Add to ORKGWastes from cement industry are gaining interest as source material for carbon dioxide sequestration through mineral carbonation. This paper reports the preliminary results of a study where aqueous routes accelerated carbonation (both wet and slurry-phase) was applied to Cement Kiln Dust with the aim of assessing the extent of CO2 sequestration and the reaction kinetics under varying operating conditions. The effect of parameters such as liquid-to-solid (L/S) ratio, CO2 pressure, temperature and process duration was evaluated. CKD was highly reactive towards CO2, allowing for a CO2 sequestration capacity up to 9.8% and a Ca-to-carbonate conversion yield up to 74%. Higher uptakes and carbonation yields were attained in slurry-phase carbonati...
Carbon dioxide mineral sequestration with steelmaking slag is a promising method for reducing carbon...
Carbon dioxide enters the atmosphere through burning fossil fuels (coal, natural gas, oil and oil sh...
Mineral carbonation (MC) is evolving as a possible technology for sequestering CO2 from medium-sized...
Wastes from cement industry are gaining interest as source material for carbon dioxide sequestration...
Carbon sequestration through the formation of carbonates is a potential means to reduce CO 2 emissio...
Alkaline industrial residues can be suitable materials for carbon dioxide sequestration through mine...
Alkaline earth metals, such as calcium and magnesium oxides, readily react with carbon dioxide (CO2)...
Cement kiln dust accelerated carbonation in aqueous slurries at 25°C and 3 bar PCO2 was investigated...
The study aims to investigate possible alternative paths of reusing Cement Kiln Dust in mining techn...
Due to their relatively high calcium oxide content, industrial mineral oxide wastes are potential ca...
Mineral CO2 sequestration, i.e., carbonation of alkaline silicate Ca/Mg minerals, analogous to natur...
Moist calcium silicate minerals are known to readily react with carbon dioxide (CO2). The reaction p...
The study aims to investigate possible alternative paths of reusing Cement Kiln Dust in mining techn...
The steady increase of carbon dioxide (CO2) emissions to the atmosphere is considered the main respo...
The alkaline wastes such as burnt oil shale (BOS) and cement bypass dust (BPD) generally contain fre...
Carbon dioxide mineral sequestration with steelmaking slag is a promising method for reducing carbon...
Carbon dioxide enters the atmosphere through burning fossil fuels (coal, natural gas, oil and oil sh...
Mineral carbonation (MC) is evolving as a possible technology for sequestering CO2 from medium-sized...
Wastes from cement industry are gaining interest as source material for carbon dioxide sequestration...
Carbon sequestration through the formation of carbonates is a potential means to reduce CO 2 emissio...
Alkaline industrial residues can be suitable materials for carbon dioxide sequestration through mine...
Alkaline earth metals, such as calcium and magnesium oxides, readily react with carbon dioxide (CO2)...
Cement kiln dust accelerated carbonation in aqueous slurries at 25°C and 3 bar PCO2 was investigated...
The study aims to investigate possible alternative paths of reusing Cement Kiln Dust in mining techn...
Due to their relatively high calcium oxide content, industrial mineral oxide wastes are potential ca...
Mineral CO2 sequestration, i.e., carbonation of alkaline silicate Ca/Mg minerals, analogous to natur...
Moist calcium silicate minerals are known to readily react with carbon dioxide (CO2). The reaction p...
The study aims to investigate possible alternative paths of reusing Cement Kiln Dust in mining techn...
The steady increase of carbon dioxide (CO2) emissions to the atmosphere is considered the main respo...
The alkaline wastes such as burnt oil shale (BOS) and cement bypass dust (BPD) generally contain fre...
Carbon dioxide mineral sequestration with steelmaking slag is a promising method for reducing carbon...
Carbon dioxide enters the atmosphere through burning fossil fuels (coal, natural gas, oil and oil sh...
Mineral carbonation (MC) is evolving as a possible technology for sequestering CO2 from medium-sized...