Add to ORKGABSTRACT: The availability of industrial alkalinity sources is investigated to determine their potential for the simultaneous capture and sequestration of CO2 from point-source emissions in the United States. Industrial alkalinity sources investigated include fly ash, cement kiln dust, and iron and steel slag. Their feasibility for mineral carbonation is determined by their relative abundance for CO2 reactivity and their proximity to point-source CO2 emissions. In addition, the available aggregate markets are investigated as possible sinks for mineral carbonation products. We show that in the U.S., industrial alkaline byproducts have the potential to mitigate approximately 7.6 Mt CO2/yr, of which 7.0 Mt CO2/yr are CO2 captured through miner...
AbstractThe increasing factitious carbon dioxide emission, mainly caused by fossil fuel combustion, ...
Steelmaking slag mineral carbonation is a possible technology for the reduction of carbon dioxide (C...
Carbon sequestration through the formation of carbonates is a potential means to reduce CO 2 emissio...
Since the beginning of the industrial revolution, the anthropogenic emissions of carbon dioxide, whi...
Mineral CO2 sequestration, i.e., carbonation of alkaline silicate Ca/Mg minerals, analogous to natur...
Alkaline industrial residues can be suitable materials for carbon dioxide sequestration through mine...
Accelerated carbonation is a carbon utilization option which allows the manufacturing of useful prod...
Mitigating global climate change is probably the largest environmental challenge of our age. Althoug...
peer reviewedMineral carbonation is a carbon utilisation technology in which an alkaline material re...
Alkaline wastes have been the focus of many studies as they act as CO2 sinks and have the potential ...
Alkaline wastes have been the focus of many studies as they act as CO2 sinks and have the potential ...
Besides producing a substantial portion of anthropogenic CO2 emissions, the industrial sector also g...
Carbon dioxide (CO2) as the most vital greenhouse gas in the earth’s atmosphere plays a major role i...
A recent approach to reduce the carbon footprint of industries with process-inherent CO2 emissions i...
A recent approach to reduce the carbon footprint of industries with process-inherent CO2 emissions i...
AbstractThe increasing factitious carbon dioxide emission, mainly caused by fossil fuel combustion, ...
Steelmaking slag mineral carbonation is a possible technology for the reduction of carbon dioxide (C...
Carbon sequestration through the formation of carbonates is a potential means to reduce CO 2 emissio...
Since the beginning of the industrial revolution, the anthropogenic emissions of carbon dioxide, whi...
Mineral CO2 sequestration, i.e., carbonation of alkaline silicate Ca/Mg minerals, analogous to natur...
Alkaline industrial residues can be suitable materials for carbon dioxide sequestration through mine...
Accelerated carbonation is a carbon utilization option which allows the manufacturing of useful prod...
Mitigating global climate change is probably the largest environmental challenge of our age. Althoug...
peer reviewedMineral carbonation is a carbon utilisation technology in which an alkaline material re...
Alkaline wastes have been the focus of many studies as they act as CO2 sinks and have the potential ...
Alkaline wastes have been the focus of many studies as they act as CO2 sinks and have the potential ...
Besides producing a substantial portion of anthropogenic CO2 emissions, the industrial sector also g...
Carbon dioxide (CO2) as the most vital greenhouse gas in the earth’s atmosphere plays a major role i...
A recent approach to reduce the carbon footprint of industries with process-inherent CO2 emissions i...
A recent approach to reduce the carbon footprint of industries with process-inherent CO2 emissions i...
AbstractThe increasing factitious carbon dioxide emission, mainly caused by fossil fuel combustion, ...
Steelmaking slag mineral carbonation is a possible technology for the reduction of carbon dioxide (C...
Carbon sequestration through the formation of carbonates is a potential means to reduce CO 2 emissio...