层化流体中半板造波的内波解

为了形象地说明内波的传播模式,研究给出了内波水槽中由半板造波所形成的内波解。结合Ｖａｅｉｓａｅｌａｅ频率Ｎ（ｚ）＝ｃｏｎｓｔ和简化Ｈｏｌｍｂｏｅ两种密度剖面模式讨论了内波场的传播图案。在内波水槽中成功地形成了上述两种密度剖面,相应的实验印证了本文分析的正确性。     

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吉林松江河金矿床流体包裹体特征及矿床成因

松江河金矿位于夹皮沟—海沟成矿带的东南段,矿床受一韧性剪切带控制,矿体主要赋存于SN向断裂中。按矿石自然类型,可进一步划分为蚀变岩型与石英脉型。矿化类型主要为浸染状和细脉状。依据矿物共生组合、交代与穿插关系,可将松江河金矿成矿过程划分为3个阶段:黄铁矿--石英阶段、多金属硫化物--石英阶段及石英--碳酸盐阶段。研究结果表明,包裹体类型主要为气液两相包裹体及CO2三相包裹体。成矿流体均一温度范围为138℃~355℃,盐度范围为2.23%~11.60%NaCl,密度范围为0.59~0.99 g/cm3,成矿压力为64~92 MPa,成矿深度为6.45~7.88 km。主成矿阶段含CO2三相包裹体与气液两相包裹体共存,且两种类型包裹体的均一温度相近,盐度差别较大,CO2/H2O比值降低,表明成矿流体发生了以CO2逸失为特征的不混溶或沸腾,残余流体盐度升高。成矿流体的气相成分为CO2与CH4,显示出幔源的特征。综合研究表明,松江河金矿床成因类型属于中成造山型金矿。     

Primary Ore Mineral Assemblage and Fluid Inclusion Study of the Batu Hijau Porphyry Cu-Au Deposit, Sumbawa, Indonesia

Abstract. The Batu Hijau porphyry Cu‐Au deposit, Sumbawa Island, Indonesia, is associated with a tonalitic intrusive complex. The temperature‐pressure condition of mineralization at the Batu Hijau deposit is discussed on the basis of fluid inclusion microthermometry. Then, the initial Cu‐Fe sulfide mineral assemblage is discussed. Bornite and chalcopyrite are major copper ore minerals associated with quartz veinlets. The quartz veinlets have been classified into ‘A’ veinlets associated with bornite, digenite, chalcocite and chalcopyrite, ‘B’ veinlets having chalcopyrite bornite along vuggy center‐line, rare ‘C’ chalcopyrite‐quartz veinlets, and late ‘D’ veinlets consisting of massive pyrite and quartz (Clode et al., 1999). Copper and gold mineralization is associated with abundant ‘A’ quartz veinlets. Abundant fluid inclusions are found in veinlet quartz consisting mainly of gas‐rich inclusions and polyphase inclusions throughout the veinlet types. The hydrothermal activity occurred in temperature‐pressure conditions of aqueous fluid immiscibility into hypersaline brine and dilute vapor. The halite dissolution (Tm[halite]) and liquid‐vapor homogenization (Th) temperatures of the polyphase inclusions in veinlet quartz range from 270 to 472d?C and from 280 to 454d?C, respectively. The estimated salinity ranges from 36 to 47 wt% (NaCl equiv.). The apparent pressures lower than 300 bars are estimated to have been along the liquid‐vapor‐halite curve for the fluid inclusions having the Th lower than the Tm that trapped the brine saturated with halite, or at slightly higher pressure relative to liquid‐vapor‐halite curve for the fluid inclusions having the Th higher than the Tm that trapped the brine unsaturated with halite. The actual temperature and pressure during the hydrothermal activity at the Batu Hijau deposit are estimated to have been around 300d?C and 50 bars. At such temperature‐pressure conditions, the principal and initial Cu‐Fe sulfide mineral assemblages are thought to be chalcopyrite + bornite solid solution (bnss) for the chalcopyrite‐bearing assemblage, and chalcocite‐digenite solid solution and bnss for the chalcopyrite‐free assemblage.     

Nonplanar multi-modal vibrations of fluid-conveying risers under shear cross flows

Risers/pipes conveying fluid are a typical kind of slender structures commonly used in marine engineering. It is of great academic significance and application value for us to evaluate and understand the vibration characteristics and nonlinear responses of these risers under the combined action of internal and external fluid flows. In this paper, the nonplanar vibrations and multi-modal responses of pinned-pinned risers in shear cross flow are numerically studied. With this objective in mind, the van der Pol wake oscillators are used to simulate the dynamical behavior of the vortex shedding in the wake. Two nonlinear equations of motion of the riser are proposed to govern the lateral responses of the riser structure. The nonplanar nonlinear equations for the riser and wake are then discretized by employing Galerkin's method and solved by using a fourth-order Runge–Kutta integration algorithm. Theoretical results show that the coupled frequencies for cross-flow (CF) and in-line (IL) motions and the corresponding coupled damping ratio could be influenced by the external and/or internal fluid velocities. Based on extensive calculations, the dynamical behavior of the riser with various internal and external flow velocities are presented in the form of bifurcation diagrams, time traces, phase portraits, oscillation trajectories and response spectrum curves. It is shown that some interesting dynamical phenomena, such as ‘lock-in’ state, ‘figure-of-eight’ trajectory and quasi-periodic oscillation, could occur in such a fluid-structure interaction system. Our results also demonstrate that the shear parameter can significantly affect the dynamic responses of the riser. When the shear parameter of the cross flow is large, multi-modal quasi-periodic responses of the riser can be excited, showing some new features undetected in the system of fluid-conveying risers in uniform cross flow.     

有机流体成矿作用与古油藏成藏作用相互耦合——以右江盆地微细浸染型金矿为例

右江盆地微细浸染型金矿与古油藏均产于二叠纪生物礁的核部或侧翼.流体包裹体拉曼光谱分析和矿石抽提物色质谱分析均发现了大量的有机质官能团, 暗示金矿成矿过程与古油藏的形成、演化密切相关.金矿与古油藏的物质均来源于盆地裂陷期和凹陷早期的沉积地层, 流体来源于沉积地层中封存的建造水, 形成年龄 > 172 Ma.在随后约40 Ma(172~130 Ma)的时间里, 流体向盆地中生物礁及其他构造部位运移聚集.由于盆地中烃源岩逐渐成熟, 这一过程是油气运移成藏的过程, 也是有机流体萃取成矿物质, 最终演变为有机成矿流体并聚集的过程.燕山运动是金矿成矿作用的主要构造营力(130~46 Ma), 同时也是古油藏破坏的主要原因.正是古油藏的破坏打破了流体的动态平衡, 导致流体中成矿物质沉淀形成矿床.右江盆地的金矿和古油气藏是同一种流体体系在其发展演化过程中不同阶段的产物.      

贺兰山北段牛头沟金矿床成矿流体和成矿物质来源:来自H-O-S-Pb同位素的证据

贺兰山北段牛头沟金矿床为华北克拉通西北缘新发现的金矿床,包括构造破碎带蚀变岩型和石英脉型两种矿化类型,后者可进一步细分为低缓石英脉型和陡窄石英脉型2个亚类。矿区所有矿体均赋存在古元古界贺兰山群变质杂岩和混合花岗岩内,受主干断裂F_1及其上盘次级断裂体系控制。综合本文及前人研究成果表明,破碎带蚀变岩型石英流体包裹体以纯液相水溶液包裹体为主,而低缓石英脉型和陡窄石英脉型石英流体包裹体则以气液两相水溶液包裹体为主,不同矿化类型成矿流体均为中低温(160~210℃)、中低盐度(6%~12%NaCl_(eq))的H_2O-NaCl流体。对矿区内3种矿化类型石英流体包裹体和硫化物分别开展的H-O和S-Pb同位素研究显示:破碎带蚀变岩型和陡窄石英脉型流体包裹体δD_(H2O)组成相近,分别为-75.2‰~-89.3‰和-87.0‰~-93.8‰,而低缓石英脉型流体包裹体则具有较高的δD_(H2O)值(-45.7‰~-67.7‰);流体包裹体δ~(18)O_(H2O)值则由破碎带蚀变岩型(3.7‰~4.4‰)→低缓石英脉型(1.9‰~3.3‰)→陡窄石英脉型(0.5‰~0.9‰)依次降低。破碎带蚀变岩型和陡窄石英脉型δ~(34)S组成均为正值,分别为1.3‰~6.9‰和2.2‰~5.8‰,而低缓石英脉型则具有较低的δ~(34)S值(-5.1‰~-2.6‰)。低缓石英脉型金矿具有明显不同的δD_(H2O)和δ~(34)S组成,可能与含矿断裂性质及其距离导矿构造F_1断裂较远等因素所共同导致的成矿流体氧逸度升高有关。3种矿化类型对应的矿石均表现出明显富集Th放射成因Pb的特点,~(206)Pb/~(204)Pb(16.467~17.994)和~(207)Pb/~(204)Pb(15.382~15.582)组成相对均一,而~(208)Pb/~(204)Pb变化较大(37.413~42.345)。总体上,石英流体包裹体H-O同位素组成表明成矿流体均为岩浆水和大气降水形成的混合流体,其大气降水比例自破碎带蚀变岩型→低缓石英脉型→陡窄石英脉型依次升高;矿石S-Pb同位素指示成矿物质为深部岩浆和具有高Th/U比的基底围岩双重来源。结合区域构造–岩浆演化,笔者将牛头沟金矿床成矿过程概括为晚古生代裂陷盆地形成阶段、中晚侏罗世区域挤压推覆阶段和晚侏罗世至早白垩世岩浆热液活动阶段等3个阶段。     

乳山金矿煌斑岩及流体和氢、氧、锶同位素研究

乳山金矿床是胶东近年来探明的一个赋存在花岗岩中的石英脉型金矿床。矿出露的煌斑岩金含量较低，不可能是金矿化的重要物源者。     

小波变换在识别储层流体性质中的应用

根据小波变换的特点提出一种识别储层流体的新方法. 本文假设测井所得的信号为地层微观孔隙结构、地层流体性质及岩性和岩相等各部分的综合贡献之和，不同的储层中小波分析的能量谱特征不同，因而通过对已知储层模型进行小波能量谱分析，可得到各种储层的特征能量谱，根据这些储层特征能量谱就可以对待划分的储层段进行储层流体性质判别.     

西藏扎西康多金属矿床成矿过程中的流体性质演化初探

扎西康铅锌银锑多金属矿床是北喜马拉雅成矿带中重要的铅锌锑多金属矿床,对其成矿过程的研究对其深部资源预测具有重要的指导意义。本文通过野外地质调查结合成矿流体包裹体研究,获得该矿床成矿前硅化、成矿早期铁锰碳酸盐化、中早期毒砂黄铁矿化、中期含铅锌硅化、晚期含锑硅化和成矿后硅化方解石化的流体温度分别为297、280、264、251、215~247和183~237℃,盐度分别为17.80%、8.39%、6.50%、5.98%、2.75%-5.29%和4.28%Na Cleq(wt)。研究表明,成矿流体为顺断裂运移的具有显著岩浆贡献的中高温、中等盐度、较高硫逸度含CO2、CH4和N2的热液与中温低盐度下渗大气降水在断裂中混合的产物。两者的混合改变了流体温度、盐度和硫逸度等进而沉淀金属矿物形成矿体。锑矿化温度低于铅锌矿化温度,下部~247℃锑矿化的发现暗示深部有进一步找矿的空间。