Document Type
Extended Abstract
Abstract
This paper reviews CO2 curing process for construction materials, focusing on conventional and aqueous carbonation methods. While conventional CO2 curing utilizes gaseous CO2 to accelerate early-age strength development, aqueous carbonation introduces CO2-dissolved water as an advanced alternative. The latter approach, particularly when combined with amine solutions, offers improved application efficiency without requiring specialized curing chambers. The applications of aqueous carbonation extend beyond traditional curing to include surface treatment for enhanced durability, recycled aggregate strengthening, and geopolymer concrete production. These developments represent significant progress toward sustainable concrete production while contributing to carbon utilization in construction industry.
Keywords
Cement, Carbon Utilization, Direct Carbonation, CCUS.
DOI
10.5703/1288284317980
Aqueous Carbonation for CO2 Curing of Construction Materials
This paper reviews CO2 curing process for construction materials, focusing on conventional and aqueous carbonation methods. While conventional CO2 curing utilizes gaseous CO2 to accelerate early-age strength development, aqueous carbonation introduces CO2-dissolved water as an advanced alternative. The latter approach, particularly when combined with amine solutions, offers improved application efficiency without requiring specialized curing chambers. The applications of aqueous carbonation extend beyond traditional curing to include surface treatment for enhanced durability, recycled aggregate strengthening, and geopolymer concrete production. These developments represent significant progress toward sustainable concrete production while contributing to carbon utilization in construction industry.