Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids

Zhong Richen; Brugger Joel; Chen Yanjing; Li Wenbo

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Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids

机译：成矿热液中Cu，Zn和Pb运移的对比机制

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Sulfur and chlorine are the two most important ligands accounting for metal transport in the upper crust. In this study, four metal- and sulfur-saturated model fluids with varying salinities and redox states were simulated in the Fe-Cu-Pb-Zn-Au-S-C-H-O system, over a wide pressure-temperature (P-T) range (50-650 degrees C, 0.8-5.0 kbar), in order to compare the roles of chloride and bisulfide complexing for metal transport at the light of the latest available thermodynamic properties. The range in simulated Zn and Pb concentrations of the model fluids compares well with those of natural hydrothermal fluids, suggesting that the model can be used to evaluate hydrothermal ore-forming processes in Nature.

机译：硫和氯是两个最重要的配体，它们解释了上地壳中金属的迁移。在这项研究中，在宽的压力-温度（PT）范围内（50-650），在Fe-Cu-Pb-Zn-Au-SCHO系统中模拟了四种盐度和氧化还原状态不同的金属和硫饱和的模型流体。 C，0.8-5.0 kbar），以根据最新的热力学性质比较氯化物和二硫化物络合在金属传输中的作用。模型流体模拟的Zn和Pb浓度范围与天然热液流体的模拟范围很好，这表明该模型可用于评估Nature中的热液成矿过程。

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《Chemical geology》 |2015年第null期|共11页
作者
Zhong Richen; Brugger Joel; Chen Yanjing; Li Wenbo;
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正文语种 eng
中图分类地球化学;
关键词
Thermodynamic modeling; Au-Cu-Pb-Zn; Metal transport; Chloride complexing; Hydrosulfide complexing;

机译：热力学模型;Au-Cu-Pb-Zn;金属迁移;氯离子络合物;氢硫化物络合物;

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1. Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids [J] . Zhong Richen, Brugger Joel, Chen Yanjing, Chemical geology . 2015,第Null期

机译：成矿热液中Cu，Zn和Pb运移的对比机制
2. Origin of ore-forming fluids of the Zn-Pb-(Cu) deposits in the Jinbao mine district of eastern Guizhou Province, China: Evidence from chemical compositions of fluid inclusions and their lithium isotopes [J] . Xu Lin, Lu Chongguang, Wen Hanjie, Geochemical Journal . 2018,第6期

机译：贵州省金宝矿区锌矿山矿床的矿石矿石的起源：来自流体包裹物的化学成分及其锂同位素的证据
3. Hydrothermal Transport of Ag, Au, Cu, Pb, Te, Zn, and Other Metals and Metalloids in New Zealand Geothermal Systems: Spatial Patterns, Fluid-Mineral Equilibria, and Implications for Epithermal Mineralization [J] . Simmons Stuart F., Brown Kevin L., Tutolo Benjamin M. Economic geology and the bulletin of the Society of Economic Geologists . 2016,第3期

机译：新西兰地热系统中Ag，Au，Cu，Pb，Te，Zn和其他金属和准金属的水热传输：空间格局，流体-矿物平衡及其对超热矿化的影响
4. Evolution of Ore-forming Fluid of the Bafangshan-Erlihe Pb-Zn-Cu Deposit in the Fengtai Ore Cluster, West Qinling, China: Evidence from Stable Isotopes and Fluid Inclusions [C] . HU Qiaoqing, WANG Yitian, LIU Xielu, Quadrennial International Association on the Genesis of Ore Deposits Symposium;Geological Society of China . 2014

机译：西秦岭丰台矿区八方山-二里河铅锌铜矿床成矿流体演化：来自稳定同位素和流体包裹体的证据
5. The hydrology of carbonate-hosted Pb-Zn-Cu ore formation in Southeast Missouri: Numerical models for reactive fluid flow and heat transfer during the Ouachita orogeny. [D] . Appold, Martin Stephan. 1998

机译：密苏里州东南部碳酸盐岩含铅Pb-Zn-Cu矿石形成的水文学：瓦希塔造山运动中反应性流体流动和传热的数值模型。
6. Transport of Pb and Zn by carboxylate complexes in basinal ore fluids and related petroleum-field brines at 100°C: the influence of pH and oxygen fugacity [O] . Thomas H Giordano 2002

机译：羧酸盐配合物在100°C下的盆地矿液和相关油田盐水中对Pb和Zn的迁移：pH和氧逸度的影响
7. Comment on “Origin and evolution of hydrothermal fluids in epithermal Pb-Zn-Cu + Au + Ag deposits at Koru and Tesbihdere mining districts, Canakkale, Biga Peninsula, NW Turkey” by Mustafa Cicek and Tolga Oyman, [Ore Geology Review, 2016, 78, 176–195] [O] . Banks, DA, Bozkaya, G, Bozkaya, O 2017

机译：评论“土耳其土耳其北部恰纳卡莱郡Koru和Tesbihdere矿区浅成低温热液pb-Zn-Cu + au + ag矿床热液流体的成因和演化”，作者：mustafa Cicek和Tolga Oyman，[矿石地质评论，2016， 78,176-195]

Contrasting regimes of Cu, Zn and Pb transport in ore-forming hydrothermal fluids

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