[HTML][HTML] An overview of the status and challenges of CO2 storage in minerals and geological formations
Since the Industrial Revolution, anthropogenic carbon dioxide (CO2) emissions have grown
exponentially, accumulating in the atmosphere and leading to global warming. According to …
exponentially, accumulating in the atmosphere and leading to global warming. According to …
Hydrogeology of weathered crystalline/hard-rock aquifers—guidelines for the operational survey and management of their groundwater resources
P Lachassagne, B Dewandel, R Wyns - Hydrogeology Journal, 2021 - Springer
Hard rocks or crystalline rocks (ie, plutonic and metamorphic rocks) constitute the basement
of all continents, and are particularly exposed at the surface in the large shields of Africa …
of all continents, and are particularly exposed at the surface in the large shields of Africa …
Molecular-scale mechanisms of CO2 mineralization in nanoscale interfacial water films
The calamitous impacts of unabated carbon emission from fossil-fuel-burning energy
infrastructure call for accelerated development of large-scale CO2 capture, utilization and …
infrastructure call for accelerated development of large-scale CO2 capture, utilization and …
A review of mineral carbonation technology in sequestration of CO2
AA Olajire - Journal of Petroleum Science and Engineering, 2013 - Elsevier
Mineral carbonation technology (MCT) is a process whereby CO 2 is chemically reacted with
calcium-and/or magnesium-containing minerals to form stable carbonate materials which do …
calcium-and/or magnesium-containing minerals to form stable carbonate materials which do …
Engineered carbon mineralization in ultramafic rocks for CO2 removal from air: Review and new insights
Carbon Dioxide removal from air (CDR) combined with permanent solid storage can be
accomplished via carbon mineralization in ultramafic rocks in at least four ways: 1. Surficial …
accomplished via carbon mineralization in ultramafic rocks in at least four ways: 1. Surficial …
Rates and Mechanisms of Mineral Carbonation in Peridotite: Natural Processes and Recipes for Enhanced, in situ CO2 Capture and Storage
Near-surface reaction of CO2-bearing fluids with silicate minerals in peridotite and basalt
forms solid carbonate minerals. Such processes form abundant veins and travertine …
forms solid carbonate minerals. Such processes form abundant veins and travertine …
A review on ex situ mineral carbonation
S Yadav, A Mehra - Environmental science and pollution research, 2021 - Springer
The increased CO 2 quantities in the environment have led to many harmful effects.
Therefore, it is very important to decrease the CO 2 levels in the environment. CO 2 capture …
Therefore, it is very important to decrease the CO 2 levels in the environment. CO 2 capture …
[HTML][HTML] A comprehensive review of enhanced in-situ CO2 mineralisation in Australia and New Zealand
The urgent need to accelerate permanent anthropogenic carbon dioxide (CO 2) abatement
has led to a growing interest in in-situ CO 2 mineralisation globally. This review outlines the …
has led to a growing interest in in-situ CO 2 mineralisation globally. This review outlines the …
Carbon mineralization: from natural analogues to engineered systems
Carbon mineralization sequesters CO2 by reaction of alkaline earth metal bearing silicate
and hydroxide minerals with CO2 to form stable carbonate minerals. Seifritz (1990) …
and hydroxide minerals with CO2 to form stable carbonate minerals. Seifritz (1990) …
Reaction-driven cracking during retrograde metamorphism: Olivine hydration and carbonation
PB Kelemen, G Hirth - Earth and Planetary Science Letters, 2012 - Elsevier
Retrograde metamorphism (mineral hydration, carbonation and oxidation) is important in
controlling the composition and rheology of the Earth's crust and upper mantle, particularly …
controlling the composition and rheology of the Earth's crust and upper mantle, particularly …