Accelerated Carbonation of Vibro-Compacted Porous Concrete for Eco-Friendly Precast Elements

Author:

Merino-Lechuga Antonio Manuel1ORCID,González-Caro Ágata2ORCID,Fernández-Ledesma Enrique1ORCID,Jiménez José Ramón1ORCID,Fernández-Rodríguez José María2ORCID,Suescum-Morales David1ORCID

Affiliation:

1. Área de Ingeniería de la Construcción, E.P.S de Belmez, Universidad de Córdoba, 14240 Córdoba, Spain

2. Área de Química Inorgánica, E.P.S de Belmez, Universidad de Córdoba, 14240 Córdoba, Spain

Abstract

This research studied the effect of accelerated carbonation in the physical, mechanical and chemical properties of a non-structural vibro-compacted porous concrete made with natural aggregates and two types of recycled aggregates from construction and demolition waste (CDW). Natural aggregates were replaced by recycled aggregates using a volumetric substitution method and the CO2 capture capacity was also calculated. Two hardening environments were used: a carbonation chamber with 5% CO2 and a normal climatic chamber with atmospheric CO2 concentration. The effect of curing times of 1, 3, 7, 14 and 28 days on concrete properties was also analysed. The accelerated carbonation increased the dry bulk density, decreased the accessible porosity water, improved the compressive strength and decreased the setting time to reach a higher mechanical strength. The maximum CO2 capture ratio was achieved with the use of recycled concrete aggregate (52.52 kg/t). Accelerate carbonation conditions led to an increase in carbon capture of 525% compared to curing under atmospheric conditions. Accelerated carbonation of cement-based products containing recycled aggregates from construction and demolition waste is a promising technology for CO2 capture and utilisation and a way to mitigate the effects of climate change, as well as promote the new circular economy paradigm.

Funder

Consejería de Transformación Económica, Industria, Conocimiento y Universidades

Junta de Andalucía. PREFABRICO-II Research Project

Andalusian FEDER Operational Program

Publisher

MDPI AG

Subject

General Materials Science

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