爆裂法作为快速测定流体包裹体中二氧化碳（和其它气体）含量的手段及其在勘探中的使用：以中国山东和河北省金矿为例   总被引：1，自引：0，他引：1  

Kingsley Burlinson 《岩石学报》2007,23(1):65-71

The acoustic decrepitation method heats a small monomineralic sample and counts pressure impulses as the inclusions burst when they develop high internal pressures.For aqueous fluids,the decrepitation temperature is correlated with the homogenisation temperature,but gas rich fluids give a distinct and characteristic low temperature decrepitation peak which can be used to recognize gas rich fluid inclusions.This information is useful in exploration for Au deposits,which are frequently associated with CO_2 rich and sometimes CH_4 rich fluids. This distinctive decrepitation occurs because the CO_2 rich inclusion fluids expand according to the gas law and develop internal pressures high enough to burst the host mineral grain at temperatures well below their homogenisation temperatures.In contrast,aqueous fluids condense to a liquid and vapour phase during post-entrapment cooling.Upon subsequent heating their internal pressures do not increase significantly until after homogenisation to a single phase occurs and hence they do not decrepitate"prematurely"as gas rich inclusions do. This behaviour is usually regarded as an annoyance in conventional microthermometric homogenisation studies,but can readily be used as an exploration aid to find mineralisation deposited from such gas rich fluids.Decrepitation results on samples from Cowra Ck, NSW,Australia,which have also been microthermometrically measured for CO_2 content,show that amounts of less than 5 mole % CO_2 are easily distinguished by decrepitation and amounts as low as 1 mole % CO_2 may be determinable. Examples of the use of acoustic decrepitation in the study of 6 gold mines in the Shandong and Hebei provinces of China are discussed.  相似文献   

内陆盐湖石盐流体包裹体均—温度指示意义的现代过程研究   总被引：5，自引：1，他引：5  

刘兴起 倪培董海良  王天刚 《岩石学报》2007,23(1):113-116

Halite precipitation with water and air temperature was observed in detail, and homogenization temperature of fluid inclusions in halite formed in ancient and modem Chaka Salt Lake was studied. Halite precipitates mainly in August every year and largely precipitates between 13 and 15pm at one day when water temperatures reach 20℃ but can seldom reach 30℃. Homogenization temperatures of fluid inclusions in halite formed in Chaka Salt Lake range from 14℃ to 38℃ with an average of 23.7℃. The number of inclusions appears an obvious peak value at homogenization temperatures between 18 - 25℃, which probably represent the water temperature in which halite mainly precipitates when water temperatures reach 20℃. Therefore, homogenization temperatures of fluid inclusions in halite formed in Chaka Salt Lake can wall reflect the water temperature.  相似文献   

新疆西天山阿希金矿床流体包裹体地球化学特征   总被引：3，自引：1，他引：3  

张作衡毛景文  王志良左国朝陈伟十  朱和平王龙生　 吕林素 《岩石学报》2007,23(10):2403-2414

本文在系统总结前人关于矿床地质特征和流体成矿作用研究成果的基础上,补充开展了热液成矿期石英-碳酸盐阶段石英、方解石和重晶石中流体包裹体的均一法和冷冻法测温,并对石英样品进行了气相色谱测量,对石英流体包裹体中的稀土和微量元素进行了测试。结果表明,矿床具有典型的浅成低温热液金矿的特点,成矿流体总体上盐度很低,多数都集中于0.53～1.57wt%NaCl。成矿流体的主要成分为H_2O、CO_2和CH_4。流体包裹体微量元素与容矿围岩具有继承性,流体中Cu、Ni、Co、Mo、Zn、Pb、V、Sb和Li等的含量较高,可能说明了Cu、Zn、Co、Ni、Bi和Ba等元素在水岩反应过程中更容易进入流体当中。石英流体包裹体中∑REE为13825×10~(-12)～149935×10~(-12),LREE/HREE为2.63～50.83,δEu为0.70～0.91,表现为Eu的弱亏损。成矿流体的REE配分型式与火山岩具有相同的Eu亏损和右倾配分曲线,表明成矿流体在演化过程中可能继承了早期火山岩的REE特征;但成矿流体的LREE/HREE值比火山岩大,前者的REE配分曲线比后者更加右陡倾斜,这可能与后期变质水和大气降水的混入引起的成矿流体物质组分发生有关。  相似文献   

四川甘洛赤普铅锌矿床流体包裹体特征及成矿机制初步探讨   总被引：6，自引：1，他引：6  

张长青毛景文  余金杰李厚民 《岩石学报》2007,23(10):2541-2552

赤普铅锌矿床位于扬子地台西南缘川滇黔成矿区内,是川滇黔地区重要的铅锌矿床之一.通过野外和显微镜下观察,将成矿期形成的石英划分为Ⅰ、Ⅱ、Ⅲ三个阶段.本次选取了21件样品进行研究,对保存于石英、闪锌矿及硅化白云石中的原生包裹体进行的详细研究,赤普铅锌矿床中包裹体类型相对较为单一,以气液包裹体为主.Ⅰ、Ⅱ、Ⅲ阶段石英中流体包裹体均一温度和盐度范围分别为:230℃～270℃和2.74～19.68wt%(NaCl),150℃～200℃和3.71～16.99wt%(NaCI)和180℃～220℃和0.70～16.15wt%(NaCl)三个区间.主成矿阶段的闪锌矿流体包裹体的均一温度和盐度范围为127℃～210℃和4.34%～22.17%(NaCl).该矿床成矿流体均一温度和盐度范围主要在130℃～200℃和8.5%～17.0%(NaCl)之间,属于低温、中等盐度铅锌矿床.成矿流体为H2O-NaCl-CaCl2体系;成矿过程中成矿流体始终处于相对还原环境.成矿物质来源于上地壳,成矿流体主要来自围岩地层;成矿机制可能为含金属和舍还原硫流体混合成矿.该矿床应归属于密西西比型铅锌矿床.  相似文献   

Computational fluid dynamics modeling of abutment scour under steady current using the level set method     

《国际泥沙研究》2020,35(4):355-364

The scour and deposition pattern around an abutment under constant discharge condition is calculated using a three dimensional (3D) Computational Fluid Dynamics (CFD) model. The Reynolds-Averaged Navier Stokes (RANS) equations are solved in three dimensions using a CFD model. The Level Set Method (LSM) is used for calculation of both free surface and bed topography. The two-equation turbulence model (k-ε and k-ω) is used to calculate the eddy viscosity in the RANS equations. The pressure term in the RANS equations on a staggered grid is modeled using the Chorin's projection method. The 5th order Weighted Essentially Non-Oscillatory (WENO) scheme discretizes the convective term of the RANS equations. The Kovacs and Parker and Dey formulations are used for the reduction in bed shear stress on the sloping bed. The model also used the sandslide algorithm which limits bed shear stress reduction during the erosion process. The numerical model solution is validated against experimental results collected at the Politecnico di Milano, Milan, Italy. Further, the numerical model is tested for performance by varying the grid sizes and key parameters like the space and time discretization schemes. The effect of varying bed porosity has been evaluated. Overall, the free surface is well represented in a realistic manner and bed topography is well predicted using the Level Set Method (LSM).  相似文献   

Fluid and melt inclusion evidence for the origin of idiomorphic quartz crystals in topaz-bearing granite from the Salmi batholith, Karelia, Russia   总被引：1，自引：0，他引：1  

M. Poutiainen  T. F. Scherbakova 《Lithos》1998,44(3-4):141-151

Idiomorphic quartz crystals in topaz-bearing granite from the Salmi batholith contain primary inclusions of silicate melt and abundant mostly secondary aqueous fluid inclusions. Microthermometric measurements on melt inclusions give estimates for the granite solidus and liquidus of 640–680°C and 770–830°C, respectively. Using published solubility models for H₂O in granitic melts and the obtained solidus/liquidus temperatures from melt inclusions, the initial water concentration of the magma is deduced to have been approximately 3 wt.% and the minimum pressure about 2 kbar. At this initial stage, volatile-undersaturation conditions of magma were assumed. These results indicate that the idiomorphic quartz crystals are magmatic in origin and thus real phenocrysts. During subsolidus cooling and fracturing of the granite, several generations of aqueous fluid inclusions were trapped into the quartz phenocrysts. The H₂O inclusions have salinities and densities of 1–41 wt.% NaCl eq. and 0.53–1.18 g/cm³, respectively.  相似文献   

Determination of characteristics of steam reservoirs by Radon-222 measurements in geothermal fluids     

F. D'Amore  J. C. Sabroux  P. Zettwoog 《Pure and Applied Geophysics》1978,117(1-2):253-261

The authors conducted a Rn²²² survey in wells of the Larderello geothermal field (Italy) and observed considerable variations in concentrations. Simple models show that flow-rate plays an important part in the Rn²²² content of each well, as it directly affects the fluid transit time in the reservoirs. Rn²²² has been sampled from two wells of the Serrazzano area during flow-rate drawdown tests. The apparent volume of the steam reservoir of each of these two wells has been estimated from the Rn²²² concentration versus flow-rate curves.List of symbols Q Flow-rate (kg h^–1) - Decay constant of Rn²²² (=7.553×10^–3 h^–1) - Porosity of the reservoir (volume of fluid/volume of rock) - ₁ Density of the fluid in the reservoir (kg m^–3) - ₂ Density of the rock in the reservoir (kg m^–3) - M Stationary mass of fluid filling the reservoir (kg). - E Emanating power of the rock in the reservoir (nCi kg _rock ^–1 h^–1). - P Production rate of Rn²²² in the reservoir: number of atoms of Rn²²² (divided by 1.764×10⁷) transferred by the rock to the mass unit of fluid per unit time (nCi kg _fluid ^–1 h^–1). - N Specific concentration of Rn²²² in the fluid (nCi kg^–1) - Characteristic time of the steam reservoir at maximum flow-rate (=M/Q)  相似文献   

普朗斑岩铜矿包裹体、同位素研究及成矿时代     

胡清华  黄定柱  李冰  杨丽梅  尹光候 《云南地质》2010,29(3):351-357

普朗斑岩铜矿产于印支-燕山早期普朗复式斑岩体中。成矿流体来源广、盐度高,成矿温度从高温440℃到低温120℃,集中在160℃-240℃、280℃-320℃、340℃-380℃三阶段,多期次、多阶段性,与斑岩成矿作用特征一致。硫同位素3δ4SCDT‰T为（-2.23-3.75）‰,显示单一深源岩浆硫。岩体黑云母等40Ar-39Ar和矿石石英-辉钼矿Re-Os同位素年龄为206.4M a-213±3.8M a,属岛孤斑岩型铜矿床。  相似文献   

新疆阿尔泰克因布拉克铜锌矿床地质特征及成矿作用   总被引：4，自引：1，他引：3  

杨富全  毛景文  刘锋  董永观  柴凤梅  耿新霞 《岩石学报》2010,26(2):361-376

克因布拉克中型铜锌矿床赋存于早二叠世花岗岩外接触带的上志留统-下泥盆统康布铁堡组黑云石英片岩、变质石英砂岩中。矿床的形成经历了夕卡岩期、热液期和表生期,铜锌矿主要形成于热液期。矿石中石英和方解石流体包裹体划分为H_2O-NaCl型和H_2O-CO_2(±CH_4/N_2)-NaCl型。成矿温度变化于146～448℃,在170℃、270℃和350℃出现峰值;流体盐度变化于0.2%～46.9%NaCl_(eq),峰值为1.5%NaCl_(eq)和5.5%NaCl_(eq);流体的密度0.55～1.19g/cm~3。硫化物的δ~(34)S集中变化于-8.4‰～1.9‰,峰值为0‰,表明硫来自岩浆。石英和方解石δD_(SMOW)介于-130‰～-79‰,δ~(18)O_(SMOW)值介于8.0‰～11.6‰,δ~(18)O_(H2O)值为-1.7‰～4.43‰,表明成矿流体主要是岩浆水,混合大气降水。方解石中δ~(13)C_(PDB)变化于-5.3‰～-1.1‰,暗示碳来自花岗质岩浆。成矿时代为早中二叠世,成矿作用与花岗质岩浆期后的热液活动有关。  相似文献   

西拉沐伦钼矿带车户沟斑岩型钼-铜矿床成矿流体特征及其地质意义   总被引：9，自引：4，他引：5  

褚少雄  曾庆栋  刘建明  张伟庆  张作伦  张松  汪在聪 《岩石学报》2010,26(8):2465-2481

车户沟钼-铜矿床是华北克拉通北缘西拉沐伦钼矿带上典型的斑岩型Mo-Cu矿床,位于华北克拉通北缘断裂南侧。矿床赋存于成矿母岩花岗斑岩及其围岩中,矿化类型以细脉浸染状矿化为主,还存在隐爆角砾岩型矿化和石英脉型矿化。根据脉体类型和矿物组合将车户沟钼-铜矿床划分为四个成矿阶段,分别为(1)辉钼矿-黄铁矿-石英阶段、(2)黄铜矿+黄铁矿±辉钼矿+石英阶段、(3)黄铁矿+石英阶段、(4)石英+碳酸盐±萤石阶段。成矿流体寄主矿物石英中发育Ⅰ型含CO2三相包裹体(LCO2+VCO2+LH2O)、Ⅱ型含子晶三相(V-L+S)包裹体、Ⅲ型富气相(V-L)包裹体、Ⅳ型富液相(L-V)包裹体、Ⅴ型纯气相(V)包裹体和Ⅵ型纯液相(L)六种类型。流体包裹体类型从早到晚具有规律性演化特征,表现为阶段(1)、(2)以发育Ⅰ型含CO2三相包裹体(LCO2+VCO2+LH2O)和Ⅱ型含子晶三相(V-L+S)包裹体为特征,成矿晚期阶段(3)、(4)以发育Ⅲ型富气相(V-L)包裹体、Ⅳ型富液相(L-V)水溶液包裹体为特征。从早阶段到晚阶段成矿流体温度及盐度具有规律性演化特征。均一温度峰值分别为270～400℃、230～370℃、160～290℃、120～230℃,成矿温度逐渐降低;流体盐度,阶段(1)流体盐度分两组:3.39%～14.25%NaCleqv和31.01%～66.75%NaCleqv、阶段(2)流体盐度分两组:1.23%～12.85%NaCleqv和31.14%～64.33%NaCleqv、阶段(3)、(4)盐度分别介于1.05%～21.47%NaCleqv和2.07%～10.73%NaCleqv,盐度逐渐降低。激光拉曼显微探针(LRM)及群体包裹体成分分析结果表明,流体体系成分以H2O、CO2、Cl-、SO42-、Na+为主,贫F-、Ca2+、Mg2+为特征,特征离子比值暗示流体来源于岩浆流体。包裹体岩相学及包裹体测温表明,流体由早期的高温、高盐度、含二氧化碳NaCl-H2O-CO2体系岩浆流体在主成矿阶段(1)、(2)发生流体包裹体的沸腾作用和相分离,伴随流体沸腾、CO2逸失、温度降低等过程导致大量金属硫化物沉淀。成矿晚期阶段(3)、(4),成矿体系趋于开放,流体存在大气降水混入演化为晚期中-低温、中-低盐度贫CO2的NaCl-H2O流体体系。成矿作用机制上沸腾作用是导致主成矿期辉钼矿、黄铜矿沉淀成矿的重要机制。成矿作用晚期阶段(3)、(4)流体混合作用成为成矿作用的主导机制。  相似文献