Chlorite, Biotite, Illite, Muscovite and Feldspar Dissolution Kinetics at Variable pH and Temperatures up to 280 deg C

Chemical reactions pose an important but poorly understood threat to EGS long-term success because of their impact on fracture permeability. This report summarizes the dissolution rate equations for layered silicates where data were lacking for geothermal systems. Here we report updated rate laws for chlorite (Carroll and Smith 2013), biotite (Carroll and Smith, 2015), illite (Carroll and Smith, 2014), and for muscovite. Also included is a spreadsheet with rate data and rate equations for use in reactive transport simulators.

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Dissolution Kinetics at Variable pH and...DOC
Report summarizing dissolution of biotite, chlorite, illite, muscovite, and...
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Dissolution Rates.xlsxXLS
Biotite, chlorite, illite, muscovite, and feldspar dissolution rates and data...
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Campo	Valore
DOI	10.15121/1441454
accessLevel	public
bureauCode	{019:20}
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datagov_dedupe_retained	20250120155001
identifier	https://data.openei.org/submissions/7086
issued	2017-02-24T07:00:00Z
landingPage	https://gdr.openei.org/submissions/910
license	https://creativecommons.org/licenses/by/4.0/
modified	2018-06-13T17:05:44Z
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programCode	{019:006}
projectLead	Lauren Boyd
projectNumber	FY14 AOP 1422
projectTitle	The Viability of Sustainable, Self-Propping Shear Zones in Enhanced Geothermal Systems: Measurement of Reaction Rates at Elevated Temperatures
publisher	Lawrence Livermore National Laboratory
resource-type	Dataset
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Gruppi	AmeriGEOSS National Provider North America
Tag	AmeriGEO AmeriGEOSS CKAN GEO GEOSS National North America United States biotite chemistry chlorite dissolution egs energy enhanced-geothermal-systems feldspar fracture-permeability geochemistry geothermal illite kinetic-data kinetics muscovite rate-equations success
isopen	True
license_id	cc-by
license_title	Creative Commons Attribution
license_url	http://www.opendefinition.org/licenses/cc-by
maintainer	Susan Carroll
maintainer_email	carroll6@llnl.gov
metadata_created	2025-09-24T03:11:01.600479
metadata_modified	2025-09-24T03:11:01.600490
notes	Chemical reactions pose an important but poorly understood threat to EGS long-term success because of their impact on fracture permeability. This report summarizes the dissolution rate equations for layered silicates where data were lacking for geothermal systems. Here we report updated rate laws for chlorite (Carroll and Smith 2013), biotite (Carroll and Smith, 2015), illite (Carroll and Smith, 2014), and for muscovite. Also included is a spreadsheet with rate data and rate equations for use in reactive transport simulators.
num_resources	2
num_tags	25
title	Chlorite, Biotite, Illite, Muscovite and Feldspar Dissolution Kinetics at Variable pH and Temperatures up to 280 deg C