Simultaneous productions of high-purity calcium carbonate and amorphous nanosized silica-rich gel from waste concrete powder by alkaline treatment and carbonation

Abstract

Simultaneous productions of high-purity CaCO₃ (calcium carbonate) and amorphous nanosized SiO₂-rich (silica-rich) gel from waste concrete powder remain quite challenging, and thus the high-value added utilization of waste concrete powder is significantly limited. A novel technology involving a combination of alkaline treatment and carbonation, has been proposed for the greatly enhanced utilization of waste concrete powder. Through alkaline treatment, CaCO₃ and SiO₂-rich gel formed during carbonation of concrete powder were transformed into Ca(OH)₂ (calcium hydroxide) and Na₂SiO₃ (sodium metasilicate), respectively. Subsequently, Ca(OH)₂ and Na₂SiO₃ were separated. As a result, CaCO₃ with a high purity of 98.54% and amorphous nanosized SiO₂-rich gel were obtained via carbonation, and the recovery ratio of CaCO₃ was 81.46%. Furthermore, the concrete powder exhibited a high CO₂ (carbon dioxide) uptake efficiency of 0.24g CO₂/g. 30.31 Mt CaCO₃ and 2.77 Mt SiO₂-rich gel productions as well as 38.54 Mt CO₂ emission reduction could be realized via recycling a quarter of annually generated waste concrete powder worldwide.