G. Ó. Friðleifsson scite author profile

In well NJ-15 of the Nesjavellir geothermal field, Iceland, the transition of discrete smectite into discrete chlorite has been studied from drill cuttings recovered at depths of less than 1714 m and over a continuous range of temperatures between 60 and 300" C. At temperatures below 180" C, the clay fractions contain mixtures of di-and trioctahedral smectites, whose layer charge increases with depth. Between 200 and 240" C, discrete smectites have transformed into smectite-rich, randomly interstratified chlorite and smecite (RO C/S). Because the abundance of chlorite interlayers in this C/S is generally <20%, its presence can be detected only by electron microprobe techniques and not by X-ray diffraction. Between 245 and 265" C, both regularly (Rl) and randomly interstratified C/S are the predominant layer silicates. Discrete chlorite first appears at approximately 270°C and coexists with minor amounts of RO C/S at higher temperatures.RO and R1 C/S form a nearly complete compositional series between trioctahedral saponite and discrete chlorite end-members. The interlayer cation and Si content of smectites and C/S decrease with increasing temperature. The Mg/(Mg + Fe) content of smectite, C/S, and chlorite is unrelated to temperature. The percentage of chlorite in C/S, as determined by electron microprobe analyses, increases continuously with increasing temperature, except for occurrences of smectite-rich C/S in fresh basaltic dykes which have not thermally equilibrated with the higher grade country rocks.

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Hydrothermal alteration in the Reykjanes geothermal system: Insights from Iceland deep drilling program well RN-17

Marks

Schiffman

Zierenberg

et al. 2010

Journal of Volcanology and Geothermal Research

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Geology and structure of the Reykjanes volcanic system, Iceland

Sæmundsson

Sigurgeirsson

Friðleifsson³

2020

Journal of Volcanology and Geothermal Research

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The Iceland Deep Drilling Project: a search for deep unconventional geothermal resources

2005

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Origin of a rhyolite that intruded a geothermal well while drilling at the Krafla volcano, Iceland

Elders¹,

Friðleifsson²,

Zierenberg³

et al. 2011

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Magma fl owed into an exploratory geothermal well at 2.1 km depth being drilled in the Krafl a central volcano in Iceland, creating a unique opportunity to study rhyolite magma in situ in a basaltic environment. The quenched magma is a partly vesicular, sparsely phyric, glass containing ~1.8% of dissolved volatiles. Based on calculated H 2 O-CO 2 saturation pressures, it degassed at a pressure intermediate between hydrostatic and lithostatic, and geothermometry indicates that the crystals in the melt formed at ~900 °C. The glass shows no signs of hydrothermal alteration, but its hydrogen and oxygen isotopic ratios are much lower than those of typical mantle-derived magmas, indicating that this rhyolite originated by anhydrous mantle-derived magma assimilating partially melted hydrothermally altered basalts.

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