1985
DOI: 10.1002/er.4440090305
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Formation of geothermal resources at lithospheric subduction zones

Abstract: This paper examines in a very broad fashion the formation of geothermal resources at lithospheric subduction zones. Regions of highly silicic calc‐alkaline Quaternary volcanoes and/or plutons have been identified as prime candidates for having high‐temperature hydrothermal systems. Regions of large tholeiitic Quaternary volcanoes have been identified as prime candidates for having large moderate‐temperature hydrothermal systems. In addition, active magmatic, phreatomagnetic, and/or tectonic fracturing must be … Show more

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“…Direct precipitation of chlorite or illite has frequently been mentioned in hydrothermal systems in which infiltrating aqueous fluids achieve greater degrees of supersaturation in terms of clay minerals at temperatures >200°C (Simmons & Browne, 2000; and references therein). In hydrothermal systems, it seems likely that clay minerals can precipitate at lower temperatures from supersaturated fluids because the large activation energies can be attained by rapid cooling of upwelling high-temperature geothermal solutions and by fracture-controlled mixing of hydrothermal fluids with different compositions and/or temperatures (Reeder, 1985). Because direct precipitation can also explain the discontinuous transformation of saponite to corrensite and corrensite to chlorite, additional investigations are necessary for providing insight regarding the formation mechanisms of chlorite and its mixed-layer relatives in low-temperature hydrothermal systems.…”
Section: Discussionmentioning
confidence: 99%
“…Direct precipitation of chlorite or illite has frequently been mentioned in hydrothermal systems in which infiltrating aqueous fluids achieve greater degrees of supersaturation in terms of clay minerals at temperatures >200°C (Simmons & Browne, 2000; and references therein). In hydrothermal systems, it seems likely that clay minerals can precipitate at lower temperatures from supersaturated fluids because the large activation energies can be attained by rapid cooling of upwelling high-temperature geothermal solutions and by fracture-controlled mixing of hydrothermal fluids with different compositions and/or temperatures (Reeder, 1985). Because direct precipitation can also explain the discontinuous transformation of saponite to corrensite and corrensite to chlorite, additional investigations are necessary for providing insight regarding the formation mechanisms of chlorite and its mixed-layer relatives in low-temperature hydrothermal systems.…”
Section: Discussionmentioning
confidence: 99%