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Experimental approach for understanding non-equilibrium granite fluid interactions under supercritical hydrothermal conditions

机译：理解超临界水热条件下非平衡花岗岩流体相互作用的实验方法

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Water-rock interaction under sub-and supercritical hydrothermal flow conditions has been carried out by using a flow-through type autoclave with a temperature gradient in order to predict the dissolution and precipitation behavior of granite. Reaction temperature ranges from 325 to 505 °C. Dissolution of granite increased with temperature in the subcritical region (325-380 °C) and decreased in the supercritical region (400-505 °C). A precipitation dominant zone was recognized within the supercritical region. Elsewhere, quartz was the main dissolved mineral, and no distinctive dissolution of other minerals was observed. Depending on conditions of temperature and pressure, dissolution and precipitation phenomena in granite could be drastically changed due to properties of the fluid such as 'liquid-like' and /or 'vapor-like' regions under supercritical condition.

机译：为了预测花岗岩的溶解和沉淀行为，已经通过使用具有温度梯度的流通式高压釜在亚临界和超临界热液流动条件下进行了水-岩相互作用。反应温度为325至505℃。在亚临界区域（325-380°C），花岗岩的溶解度随温度升高而增加;在超临界区域（400-505°C），花岗岩的溶解度降低。在超临界区域内发现了一个降水占优势的区域。在其他地方，石英是主要的溶解矿物，未观察到其他矿物的明显溶解。根据温度和压力的条件，在超临界条件下，由于流体的性质（例如“类液体”和/或“类蒸气”），花岗岩中的溶解和沉淀现象可能会发生巨大变化。

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《Water-Rock Interaction》|2007年|P.391-394|共4页
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N. Tsuchiya; K. Takagi; N. Hirano; G. Bignall;
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中图分类地质学;
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1. Low-temperature hydrothermal interactions between granite and solutions containing Cs, Rb, and Sr: an experimental approach [J] . Dr??bek M Bulletin of geosciences . 2005,第2期

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机译：超临界水热条件下理解非平衡花岗岩流体相互作用的实验方法
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8. Electrochemistry in Near-Critical and Supercritical Fluids. 8. Methyl Viologen, Decamethylferrocene, Os(bpy)3(2+) and Ferrocene in Acetonitrile and the Effect of Pressure on Diffusion Coefficients under Supercritical Conditions. [R] . Cabrera, C. R., Bard, A. J. 1989

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Experimental approach for understanding non-equilibrium granite fluid interactions under supercritical hydrothermal conditions

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