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1.
金在碱性富硅热液中溶解和迁移的实验研究 总被引:17,自引:3,他引:17
实验测定了金在碱性富硅溶液中的溶解度,并标定了Au与SiO2之间的配合关系Au^+H2SiO^-4=AuH3SiO^04在80 ̄250℃的温度范围内,其平衡常数为lgK=-1.9889+10085。18/T(T为绝对温度)各温度下的平衡常数值与Au-HCl-SiO2-H2O体系中得到的结果一致。它表明溶液在酸性和碱性条件下,SiO2均作为配位体,与Au形成AuH3SiO^04在热液中溶解、迁移。A 相似文献
2.
二氧化硅水溶物种与热力学性质 总被引:9,自引:0,他引:9
系统综述了热液流体中溶解SiO2存在形式的研究成果,指出溶解SiO2在天然条件下主要呈真溶液迁移,其形式为H4SiO4或Si(OH)4·2H2O及其它水合数的单硅酸和多硅酸;在适宜的条件下,H3SiO-4、NaH3SiO04、Si(OH)4SO2-4、(K,Na)Si(OH)05或硅的有机配合物将成为主要的溶解物种。最后,给出了有关上述水溶物种的热力学平衡常数 相似文献
3.
Cr^2+在橄榄石,斜方辉石和尖晶石中溶解度的实验研究 总被引:1,自引:0,他引:1
为了研究Cr^2+在橄榄石、斜方辉石和尖晶石中的溶解度及其在各相间的分配,在压力为0-2.88GPa和温度为1100-1450℃的条件下,于MgO-SiO2-Cr-O体系中完成了一系列实验。实验起始成分由高纯度的MgO、SiO2、Cr2O3和Cr混合得到。通过Cr2O3和Cr等化学混合得到所需的CrO,且加有过量(50%)的Cr,使得实验产物和金属Cr保持平衡。此外,还加入占起始混合物重量10%的 相似文献
4.
华南下寒武统黑色岩系中的热水成因硅质岩 总被引:17,自引:2,他引:17
华南下寒武统黑色岩系Ni-Mo-PGE序列富硫化物层上,下均出现在区域上延伸不甚稳定的硅质岩,过去对其成因未作研究。该硅质岩刘岫峰(1994)的化学成因,生物成因和火山成因硅质岩氧化物(SiO2-Al2O3,SiO2-MgO,SiO2-K2O+Na2O)判别图解上多落在化学成因区和火山成因区,在Wonder的热水成因和正常水成因硅质岩SiO2-Al2O3判别图解上,多落在热水因区,该硅质岩稀土总量 相似文献
5.
一种计算NaAlSi3O8熔体粘度的理论方法 总被引:2,自引:0,他引:2
硅酸岩熔体的结构特征是制约熔体粘度的主要因素,熔体结构的变异是其中粘流作用发生的原因,化学成分对熔体粘度的控制是通过改变熔体结构而实现的。SiO2熔体中仅存在Si-O键,而NaAl-Si3O8熔体中存在Si-O键,Al-O键和Na-O键,Na-O键在熔体结构中通过O与Si-O键相联结,并且使与之相联的Si-O键的键强变弱。因此,熔体结构单元中与Na-O键相联结的Si-O键最易断开,并因此导致流变作用的发生。文中计算了不同温度条件下NaAlSi3O8熔体中Si-O键的键强,以SiO2熔体中的Si-O键的键强和SiO2熔体的粘度为标准,建立了计算了NaAlSi3O8熔体粘度的理论模型,依此理论模型求得的熔体粘度在合理的地质温度范围内与实验结果完全吻合 相似文献
6.
自然岩石及简单和复杂体系中实验合成或经重新平衡的尖晶石化学成分显示,在中-低压条件下,与橄榄石共存的尖晶石可含一定量的Si,其含量随温度和压力的升高而增大。用最小二乘法对简单体系中 实验数据的热力学模拟发现,Si在铬尖晶石中以硅酸盐尖晶石(Mg2SiO4)形式存在,Mg2SiO4组份在铬尖晶石中的活度aSDMG2SiO4=(NSPMG/2)2*(NSPSi)2(NSPSi代表以4个氧为基础的单位尖 相似文献
7.
浙西石炭纪层状硅质岩地球化学特征及其意义 总被引:7,自引:0,他引:7
在浙西石炭纪地层中存在与地层整合产出的层状硅质岩。硅质岩中FeO、MnO、TiO2、Al2O3、MgO、CaO、Na2O、K2O等含量相对较高,富集As、Sb、Bi、Au、Ag、Ga,Fe2O3/FeO、SiO2/Al2O3、SiO2/(Na2O+K2O)、SiO2/MgO比值较小,稀土元素总量低,Ce弱负异常,重稀土相对富集,包裹体富含气相组份CH4、CO2、N2、CO、H2,具热水沉积硅质岩的地球化学特征。在Fe—Mn—(Ni+Co+Cu)三角图及SiO2—Al2O3、SiO2—Fe2O3图上均属于热水沉积硅质岩。硅质岩中硅、氧同位素也显示其热水成因之特点。硅质岩的硅同位素和稀土元素Ce/Ce※值表明本区层状硅质岩主要是在浅海环境下沉积的。硅质岩的形成温度较高,为98℃~152℃ 相似文献
8.
八庙—青山金红石矿床化学成分与成矿关系 总被引:1,自引:0,他引:1
本矿床是我国金红石矿床重要的成因及工业类型,为具有特定化学成分的岩石在特定变质条件下形成的。本文通过对大量数据的处理,查明了化学成分和成矿的关系,高Al2O3,MgO,Fe2O3+FeO,K2O,P2O5,H2O^+,MnO,低SiO2,CaO,Na2O,CO2,S等,利于钛富集;高TiO2,MgO,P2O5,S,低SiO2,CaO,K2O,Al2O3,Fe2O3/FeO,利于金红石形成,高Sf, 相似文献
9.
对火山放气过程中硫行为的研究是研究岩浆氧化状态及估算火山排气量的一种有效手段,硫在硅酸盐熔体中的溶解行为与其氧化状态紧密相关,硫在硅酸盐熔3体中的溶解度取决于氧逸度、硫逸度和O^2-在溶体中的行为,且熔体中硫的溶解度与其中水的含量呈反比关系。常压条件下硫在熔体中的溶解度与SiO2的含量呈反比关系,在还原环境中硫在溶体中的溶解度与熔体中FeO含量呈正相关。在氧化性岩浆中硫的溶解度较高,这可能是硫自地 相似文献
10.
硫在岩浆熔体中的溶解行为综述 总被引:4,自引:0,他引:4
对火山放气过程中硫行为的研究是研究岩浆氧化状态及估算火山排气量的一种有效手段。硫在硅酸盐熔体中的溶解行为与其氧化状态紧密相关,硫在硅酸盐熔体中的溶解度取决于氧逸度、硫逸度和O2-在熔体中的行为,且熔体中硫的溶解度与其中水的含量呈反比关系。常压条件下硫在熔体中的溶解度与SiO2的含量呈反比关系,在还原环境中硫在熔体中的溶解度与熔体中FeO含量呈正相关。在氧化性岩浆中硫的溶解度较高,这可能是硫自地幔或下地壳迁移至近地表火山环境中的有效机制。 相似文献
11.
The argon solubility of 38 liquids in the system Na2O-CaO-MgO-Al2O3-SiO2 (NCMAS) has been determined at 1873 K and 1 bar, the argon concentration of presaturated glasses being measured using a static mass spectrometer. For compositions in the subsystem diopside (CaMgSi2O6), nepheline (NaAlSiO4), albite (NaAlSi3O8), anorthite (CaAl2Si2O8), argon solubility is generally a linear function of the relative proportion of each end member, solubility being lowest in diopside melt (1.53 10−5 cm3 STP · g−1 · bar−1) and highest in albite melt (2.88 10−4 cm3 STP · g−1 · bar−1). For the tectosilicate joins studied (SiO2-Na2Al2O4, SiO2-CaAl2O4, SiO2-MgAl2O4) solubility decreases with decreasing silica content in all cases, being highest for Na-bearing liquids and lowest for Mg-bearing liquids at constant molar silica content. Where comparison is possible our results are in good agreement with data from the literature. When our data are considered in isolation we find that argon solubility shows an excellent correlation with calculated ionic porosity. The covariation of argon solubility and liquid density is also reasonable, that with molar volume less convincing and that with polymerization state (as defined by the ratio of the number of nonbridging oxygens and tetrahedral network forming cations; NBO/T) nonexistent. However, when our data are combined with those from the literature no well constrained correlation between argon solubility and ionic porosity is apparent. Based upon this observation and consideration of the temperature dependence of noble gas solubility it is concluded that ionic porosity is not a universally applicable parameter which may be used to predict noble gas solubility as a function of composition, temperature and pressure. Two new models for calculating argon solubility are proposed, both employing the notion of partial molar argon solubilities. The first uses oxide components, for which partial molar argon solubility is directly proportional to partial molar ionic porosity calculated at 1873 K, irrespective of the temperature of experimental equilibration. The second model, which offers the best fit to the available data, employs tetrahedral units rather than oxides as the proposed melt components. This latter model successfully accounts for reported argon solubilities in simple Al-free systems, in simple Al-bearing systems and in natural liquids. This is interpreted to infer that argon is incorporated in large sites in the liquid structure (such as the space within rings of n-tetrahedra) although further work is required to understand the quantitative links between melt structure and noble gas solubility. 相似文献
12.
Within the framework of Pitzer's specific interaction model, interaction parameters for aqueous silica in concentrated electrolyte solutions have been derived from Marshall and co-authors amorphous silica solubility measurements. The values, at 25°C, of the Pitzer interaction parameter (λSiO2(aq)−i) determined in this study are the following: 0.092 (i = Na+), 0.032 (K+), 0.165 (Li+), 0.292 (Ca2+, Mg2+), −0.139 (SO42−), and −0.009 (NO3−). A set of polynomial equations has been derived which can be used to calculate λSiO2(aq)−i for these ions at any temperature up to 250°C. A linear relationship between the aqueous silica-ion interaction parameters (λSiO2(aq)−i) and the surface electrostatic field (Zi/re,i) of ions was obtained. This empirical equation can be used to estimate, in first approximation, λSiO2(aq)−i if no measurements are available. From this parameterisation, the calculated activity coefficient of aqueous silica is 2.52 at 25°C and 1.45 at 250°C in 5 m NaCl solution. At lower concentrations, e.g. 2 m NaCl, the activity coefficient of silica is 1.45 at 25°C and 1.2 at 250°C. Hence, in practice, it is necessary to take into account the activity coefficient of aqueous silica (λSiO2(aq)≠1) in hydrothermal solutions and basinal brines where the ionic strength exceeds 1. A comparison of measured [Marshall, W.L., Chen, C.-T.A., 1982. Amorphous silica solubilities, V. Prediction of solubility behaviour in aqueous mixed electrolyte solutions to 300°C. Geochim. Cosmochim. Acta 46, 289–291.] and computed amorphous silica solubility, using this parameterisation, shows a good agreement. Because the effect of individual ions on silicate and silica polymorph solubilities are additive, the present study has permitted to derive Pitzer interaction parameters that allow a precise computation of γSiO2(aq) in the Na---K---Ca---Mg---Cl---SO4---HCO3---SiO2---H2O system, over a large range of salt concentrations and up to temperatures of 250°C. 相似文献
13.
石英在热水溶液中的溶解度对地球化学和岩石学的研究都极为重要.我们提出一个能够适用于H2O-CO2-NaCl 复杂流体成分,高温高压(0~ 1000℃,0~ 1.5GPa)条件下的石英溶解度计算模型,形式如下:logmSiO2=A(T)+B(T)·logMH2O/V*H2O+C(t)? logxH2O 其中A(T)、B(T)、C(t)均为温度T(K)和t(℃)的多项式.xH2O和V*H2O分别代表流体中水的摩尔分数和有效偏摩尔体积.V*H2O值由公式Vmix=xHOV*H2O+∑xsVs计算得到.其中,Vmix代表流体混合物的摩尔体积,由Mao et al.(2010)的最新模型计算得到,xs和Vs分别代表溶质的摩尔分数和本征体积.具体采用VCO2=29.9cm3/mol、VNaCl=30.8cm3/mol.本模型精度较前人模型有所提高,并且适用深达下地壳的温度-压力-成分环境,如:巴罗式变质带、板块俯冲带等.另外,本模型可被用于建立石英地质温度计,加深人们对于石英脉及有关矿床成因的认识,并且可用来指导实验及工程.本模型的在线计算程序可通过以下网站获得:www.geochem-mode1.org. 相似文献
14.
水在硅酸盐熔体中的溶解度及研究意义 总被引:2,自引:0,他引:2
水是岩浆中主要的挥发份 ,而且其溶解作用强烈影响着熔体的物理和化学性质 ,因此对水在硅酸盐熔体中溶解度及溶解机制的研究是非常重要的。近年来研究表明 ,水在硅酸盐熔体中溶解度与压力、温度及熔体组分密切相关。具体而言 ,压力升高可使水的溶解度增大 ,而温度对溶解度的影响则与熔体组成有关。对于AbOrQ体系 ,在压力低于 4 0 0MPa时 ,溶解度与温度呈反相关 ;而在压力高于 50 0MPa时 ,则呈现出正相关。但是 ,温度对溶解度的影响要明显弱于压力的影响。至于水的溶解度与熔体组分的关系 ,通过对碱金属组分的研究表明水的溶解度按K ,Na ,Li的次序而增加。此外 ,根据碱金属组分对水在硅酸盐熔体中溶解度的影响对水的溶解机制进行了论述 ,这与Sykes等通过分子轨道计算和拉曼、红外光谱研究得出的水在铝硅酸盐熔体中的溶解机理是一致的。 相似文献
15.
以合成花岗岩、水、不同浓度的盐酸溶液、氢氟酸溶液作为反应初始物,在850℃,100 MPa,接近于NNO的条件下开展了金在不同花岗质熔体中溶解度的实验研究,实验固液相产物中的金含量使用石墨炉原子吸收法测定。实验结果显示,金在花岗质熔体中的溶解度变化范围为1.87~156.62μg/g,流体相中金的溶解度为0.31~6.92μg/g;金在熔体相中的溶解度较其在共存液相中的高。花岗质熔体相中金的溶解度明显受熔体化学组成的影响,过碱性富钠花岗质熔体中金的溶解度明显高些;金在花岗质熔体中的溶解度随着熔体中Na2O/K2O摩尔比增大而增大;在氟氯共存岩浆体系中,氟含量变化对金在熔体相中的溶解度影响不明显,而液相中氯含量增大有利于提高金在流体相中的含量。 相似文献
16.
Solubilities of amorphous silica were determined in separate aqueous solutions of sodium chloride, sodium sulfate, magnesium chloride, and magnesium sulfate at temperatures up to 350°C. These salts, of strong interest in hydrothermal oceanography and geothermal energy, generally ranged in concentration from zero to saturation. Solubilities in the sodium chloride solutions followed closely earlier observed decreases in sodium nitrate solutions at high temperatures.Amorphous silica solubilities were depressed most by magnesium chloride, followed by magnesium sulfate, and less by sodium chloride. As the temperature rose the relative decrease in solubility caused by added salt became smaller. Surprisingly, sodium sulfate solutions, showing little effect at 25°C, sharply raised the solubility as the temperature increased to 350°C. Plots of the logarithms of derived activity coefficients against molalities of added salt gave approximately straight lines. These plots allow simple predictions of amorphous silica solubility in single salt solutions. 相似文献
17.
Thermodynamic analysis of quartz and cristobalite solubilities in water at saturation vapor pressure
The degree of polymerization of silica in aqueous solution is calculated from quartz and cristobalite solubility and the free energy of the polymorphic transition. At temperatures below 130° C, the existing solubility data are not all compatible with a simple monomeric solute model. A combination of monomeric and tetrameric silica species is shown to be compatible with most of the chemical data on silica solutions. The analysis indicates that the low temperature solubilities of quartz and/or cristobalite must be more accurately defined or that the presence of polymeric silica in solution has been overlooked. 相似文献
18.
The importance of water column processes on the dissolution properties of biogenic silica in deep-sea sediments I. Solubility 总被引:3,自引:0,他引:3
M Gallinari O RagueneauL Corrin D.J DeMasterP Tréguer 《Geochimica et cosmochimica acta》2002,66(15):2701-2717
Flow-through experiments have been performed to study the thermodynamics of biogenic silica (opal) dissolution in deep-sea sediments. They were applied for the first time on sediment from the Southern Ocean
[Van Cappellen and Qiu 1997a] and [Van Cappellen and Qiu 1997b] We have extended the use of these experiments to other deep-sea settings, thereby covering a wide range of in situ silicic acid asymptotic concentrations (Casympt; 200 to 900 μmol/L) and biogenic opal content (BSi; 0.5 to 80%). Performing these experiments under in situ bottom temperatures allows for the comparison between experimental apparent solubilities and Casympt concentrations. Low values of BSi apparent solubilities have been measured in the deepest sections of the multicores collected in the northeast Atlantic (229 μmol/L) and in the equatorial Pacific (505 μmol/L). They are only 10 to 20% higher than the in situ Casympt concentrations. This demonstrates a clear control of pore water silicic acid concentrations by the in situ apparent solubility of the BSi, i.e., the solubility of BSi within a complex sedimentary matrix that includes important quantities of silicate minerals.In regions where the percentage detrital/percentage biogenic ratio is low, the apparent solubility of the biogenic silica is close to that of in situ biogenic silica. In the opposite case, when the percentage detrital/percentage biogenic ratio is high, reprecipitation reactions induce strong interference on the dissolution properties of the opal, both in situ and in flow-through experiments. In such a sedimentary matrix, it is important to determine the appropriate opal solubility to be used in early diagenetic models, i.e., the solubility of the biogenic silica just before deposition on the seabed. This has been achieved by performing flow-through experiments on sediment trap material from the north Atlantic site. Comparison of apparent biogenic silica solubility measured by flow-through experiments and the silicic acid concentrations measured in the cups of the sediment traps suggested that the solubility of biogenic silica that reaches the sediment-water interface is not unique and varies spatially and temporally. In fact, it is the degree of coupling between surface waters and the sediment-water interface that will control the aging of biogenic silica in the water column and hence the dissolution properties of the biogenic silica deposited at the sediment-water interface. All these results call for a strong improvement of biogenic silica early diagenetic models that should include not only a reprecipitation term that takes into account interaction with silicate minerals but also the existence of several phases of biogenic silica and thus that should operate in a non-steady-state mode to account for seasonal variations in the quality of deposited biogenic silica. 相似文献
19.
文章以银-钯(Ag-Pd)合金+AgCl在HCl-H2O对热液中的溶解度测定为例,叙述了用合金作为实验初始物和同时测定合金组成的方法。本实验结果与前人在相同实验条件仅用不同方法所获得的结果比较后指出:①本实验中测得的银溶解度位于Zotov和Seward的研究结果之间;②从实验中测得把的溶解度,计算或的存在形式和控制把溶解度反应式的平衡常数与Gammons一致,所有这些结果都表明,用Ag-Pd合金+AgCl作为溶解度反应的初始物研究该合金组成的方法是可行的。该方法提出了控制体系氧逸度的新方法,为从实验上研究成矿元素在低温下的热液行为提供了可能。 相似文献
20.
Silica lamellae in eclogitic clinopyroxene are widely interpreted as evidence of exsolution during decompression of eclogite. However, mechanisms other than exsolution might produce free silica, and the possible mechanisms depend in part on the nature and definition of excess silica. 'Excess' silica may occur in both stoichiometric and non-stoichiometric pyroxene. Although the issue has been debated, we show that all common definitions of excess silica in non-stoichiometric clinopyroxene are internally consistent, interchangeable, and therefore equivalent. The excess silica content of pyroxene is easily illustrated in a three-component, condensed composition space and may be plotted directly from a structural formula unit or recalculated end-members. In order to evaluate possible mechanisms for the formation of free silica in eclogite, we examined the net-transfer reactions in model eclogites using a Thompson reaction space. We show that there are at least three broad classes of reactions that release free silica in eclogite: (i) vacancy consumption in non-stoichiometric pyroxene; (ii) dissolution of Ti-phases in pyroxene or garnet; (iii) reactions between accessory phases and either pyroxene or garnet. We suggest that reliable interpretation of the significance of silica lamellae in natural clinopyroxene will require the evaluation not only of silica solubility, but also of titanium solubility, and the possible roles of accessory phases and inclusions on the balance of free silica. 相似文献