表生循环水向成矿溶液转变条件的模拟实验──表生循环水向成矿溶液演变机理之(一)     

陈福  王中刚  朱笑青 《矿物学报》1997,(4)

对成矿溶液性质的认识是成矿理论和成矿预测的基础。本文用云南腾冲热泉水、勐野并钾盐卤水、青岛海洋水、贵州赤天化含油气水、贵阳雨水以及从贵阳森林公园腐殖土中提取的含腐植酸的水溶液，和自配的pH＝1．0的含氯酸性水，对西南地区不同岩性的四种矿源岩样进行了加温浸泡溶解实验。另外还利用表生风化淋滤模拟实验装置对该四种矿源岩样进行了三种不同大气雨水的风化淋滤模拟实验。实验结果表明酸雨和酸性水最容易形成高含量的成矿溶液；含腐植酸的水有时对多种金属也能形成较高含量的合矿溶液。但现代雨水、腾冲火山热泉水、勐野井钾盐卤水、青岛海洋水、贵州赤天化含油气水等近中性和偏碱性的表生水对Fe、Mn、Cu、Pb、Zn、等常量金属元素几乎不能形成高含量的合矿溶液；当溶液中存在强络合剂时，可能对某些贵金属和稀有、分散元素的搬运和成矿具有较重要意义。  相似文献   

二氧化硅溶解度方程和地温计   总被引：8，自引：0，他引：8  

张生  李统锦 《地质科技情报》1997,16(1):53-58

对地表至下地壳和上地幔温压条件下二氧化硅溶解度实验研究的进展进行了综述，并给出了石英和非晶质ＳｉＯ２在纯水和盐水溶液中的溶解度定量方程，介绍了估算地热库温度的ＳｉＯ２地质温度计。  相似文献   

An Experimental Styudy on Gold Solubility in Amino Acid Solution and Its Geological Significance     

张景荣  陆建军等 《中国地球化学学报》1996,15(4):296-302

The experiments on gold solubility in amino acid solution mdicate that gold is very intensively soluble in amino acid(or other organic acids),which is extensively present in geological bodies,and is most soluble in histidine.The temperature and concentration,acidity and type of amino acid in the solution are important factors affecting gold-amino acid complexing. The solubility of gold in amino acid is different under different conditions of temperature, amino acid concentration and pH value of the solution,At 80℃ and pH=6-8,gold is most soluble in amino acid.Gold dispersed in water and rocks could be concentrated and transported by amino acid and then precipitated in favorable loci.Amino acids might have played an important role in metallogenesis as well as in the formation of source beds of gold.Nitrogen,oxygen and sulfur in amino acid might have reacted with gold to form soluble complex ions.  相似文献   

Nanoscience and technology: the next revolution in the Earth sciences     

Michael F. Hochella Jr.^{Author Vitae} 《Earth and Planetary Science Letters》2002,203(2):593-605

Nanoscience and technology are not exactly new, but nevertheless rapidly expanding fields that are providing revolutions in all sciences on the scale of what genomics and proteomics have done in recent years for the biological sciences. Nanoscience is based on the fact that properties of materials change as a function of the physical dimension of that material, and nanotechnology takes advantage of this by applying selected property modifications of this nature to some beneficial endeavor. The prefix ‘nano’ is used because the property dependence on physical size is generally observed close to the nanoscale, somewhere around 10⁻⁹ m. The dimensions at which changes are observed depend on the specific material and the property in question, as well as which of the three dimensions are restricted in real space (e.g. small particles vs. thin films vs. ‘one-dimensional’ phases). Properties change in these confined spaces because the electronic structure (i.e. the distribution of electron energies) of the material is modified here in the gray area between the bulk and atomistic/molecular realms, or equivalently between the continuum and strictly quantum domains. Earth materials with at least one dimension in the nanorange are essentially ubiquitous. Many have been known for several decades and more are being discovered all the time. But the scientific emphasis has now shifted to that of measuring, understanding and ultimately predicting the property changes from the bulk to nanodomains, and to the understanding of the significant ways that Earth processes are affected by these changes. In addition, where possible, Earth scientists are using nanoscience to develop nanotechnology that should play important roles in Earth sustainability issues of the future.  相似文献   

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  

孙樯  谢鸿森  郭捷  丁东业  苏根利 《地学前缘》2000,7(1):287-294

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   

Production of Potash and N-Mg Compound Fertilizer via Mineral Shoenite from Kunteyi Salt Lake: Phase Diagrams of Quaternary System(NH_4)_2SO_4-Mg SO_4-K_2SO_4-H_2O in the Isothermal Evaporation and Crystallization Process     

LI Cheng  CHEN Xueqing  GUO Hongfei  ZHOU Xue  CAO Jilin 《《地质学报》英文版》2021,95(3):1016-1023

Based on the requirement of the new technology for producing potassium sulfate and N-Mg compound fertilizer,boussingaultite,by the reaction of the mineral shoenite from Kunteyi Salt Lake,Qinghai province,and the industrial byproduct ammonium sulfate,the solubilities of the quaternary system (NH_4)_2SO_4-Mg SO_4-K_2SO_4-H_2O at 25.0oC in the isothermal evaporation and crystallization process were measured using the isothermal evaporation method,and the corresponding phase diagrams were plotted.According to the diagram,this system contains six saturation points and six solid phase fields of crystallization,which correspond to (K_(1-m),(NH_4)_m)_2SO_4,(NH_4)_2SO_4·Mg SO_4·6H_2O,K_2SO_4·Mg SO_4·6H_2O,Mg SO_4·6H_2O,(K_(1-n),(NH_4)_n)_2SO_4·Mg SO_4·6H_2O and Mg SO_4·7H_2O,respectively.By analyzing and calculating the isothermal evaporation and dissolution phase diagram of this quaternary system at 25.0oC,K_2SO_4 and (NH_4)_2SO_4·Mg SO_4·6H_2O can be separated via K_2SO_4·Mg SO_4·6H_2O and (NH_4)_2SO_4 as raw materials.Theoretical calculations about the proposed process were carried out and verified by experiment,which indicated that the yield of potassium sulfate was improved and the magnesium resources were fully utilized.  相似文献   

Low Mantle Perovskite: Solid Solution,Spin State of Iron and Water Solubility     

LI Lin  LI Qing  and LI Sheng-Rong 《《地质学报》英文版》2014,88(6):1884-1894

Silicate perovskites((Mg, Fe)SiO 3 and CaS iO 3) are believed to be the major constituent minerals in the lower mantle. The phase relation, solid solution, spin state of iron and water solubility related to the lower mantle perovskite are of great effect on the geodynamics of the Earth's interior and on ore mineralization. Previous studies indicate that a large amount of iron coupled with aluminum can incorporate into magnesium perovskite, but this is discordant with the disproportionation of(Mg,Fe)SiO 3 perovskite into iron-free MgS i O3 perovskite and hexagonal phase(Mg0.6Fe0.4)SiO 3 in the Earth's lower mantle. MnS iO 3 is the first chemical component confirmed to form wide range solid solution with Ca SiO 3 perovskite and complete solid solution with MgS i O3 perovskite at the P-T conditions in the lower mantle, and addition of Mn Si O3 will strongly affects the mutual solubility between Mg Si O3 and CaS iO 3. The spin state of iron is deeply depends on the site occupation of the Fe3+or Fe2+, the synthesis and the annealing conditions of the sample. It seems that the spin state of Fe2+ in the lower mantle perovskite can be settled as high spin, however, the existence of intermediate spin or low spin state of Fe2+ in perovskite has not been clarified. Moreover, different results have also been reported for the spin state of Fe3+ in perovskite. The water solubility of the lower mantle perovskite is related with its composition. In pure Mg SiO 3 perovskite, only less than 500 ppm water was reported. Al–Mg Si O3 perovskite or Al–Fe–MgS iO 3 perovskite in the lower mantle accommodates water of 1100 to 1800 ppm. Further experiments are necessary to clarify the detailed conditions for perovskite solid solution, to reliably analyze the valence and spin states of iron in the coexisting iron-bearing phases, and to compare the water solubility of different phases at different layers for deeply understanding the geodynamics of the Earth's interior and ore mineralization.  相似文献   

大气气溶胶中的铁及其溶解度研究综述          下载免费PDF全文

齐宇轩  周杨 《海洋气象学报》2021,41(2):1-13

生物活性铁(Fe)进入生物地球化学循环中能够调节碳循环,影响海洋初级生产力,间接影响全球气候变化。决定Fe生物可利用度的关键因子是可溶Fe含量,其中大气气溶胶的长距离传输是上层海洋获取生物可利用Fe的重要来源。近年来,对气溶胶中的Fe及溶解度的研究取得了重要进展,包括对不同区域Fe质量浓度和溶解度的观测以及对Fe溶解度影响因素的讨论。基于以上研究成果,汇总了近二十年全球部分陆地和海洋站点观测所得的不同粒径气溶胶颗粒物中的Fe质量浓度及其溶解度数据;重点介绍了气溶胶沉降入海洋前影响Fe溶解度的主要因素,包括Fe的来源、大气物理过程以及大气化学和传输混合过程等,并就各影响因素间的关联及相对重要性展开讨论;对未来气溶胶Fe的研究方向和方法提出建议。  相似文献   

雾霾天对青岛PM2.5中铁、磷浓度及溶解度的影响     

管阳  石金辉 《中国海洋大学学报(自然科学版)》2021,(4)

大气气溶胶中铁(Fe)和磷(P)溶解度决定了其沉降入海后对海洋初级生产及固碳能力的影响。本文分析了2017—2018年冬季在青岛采集的PM2.5样品中总态、溶解态Fe(Total Fe,TFe;Soluble Fe,SFe)和总态、溶解态P(Total P,TP;Soluble P,SP)浓度,讨论了雾、雾霾、霾和晴天对Fe和P浓度及溶解度的影响。平均而言,TFe浓度在雾天和雾霾天显著低于晴天,霾天则与晴天基本相当;SFe在雾天和雾霾天显著高于晴天,霾天也高于晴天,但二者无显著差异。Fe溶解度在雾天时最高,为16.8%,其次是雾霾天,平均为8.9%,霾天和晴天基本相当,为3.5%左右。TP与TFe和SP与SFe具有显著相关关系,其浓度变化趋势一致,但不同天气下P浓度的差异明显小于Fe。P溶解度在雾天和雾霾天约为80%,霾天时为45%,均显著高于晴天时的27%。PM2.5中Fe和P主要来自地壳源的贡献,未受人为活动影响时,Fe、P溶解度分别为1.5%~2%和16%~18%。大气酸化作用和相对湿度(Relative humidity,RH)的协同作用是不同天气条件下Fe、P溶解度产生差异的主要机制。霾天时气溶胶Fe、P溶解度明显低于雾霾天,其原因是霾天时低于60%的RH限制了大气酸化作用对溶解度的影响。  相似文献   

中国对虾肌动球蛋白变性后ATPase活性的研究   总被引：1，自引：0，他引：1  

林洪  王长峰  李兆杰  Ｋｈａｌｉｄ　 Ｊａｍｉｌ 《中国海洋大学学报(自然科学版)》1996,(4)

在中国对虾肌动球蛋白（Ａｏｔｏｍｙｏｓｉｎ）经冷冻变性和热变性后，对Ｃａ２＋－ＡＴＰａｓｅ、Ｍｇ２＋－ＡＴＰａｓｅ活性及蛋白质溶解度进行了研究。冷冻变性之后，肌动球蛋白Ｃａ２＋－ＡＴＰａｓｅ活性呈逐渐下降趋势，一般贮藏温度越低，活性降低越快。热变性之后，肌动球蛋白Ｃａ２＋或Ｍｇ２＋－ＡＴＰａｓｅ活性都随温度升高而下降，但肌动球蛋白Ｃａ２＋或Ｍｇ２＋－ＡＴＰａｓｅ活性在３５℃有一急剧下降的拐点，并分别在４５℃、４０℃附近低到０。由于蛋白质的变性，其溶解度也降低  相似文献