Avainasana: mineral carbonation
-
Updated cost evaluation including a feasible plant design for large-scale magnesium silicate carbonation at a lime kiln
—
by
Updated cost evaluation including a feasible plant design for large-scale magnesium silicate carbonation at a lime kiln
-
Updated cost evaluation including a feasible plant design for large-scale magnesium silicate carbonation at a lime kiln
—
by
Updated cost evaluation including a feasible plant design for large-scale magnesium silicate carbonation at a lime kiln
-
Success case – Steelmaking slag together with CO2 turns into calcium carbonate
—
by
Success case – Steelmaking slag together with CO2 turns into calcium carbonate
-
Selection of dry gas/solid (Mg(OH)2) or wet aqueous (MgSO4) carbonation of lime kiln gas CO2
—
by
Selection of dry gas/solid (Mg(OH)2) or wet aqueous (MgSO4) carbonation of lime kiln gas CO2
-
Report on detailed design features for Mg-silicate carbonation demonstration at a lime kiln
—
by
Report on detailed design features for Mg-silicate carbonation demonstration at a lime kiln
-
Extraction of magnesium from four Finnish magnesium silicate rocks for CO2 mineralisation
—
by
Extraction of magnesium from four Finnish magnesium silicate rocks for CO2 mineralisation
-
Process for upgrading diopside-based rock for lime kiln gas CO2 carbonation
—
by
Process for upgrading diopside-based rock for lime kiln gas CO2 carbonation
-
Utilization of steelmaking waste materials for production of calcium carbonate (CaCO3)
—
by
Utilization of steelmaking waste materials for production of calcium carbonate (CaCO3)
-
Carbon Storage by Mineralisation (CSM): Serpentinite Rock Carbonation via Mg(OH)2 Reaction Intermediate Without CO2 Pre-separation
—
by
Carbon Storage by Mineralisation (CSM): Serpentinite Rock Carbonation via Mg(OH)2 Reaction Intermediate Without CO2 Pre-separation
-
Mechanisms of serpentine–ammonium sulfate reactions: towards higher efficiencies in flux recovery and Mg extraction for CO2 mineral sequestration
—
by
Mechanisms of serpentine–ammonium sulfate reactions: towards higher efficiencies in flux recovery and Mg extraction for CO2 mineral sequestration