配关系

通过总结前人研究结果,利用测井、钻井地质和地化等资料,对冀中坳陷潜山油气藏类型和油气输导体系特征进行研究,并结合已发现的潜山油气藏,建立了不同油气输导体系与潜山油气藏类型的匹配关系。结果表明:根据不同的圈闭遮挡条件,可将冀中坳陷潜山油气藏分为潜山顶、潜山坡和潜山内幕油气藏等3种类型;潜山油气输导体系发育断裂、不整合、内幕溶蚀层和复合型输导体系等4种类型;受碳酸盐岩地层、断层活动性影响以及与油气生成时间的匹配,断裂型输导体系具有高效性和时效性的特征,有利于形成潜山顶和内幕油气藏;不整合型输导体系由不整合上部底砾岩和下部淋浴带组成,具有"双层"输导的特点,有利于形成潜山顶和潜山坡油气藏;内幕溶蚀层型输导体系由潜山内部的溶蚀孔-洞-缝系统组成,其发育程度受内部地层泥质含量控制,有利于形成潜山内幕油气藏;复合型输导体系由单一型输导体系复合形成,具有"多样式"的特点,可以形成潜山顶、潜山坡和潜山内幕油气藏。     

Multidimensional statistical technique for detection of low contrast geochemical anomalies

In this article we propose an advanced technique for detecting low contrast geochemical anomalies using a set of features. There are three principal elements in this technique: (1) a statistical measure of the contrast of the anomaly, denoted as τ; (2) selection of a background population; and (3) reduction of the dimensionality of the feature space. In the frame of the model, which describes the statistical distribution of geochemical background as a multidimensional normal distribution of logarithms of concentrations, the index, τ, is a powerful test statistic for the hypothesis of abnormality of an observation. Maps of τ anomalies can be rigorously interpreted on the basis of statistical inferences. Under all equal conditions this technique allows the detection of geochemical anomalies with at least the same contrast (if the chemical elements in a background population are correlated, then even the better) as using selective extractions of metals from soil or other techniques for data processing. The advantages of the proposed technique are demonstrated both theoretically and on examples of rare-metal and copper–nickel mineral deposits.     

Characteristics and genetic mechanism of deep-buried clastic eureservoir in China

Systematic researches to the clastic reservoirs in various types and various geological ages basins in China indicate that the present burial depth of deep buried clastic eureservoir ranges from 3000 to 6000 m,and its geological ages from Paleozoic,Mesozoic to Cenozoic. It mainly deposited in delta (including braid delta,fan delta,normal delta),river,also shore,shallow lake,gravity flow channel and turbidity fan facies. The quartzose sandstone is the main reservoir rock of deep-buried clastic eureservoir in the shore facies in Paleozoic,but the arenite and arkose sandstones are the main reservoir rock types in delta,river,shallow lake and gravity flow facies in Mesozoic and Cenozoic. The porosity of most of deep-buried clastic eureservoir is more than 10% and permeability more than 10×10?3 μm2. The forma-tion of the deep-buried eureservoir was related to the paleotectonics,paleotemperature,sedimentary environment,the deep dissolution caused by organic acid or carbonic acid,burial style,the abnormal high pore fluid pressure,early hydrocarbon charging,gyprock sealing,hot convective fluid flow and the mode of sand-mud interbedded,etc. The paleotectonics controls the burial style of sandstones,and the paleotemperature controls the diagenesis process. The sedimentary environment is the precondi-tion and foundation,the dissolution is the direct reason to generate the deep buried clastic eureservoir. The abnormal high pore fluid pressure,gyprock sealing,the mode of sand-mud interbedded,early hy-drocarbon charging and the structure fractures were the assistant factors of generating the deep buried clastic eureservoir.