Add to ORKGCO2 sequestration by magnesium silicate mineral is the only known process that can permanently store CO2 using a natural feedstock that exists in sufficient quantities to be used practically. Transporting large amounts of mineral over long distances is uneconomical. For Canada to benefit from such a process, identification of suitable Canadian magnesium silicate mineral deposits is crucial. Only carbonation under pressure in NaCl and NaCl/NaHCO3 solutions results in high Mg conversions (40-80%). Among the minerals examined in this study, the serpentines reacted most easily, and peridotite was the most difficult to carbonate. Increasing carbonation pressure to very high levels reduced the degree of carbonation as hydrolysis reactions became ...
AbstractCO2 mineral sequestration, or mineral carbonation, is presumably the most important CCS alte...
Predictions of global energy usage and demand trends suggest that fossil fuels will remain as the ma...
Fixing carbon dioxide (CO2) as carbonates using silicate-based materials is an interesting alternati...
Mineral carbon dioxide sequestration binds CO2 by reacting it with calcium or magnesium silicate min...
Carbonation of magnesium- and calcium-silicate minerals to form their respective carbonates is one m...
Mineral carbonation (MC) has been extensively researched all over the world since it was found as a ...
Fixation of CO2 from fossil fuel combustion in the form of solid carbonates appears to be a realisti...
The dramatic increase in atmospheric carbon dioxide since the Industrial Revolution has caused conce...
Abstract: Mineral carbonation is the formation of stable calcium, magnesium, and iron carbonates fr...
Capture and storage of carbon dioxide (CO2) is internationally considered to be one of the main opti...
In Finland, work on carbonation of minerals for long-term storage has been ongoing for several years...
Direct mineral carbonation has been investigated as a process to convert gaseous CO2 into a geologic...
Magnesium hydroxide, Mg(OH)2, has great potential for CO2 capture and storage (CCS) as it can captur...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
AbstractCO2 mineral sequestration, or mineral carbonation, is presumably the most important CCS alte...
Predictions of global energy usage and demand trends suggest that fossil fuels will remain as the ma...
Fixing carbon dioxide (CO2) as carbonates using silicate-based materials is an interesting alternati...
Mineral carbon dioxide sequestration binds CO2 by reacting it with calcium or magnesium silicate min...
Carbonation of magnesium- and calcium-silicate minerals to form their respective carbonates is one m...
Mineral carbonation (MC) has been extensively researched all over the world since it was found as a ...
Fixation of CO2 from fossil fuel combustion in the form of solid carbonates appears to be a realisti...
The dramatic increase in atmospheric carbon dioxide since the Industrial Revolution has caused conce...
Abstract: Mineral carbonation is the formation of stable calcium, magnesium, and iron carbonates fr...
Capture and storage of carbon dioxide (CO2) is internationally considered to be one of the main opti...
In Finland, work on carbonation of minerals for long-term storage has been ongoing for several years...
Direct mineral carbonation has been investigated as a process to convert gaseous CO2 into a geologic...
Magnesium hydroxide, Mg(OH)2, has great potential for CO2 capture and storage (CCS) as it can captur...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
In this work, the potential of CO2 mineral carbonation of brucite (Mg(OH)2) derived from the Mount T...
AbstractCO2 mineral sequestration, or mineral carbonation, is presumably the most important CCS alte...
Predictions of global energy usage and demand trends suggest that fossil fuels will remain as the ma...
Fixing carbon dioxide (CO2) as carbonates using silicate-based materials is an interesting alternati...