Smectite quantification in hydrothermally altered volcanic rocks

Léa Lévy; Thráinn Fridriksson; Nathaniel Findling; Bruno Lanson; Bernard Fraisse; Nicolas Marino; Benoit Gibert

doi:10.1016/j.geothermics.2019.101748

Smectite quantification in hydrothermally altered volcanic rocks

Léa Lévy, Thráinn Fridriksson, Nathaniel Findling, Bruno Lanson, Bernard Fraisse, Nicolas Marino, Benoit Gibert

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

In volcanic environments, the presence of smectite may indicate recent hydrothermal circulations. Smectite is also responsible for enhanced rock electrical conductivity, as well as mechanical weakening. Therefore, quantifying smectite is important in geothermal exploration. Smectite identification requires X-ray diffraction (XRD) but quantification based on XRD is time-consuming and not always accurate. In the present study, we investigate the use of an optimized unbuffered Cation Exchange Capacity (CEC) determination, by back-titration of the Copper-triethylenetetramine(II) “Cu-trien” molecule, to quantify the smectite content of altered volcanic rock samples. We establish that a satisfying trade-off between the instrument uncertainty and an independant systematic error is theoretically reached for a fraction of reactants consumed of about 30% at the end of the exchange reaction. We suggest a modification to classical protocols to fall in that range. Finally, we show that optimized CEC determination by Cu-trien are a direct measure of the smectite weight fraction in altered volcanic samples, with an average CEC of pure smectite of 90 ± 5 meq/100 g.

Originalspråk	engelska
Artikelnummer	101748
Tidskrift	Geothermics
Volym	85
DOI	https://doi.org/10.1016/j.geothermics.2019.101748
Status	Published - 2020 maj
Externt publicerad	Ja

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© 2019 Elsevier Ltd

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10.1016/j.geothermics.2019.101748

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@article{602e562a468146158f5802a888514e9a,

title = "Smectite quantification in hydrothermally altered volcanic rocks",

abstract = "In volcanic environments, the presence of smectite may indicate recent hydrothermal circulations. Smectite is also responsible for enhanced rock electrical conductivity, as well as mechanical weakening. Therefore, quantifying smectite is important in geothermal exploration. Smectite identification requires X-ray diffraction (XRD) but quantification based on XRD is time-consuming and not always accurate. In the present study, we investigate the use of an optimized unbuffered Cation Exchange Capacity (CEC) determination, by back-titration of the Copper-triethylenetetramine(II) “Cu-trien” molecule, to quantify the smectite content of altered volcanic rock samples. We establish that a satisfying trade-off between the instrument uncertainty and an independant systematic error is theoretically reached for a fraction of reactants consumed of about 30% at the end of the exchange reaction. We suggest a modification to classical protocols to fall in that range. Finally, we show that optimized CEC determination by Cu-trien are a direct measure of the smectite weight fraction in altered volcanic samples, with an average CEC of pure smectite of 90 ± 5 meq/100 g.",

author = "L{\'e}a L{\'e}vy and Thr{\'a}inn Fridriksson and Nathaniel Findling and Bruno Lanson and Bernard Fraisse and Nicolas Marino and Benoit Gibert",

note = "Funding Information: This work was supported by the IMAGE FP7 EC project (Integrated Methods for Advanced Geothermal Exploration, grant agreement No. 608553) and by a PhD grant from Paris Sciences et Lettres granted to L{\'e}a L{\'e}vy. Funding Information: L.L. thanks Sigurdur Sveinn J?nsson, Helga Margr?t Helgad?ttir and Bjarni Gautason for their help with identifying primary and alteration minerals in XRD patterns, thin sections and microscopic observations. L.L. thanks Heimir Ingimarsson, Christina Guenther and Ester Inga Eyj?lfsd?ttir for their help with the CEC determinations, as well as Iwona Monika Galezka and Kristinn I. Gudmundsson for ICP determinations and discussion of the results. L.L. also thanks Freysteinn Sigmundsson for critical reading of the manuscript, which helped improve much its quality. The authors thank Christophe Nevado, Doriane Delmas and Khaled Oubellouch for high-quality polished thin sections and Jacinthe Caillaud for electron probe data collection and analysis. The authors are also grateful to Landsvirkjun, and especially ?sgr?mur Gudmundsson, for providing rock samples used in this work. Finally, the authors thank editor Halldor ?rmannsson, as well as Reiner Dohrmann and another anonymous reviewer for their remarks and suggestions, which very much helped improve the manuscript. Publisher Copyright: {\textcopyright} 2019 Elsevier Ltd",

year = "2020",

month = may,

doi = "10.1016/j.geothermics.2019.101748",

language = "English",

volume = "85",

journal = "Geothermics",

issn = "0375-6505",

publisher = "Elsevier",

}

TY - JOUR

T1 - Smectite quantification in hydrothermally altered volcanic rocks

AU - Lévy, Léa

AU - Fridriksson, Thráinn

AU - Findling, Nathaniel

AU - Lanson, Bruno

AU - Fraisse, Bernard

AU - Marino, Nicolas

AU - Gibert, Benoit

N1 - Funding Information: This work was supported by the IMAGE FP7 EC project (Integrated Methods for Advanced Geothermal Exploration, grant agreement No. 608553) and by a PhD grant from Paris Sciences et Lettres granted to Léa Lévy. Funding Information: L.L. thanks Sigurdur Sveinn J?nsson, Helga Margr?t Helgad?ttir and Bjarni Gautason for their help with identifying primary and alteration minerals in XRD patterns, thin sections and microscopic observations. L.L. thanks Heimir Ingimarsson, Christina Guenther and Ester Inga Eyj?lfsd?ttir for their help with the CEC determinations, as well as Iwona Monika Galezka and Kristinn I. Gudmundsson for ICP determinations and discussion of the results. L.L. also thanks Freysteinn Sigmundsson for critical reading of the manuscript, which helped improve much its quality. The authors thank Christophe Nevado, Doriane Delmas and Khaled Oubellouch for high-quality polished thin sections and Jacinthe Caillaud for electron probe data collection and analysis. The authors are also grateful to Landsvirkjun, and especially ?sgr?mur Gudmundsson, for providing rock samples used in this work. Finally, the authors thank editor Halldor ?rmannsson, as well as Reiner Dohrmann and another anonymous reviewer for their remarks and suggestions, which very much helped improve the manuscript. Publisher Copyright: © 2019 Elsevier Ltd

PY - 2020/5

Y1 - 2020/5

N2 - In volcanic environments, the presence of smectite may indicate recent hydrothermal circulations. Smectite is also responsible for enhanced rock electrical conductivity, as well as mechanical weakening. Therefore, quantifying smectite is important in geothermal exploration. Smectite identification requires X-ray diffraction (XRD) but quantification based on XRD is time-consuming and not always accurate. In the present study, we investigate the use of an optimized unbuffered Cation Exchange Capacity (CEC) determination, by back-titration of the Copper-triethylenetetramine(II) “Cu-trien” molecule, to quantify the smectite content of altered volcanic rock samples. We establish that a satisfying trade-off between the instrument uncertainty and an independant systematic error is theoretically reached for a fraction of reactants consumed of about 30% at the end of the exchange reaction. We suggest a modification to classical protocols to fall in that range. Finally, we show that optimized CEC determination by Cu-trien are a direct measure of the smectite weight fraction in altered volcanic samples, with an average CEC of pure smectite of 90 ± 5 meq/100 g.

AB - In volcanic environments, the presence of smectite may indicate recent hydrothermal circulations. Smectite is also responsible for enhanced rock electrical conductivity, as well as mechanical weakening. Therefore, quantifying smectite is important in geothermal exploration. Smectite identification requires X-ray diffraction (XRD) but quantification based on XRD is time-consuming and not always accurate. In the present study, we investigate the use of an optimized unbuffered Cation Exchange Capacity (CEC) determination, by back-titration of the Copper-triethylenetetramine(II) “Cu-trien” molecule, to quantify the smectite content of altered volcanic rock samples. We establish that a satisfying trade-off between the instrument uncertainty and an independant systematic error is theoretically reached for a fraction of reactants consumed of about 30% at the end of the exchange reaction. We suggest a modification to classical protocols to fall in that range. Finally, we show that optimized CEC determination by Cu-trien are a direct measure of the smectite weight fraction in altered volcanic samples, with an average CEC of pure smectite of 90 ± 5 meq/100 g.

U2 - 10.1016/j.geothermics.2019.101748

DO - 10.1016/j.geothermics.2019.101748

M3 - Article

AN - SCOPUS:85075473775

SN - 0375-6505

VL - 85

JO - Geothermics

JF - Geothermics

M1 - 101748

ER -

Smectite quantification in hydrothermally altered volcanic rocks

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