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61.
采用反相高效液相色谱-紫外检测法测定了黄颡鱼血浆、肝脏中儿茶素EGCG含量,并研究了不同水温(10℃和20℃)下EGCG在黄颡鱼体内代谢动力学和肝组织消除特征。结果表明,高温下黄颡鱼腹腔注射EGCG后体内吸收较快,T1/2ka为0.21h,T1/2α为2.07h,T1/2β为22.89h,AUC为5195.41μg·h/ml,Tp为0.95h,Cmax为257.75μg/ml;低温下分别为5.67h、9.53h、207.49h、17283.03μg·h/ml、12.56h和117.16μg/ml。同时在0.5、1、2、4、8、12、24、48、96h各时间点检测了肝脏组织中EGCG浓度,并计算得出高温下EGCG在肝组织中的T1/2β为24.15h,低温下肝组织中T1/2β为64.17h。对不同水温下代谢动力学和肝组织消除规律的研究表明,EGCG在黄颡鱼体内吸收、分布和消除速度与水温关系密切,高温下均较低温下迅速。 相似文献
62.
中地壳的地球化学动力学和矿石成因 总被引:7,自引:0,他引:7
笔者重点进行了大于300℃——在近临界区至超临界区条件下的硅酸盐矿物与水反应动力学实验。矿物(钠长石Ab、透辉石Di、阳起石Act和磁铁矿Mt)的溶解反应动力学实验是使用流体通过叠层反应器的开放体系在25~400℃和22MPa下完成的。实验发现矿物在300℃至400℃范围,在跨越水临界点时出现反应速率的涨落。各种多金属氧化物硅酸盐与水反应时,各个元素溶解到溶液里的释放速率一般不一样,常称为一致溶解作用。但是,在近300℃变为一致溶解作用。实验发现在22MPa时硅酸盐矿物的最大溶解反应速率多是在300℃,如硅的最大释放速率是在300℃。其余元素如Na、K、Mg、Ca、Fe、Al等释放速率在<300℃22MPa时都高于硅的释放速率,在>300℃时硅的释放速率要高于其它元素的释放速率。确切地说,金属与氧之间的键的性质决定了它们(金属氧化物)与水之间反应速率。在一般情况下,Na-Obr,Ca-Obr,Mg-Obr,Al-Obr和Si-Obr的键桥(br),它们之间相对地由具有离子键性质逐步变为具有极性键的性质。由常温常压到亚临界区(300~374℃22MPa),再到大于临界点374℃、22MPa进入超临界区,水的性质随温度、压力变化。水由容易溶解离子键逐渐变为容易打破极性键。笔者还研究了黑钨矿、锡石(玄武岩、花岗闪长岩)与水在250~400℃条件下的反应动力学过程,得出了相同的结果。实验均发现在跨越水临界点时矿物(或岩石)与水反应的动力学涨落。这些实验结果可以用于说明中地壳上部的水/岩相互作用的特征。发生于中地壳的水、岩相互作用大多是在300~450℃和20~50MPa条件下进行的。各地区的地壳厚度不一,中地壳温度压力并不完全相同。模拟中地壳条件下水/岩相互作用实验,目的主要是研究矿物(或岩石)在300~450℃条件下反应动力学过程。已有热液矿床矿物流体包体数据表明:有一批矿床的主要矿石形成于300~500℃,低于NaCl H2O溶液临界线的条件。中地壳的流体处于由亚临界态跨越临界态,进入超临界流体太的演化过程。这种流体的性质变化会引起水/岩相互作用的反应动力学涨落和矿石大量沉淀。 相似文献
63.
Yoann Louis Cdric Garnier Vronique Lenoble Stphane Mounier Neven Cukrov Dario Omanovi Ivanka Pieta 《Marine Chemistry》2009,114(3-4):110-119
An interaction of dissolved natural organic matter (DNOM) with copper ions in the water column of the stratified Krka River estuary (Croatia) was studied. The experimental methodology was based on the differential pulse anodic stripping voltammetric (DPASV) determination of labile copper species by titrating the sample using increments of copper additions uniformly distributed on the logarithmic scale. A classical at-equilibrium approach (determination of copper complexing capacity, CuCC) and a kinetic approach (tracing of equilibrium reconstitution) of copper complexation were considered and compared. A model of discrete distribution of organic ligands forming inert copper complexes was applied. For both approaches, a home-written fitting program was used for the determination of apparent stability constants (Kiequ), total ligands concentration (LiT) and association/dissociation rate constants (ki1,ki- 1).A non-conservative behaviour of dissolved organic matter (DOC) and total copper concentration in a water column was registered. An enhanced biological activity at the freshwater–seawater interface (FSI) triggered an increase of total copper concentration and total ligand concentration in this water layer. The copper complexation in fresh water of Krka River was characterised by one type of binding ligands, while in most of the estuarine and marine samples two classes of ligands were identified. The distribution of apparent stability constants (log K1equ: 11.2–13.0, log K2equ:8.8–10.0) showed increasing trend towards higher salinities, indicating stronger copper complexation by autochthonous seawater organic matter.Copper complexation parameters (ligand concentrations and apparent stability constants) obtained by at-equilibrium model are in very good accordance with those of kinetic model. Calculated association rate constants (k11:6.1–20 × 103 (M s)− 1, k21: 1.3–6.3 × 103 (M s)− 1) indicate that copper complexation by DNOM takes place relatively slowly. The time needed to achieve a new pseudo-equilibrium induced by an increase of copper concentration (which is common for Krka River estuary during summer period due to the nautical traffic), is estimated to be from 2 to 4 h.It is found that in such oligotrophic environment (dissolved organic carbon content under 83 µMC, i.e. 1 mgCL− 1) an increase of the total copper concentration above 12 nM could enhance a free copper concentration exceeding the level considered as potentially toxic for microorganisms (10 pM). 相似文献
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65.
Summary This article discusses methods for providing a reliable forecast of the gas-dynamic behaviour of coal seams and adjacent strata. It shows that the ash content of carbonaceous materials determines their sorptive capacity (a universally applicable expression is presented for calculating the methane content of a sample) whilst the rate of methane desorption is a function of the degree of geological disturbance, i.e. the number and distribution of the macropores and fractures in the sample. This effect becomes less important as the sample ash content increases and effectively disappears above a certain value for high permeability materials.The quantity sorption-kinetic characteristic is shown to be a reliable means for quantifying methane emission behaviour. Large variations in coal sorption-kinetic characteristics are shown to occur over short distances as the geological structure of the seam changes, both vertically and horizontally. Consequently, sorption-kinetic characteristics may be used to predict the general level of methane emission from the seam and to quantify the risk of outburst inherent in disturbed areas of coal seams. 相似文献
66.
作者用物理方法和化学方法相结合分离了九个矿区的自然金,效果良好,其纯度一般达99%以上。X光、化学分析和物性测试表明,化学处理对自然金的物性、化学成分和结构无明显影响。文中分别对几种矿物组合的化学分离方法作了具体介绍。 相似文献
67.
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69.
Cavernous weathering (tafoni development) occurs on coastal slopes in greenschist bedrock at elevations up to 40 m above sea level. The freshly weathered surfaces of the cavern interiors are irregular in morphology, discordant to major rock structure, formed by substantially weakened rock and associated with granular weathering debris. The weathering debris contains soluble elements in proportions similar to those present in seawater, and the penetration of elements associated with sea salts into the weathering surface to estimated depths of at least 0·1–0·2 m is indicated by the presence of chlorine. Scanning electron microscopy and microprobe analyses suggest that rock breakdown occurs principally through limited chemical weathering at grain boundaries. The mechanism for the emplacement of marine salts within sheltered rock surfaces in the tafoni is postulated to be a combination of dry deposition under turbulent atmospheric conditions and wetting by coastal fog. 相似文献
70.