Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:

Enhanced weathering of olivine has been suggested as a measure to lower the atmospheric CO2 level and it might also mitigate ocean acidification. This study aimed to characterise how olivine can weather in seawater, to elucidate the role of secondary precipitation and to ascertain the efficiency in...

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Bibliographic Details
Main Author: Griffioen, J.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier B.V. 2017
Subjects:
Geosciences
Calcium carbonate
CO2
Enhanced weathering
Geochemical modelling
Ocean acidification
Olivine
Sepiolite
Geological Survey Netherlands
2015 Energy
Geo
GM - Geomodelling
ELSS - Earth
Life and Social Sciences
Online Access:http://resolver.tudelft.nl/uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5
id fttno:oai:tudelft.nl:uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5
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spelling fttno:oai:tudelft.nl:uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5 2023-05-15T17:50:12+02:00 Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis: Griffioen, J. 2017-01-01 http://resolver.tudelft.nl/uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5 en eng Elsevier B.V. uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5 575380 http://resolver.tudelft.nl/uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5 Science of the Total Environment, 575, 536-544 Geosciences Calcium carbonate CO2 Enhanced weathering Geochemical modelling Ocean acidification Olivine Sepiolite Geological Survey Netherlands 2015 Energy Geo GM - Geomodelling ELSS - Earth Life and Social Sciences article 2017 fttno 2022-04-10T16:46:26Z Enhanced weathering of olivine has been suggested as a measure to lower the atmospheric CO2 level and it might also mitigate ocean acidification. This study aimed to characterise how olivine can weather in seawater, to elucidate the role of secondary precipitation and to ascertain the efficiency in terms of molar CO2 removal per mole of olivine dissolution. Geochemical thermodynamic equilibrium modelling was used, which considered both the variable mineralogical composition of olivine and the kinds of secondary precipitates that may be formed. The advantage is that such an approach is independent from local or regional factors as temperature, related kinetics, mineralogy, etc. The results show that the efficiency falls when secondary precipitates are formed. When Fe-bearing olivine undergoes weathering in an oxic environment, Fe(III) hydroxides will inevitably be formed, and as a result of this acidifying process, CO2 could be released to the atmosphere. This might also enhance ocean acidification when Fe-rich olivine becomes used. Ocean alkalinisation only happens when more than 1 mol/kgH2O Mg-rich olivine weathers. Maintenance of supersaturation for calcite or aragonite as holds in seawater reduces the efficiency by about a factor of two compared to the efficiency without secondary precipitation. Precipitation of sepiolite as Mg silicate reduces the efficiency even more. Magnesite precipitation has a similar effect to Ca carbonate precipitation, but according to the literature magnesite precipitation is improbable at ambient conditions and relatively low supersaturation. When less than 0.05 mmol olivine/kg(seawater) weathers the efficiency is slightly different than at higher intensities, due to strong buffering by seawater alkalinity. © 2016 The Author Article in Journal/Newspaper Ocean acidification TU Delft: Institutional Repository (Delft University of Technology)
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Geosciences
Calcium carbonate
CO2
Enhanced weathering
Geochemical modelling
Ocean acidification
Olivine
Sepiolite
Geological Survey Netherlands
2015 Energy
Geo
GM - Geomodelling
ELSS - Earth
Life and Social Sciences
spellingShingle Geosciences
Calcium carbonate
CO2
Enhanced weathering
Geochemical modelling
Ocean acidification
Olivine
Sepiolite
Geological Survey Netherlands
2015 Energy
Geo
GM - Geomodelling
ELSS - Earth
Life and Social Sciences
Griffioen, J.
Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
topic_facet Geosciences
Calcium carbonate
CO2
Enhanced weathering
Geochemical modelling
Ocean acidification
Olivine
Sepiolite
Geological Survey Netherlands
2015 Energy
Geo
GM - Geomodelling
ELSS - Earth
Life and Social Sciences
description Enhanced weathering of olivine has been suggested as a measure to lower the atmospheric CO2 level and it might also mitigate ocean acidification. This study aimed to characterise how olivine can weather in seawater, to elucidate the role of secondary precipitation and to ascertain the efficiency in terms of molar CO2 removal per mole of olivine dissolution. Geochemical thermodynamic equilibrium modelling was used, which considered both the variable mineralogical composition of olivine and the kinds of secondary precipitates that may be formed. The advantage is that such an approach is independent from local or regional factors as temperature, related kinetics, mineralogy, etc. The results show that the efficiency falls when secondary precipitates are formed. When Fe-bearing olivine undergoes weathering in an oxic environment, Fe(III) hydroxides will inevitably be formed, and as a result of this acidifying process, CO2 could be released to the atmosphere. This might also enhance ocean acidification when Fe-rich olivine becomes used. Ocean alkalinisation only happens when more than 1 mol/kgH2O Mg-rich olivine weathers. Maintenance of supersaturation for calcite or aragonite as holds in seawater reduces the efficiency by about a factor of two compared to the efficiency without secondary precipitation. Precipitation of sepiolite as Mg silicate reduces the efficiency even more. Magnesite precipitation has a similar effect to Ca carbonate precipitation, but according to the literature magnesite precipitation is improbable at ambient conditions and relatively low supersaturation. When less than 0.05 mmol olivine/kg(seawater) weathers the efficiency is slightly different than at higher intensities, due to strong buffering by seawater alkalinity. © 2016 The Author
format Article in Journal/Newspaper
author Griffioen, J.
author_facet Griffioen, J.
author_sort Griffioen, J.
title Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
title_short Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
title_full Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
title_fullStr Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
title_full_unstemmed Enhanced weathering of olivine in seawater: The efficiency as revealed by thermodynamic scenario analysis:
title_sort enhanced weathering of olivine in seawater: the efficiency as revealed by thermodynamic scenario analysis:
publisher Elsevier B.V.
publishDate 2017
url http://resolver.tudelft.nl/uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5
genre Ocean acidification
genre_facet Ocean acidification
op_source Science of the Total Environment, 575, 536-544
op_relation uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5
575380
http://resolver.tudelft.nl/uuid:eb9db60e-b2c4-4d21-8461-0b3e53dfcfc5
_version_ 1766156853686829056

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