Litcius/Paper detail

Storing CO2 while strengthening concrete by carbonating its cement in suspension

Xiaoxu Fu, Alexandre Guerini, Davide Zampini, Alessandro F. Rotta Loria

2024Communications Materials43 citationsDOIOpen Access PDF

Abstract

Abstract Cement is a key constituent of concrete and offers a large sequestration potential of carbon dioxide (CO 2 ). However, current concrete carbonation approaches are hindered by low CO 2 capture efficiency and high energy consumption, often resulting in weakened concrete. Here, we conceptually develop and experimentally explore a carbonation approach that resorts to injecting CO 2 into a cement suspension subsequently used to manufacture concrete, turning the carbonation reaction into an aqueous ionic reaction with a very fast kinetics compared to traditional diffusion-controlled approaches. This approach achieves a CO 2 sequestration efficiency of up to 45% and maintains an uncompromised concrete strength. The study shows that the CO 2 injection rate influences the polymorph selectivity of mineralized calcium carbonate (CaCO 3 ) depending on the local environmental conditions and impacts the strength of concrete. The technological simplicity of the proposed approach enables a reduced carbon footprint and promising prospects for industrial implementation.

Topics & Concepts

Suspension (topology)CementGeotechnical engineeringForensic engineeringMaterials scienceEngineeringComposite materialMathematicsPure mathematicsHomotopyConcrete and Cement Materials ResearchStructural mechanics and materialsMagnesium Oxide Properties and Applications