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Evaluation of MgO-rich materials obtained from Ferronickel slag for CO2 sequestration

Fakhreza Abdul, Ken Adachi, Hsing‐Jung Ho, Atsushi Iizuka, Etsuro Shibata

2024Process Safety and Environmental Protection15 citationsDOIOpen Access PDF

Abstract

Because it has a high magnesium content, ferronickel (FeNi) slag is a potential alternative material for CO 2 sequestration. The slag can be pretreated by alkali fusion with NaOH to obtain MgO-rich materials. In this study, the potential of this MgO-rich material for CO 2 sequestration was investigated using MgO from FeNi slag (MgO-FS) and MgNa 2 SiO 4 from FeNi slag (MNA). A MgO reagent (MgO-R) and FeNi slag were used as reference materials. The carbonation process was carried out using a batch autoclave with various liquid-to-solid (L/S) ratios, initial pressures, times, and CO 2 concentrations. The MgO-FS effectively captured CO 2 and had a carbonation performance comparable to that of MgO-R. The degrees of carbonation for MgO-R, MgO-FS, and MNA were 68.43 %, 65.53 %, and 39.40 %, respectively, when carbonation was carried out at 423 K and 8 bar with an L/S ratio of 10 mL/g and pure CO 2 for 9 h. Combination of the FeNi slag alkali fusion process (1:2 FeNi slag/NaOH mass ratio, 773 K, and 4 h) with water washing and carbonation (4 bar, 423 K, 10 mL/g L/S ratio, 3 h, and pure CO 2 ) gave a CO 2 uptake efficiency of 0.119 ± 0.004 g CO 2 /g FeNi slag. The results of the degree of carbonation (i.e. 65.53 %), X-Ray diffraction spectra (magnesite mineral peak), and scanning electron microscope observations (magnesite crystal appearance) provide evidence that MgO-FS is an effective alternative material for indirect CO 2 sequestration.

Topics & Concepts

FerroalloyCarbon sequestrationSlag (welding)MetallurgyMaterials scienceEnvironmental scienceWaste managementEngineeringCarbon dioxideChemistryOrganic chemistryMagnesium Oxide Properties and ApplicationsCO2 Sequestration and Geologic InteractionsAdvanced ceramic materials synthesis