Electrical conductivity of HCl-bearing aqueous fluids to 700 oC and 1 GPa

Klumbach Steffen; Keppler Hans

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Electrical conductivity of HCl-bearing aqueous fluids to 700 oC and 1 GPa

机译：HCl含水液的电导率至700℃和1GPa

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Subsurface magmatic-hydrothermal systems are often associated with elevated electrical conductivities in the Earth's crust. To facilitate the interpretation of these data and to allow distinguishing between the effects of silicate melts and fluids, the electrical conductivity of aqueous fluids in the system H2O-HCl was measured in an externally heated diamond anvil cell. Data were collected to 700 degrees C and 1 GPa, for HCl concentrations equivalent to 0.01, 0.1, and 1 mol/l at ambient conditions. The data, therefore, more than double the pressure range of previous measurements and extend them to geologically realistic HCl concentrations. The conductivities sigma (in S/m) are well reproduced by a numerical model log sigma = -2.032 + 205.8 T-1 + 0.895 log c + 3.888 log rho + log0(T,rho), where T is the temperature in K, c is the HCl concentration in wt. %, and rho is the density of pure water at the corresponding pressure and temperature conditions. T,rho) is the limiting molar conductivity (in S cm(2) mol(-1)) at infinite dilution, (T,rho) = 2550.14 - 505.10 rho - 429,437 T-1. A regression fit of more than 800 data points to this model yielded R-2 = 0.95. Conductivities increase with pressure and fluid densities due to an enhanced dissociation of HCl. However, at constant pressures, conductivities decrease with temperature because of reduced dissociation. This effect is particularly strong at shallow crustal pressures of 100-200 MPa and can reduce conductivities by two orders of magnitude. We, therefore, suggest that the low conductivities sometimes observed at shallow depths below the volcanic centers in magmatic-hydrothermal systems may simply reflect elevated temperatures. The strong negative temperature effect on fluid conductivities may offer a possibility for the remote sensing of temperature variations in such systems and may allow distinguishing the effects of magma intrusions from changes in hydrothermal circulation. The generally very high conductivities of HCl-NaCl-H2O fluids at deep crustal pressures (500 MPa-1 GPa) imply that electrical conductors in the deep crust, as in the Altiplano magmatic province and elsewhere, may at least partially be due to hydrothermal activity.

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来源
《Contributions to Mineralogy and Petrology》 |2020年第12期|共10页
作者
Klumbach Steffen; Keppler Hans;
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作者单位

Univ Bayreuth Bayer Geoinst D-95440 Bayreuth Germany;

Univ Bayreuth Bayer Geoinst D-95440 Bayreuth Germany;

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原文格式 PDF
正文语种 eng
中图分类矿物学;岩石学;
关键词
Electrical conductivity; Fluid; HCl; Hydrothermal systems; Magnetotelluric data;

机译：电导率;流体;HCl;水热系统;磁函数数据;

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10. Electrical conductivity of HCl-bearing aqueous fluids to 700 ºC and 1 GPa [O] . Steffen Klumbach, Hans Keppler 2020

机译：HCl含水液的电导率至700ºC和1GPa
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机译：电导率和液氮，氧，苯和1-丁烯的状态方程冲击到60 Gpa

Electrical conductivity of HCl-bearing aqueous fluids to 700 oC and 1 GPa

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