Low-Carbon CO2-Activated Self-Pulverizing Cement for Sustainable Concrete Construction

Low-Carbon CO2-Activated Self-Pulverizing Cement for Sustainable Concrete Construction

AbstractIn order for the concrete industry to become more efficient and sustainable, there is an urgent need to reduce emissions of carbon dioxide (CO2) from cement manufacture. The innovative scheme described here for the linked production of cement and concrete with a low-carbon footprint follows...

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Bibliographic Details
Published in:Journal of materials in civil engineering Vol. 32; no. 8
Main Authors: Maries, Alan, Hills, Colin D, Carey, Paula
Format: Journal Article
Language:English
Published: New York American Society of Civil Engineers 01-08-2020
Subjects:
Activated carbon
Building materials
Carbon dioxide
Carbonation
Cement
Civil engineering
Concrete blocks
Concrete construction
Concrete industry
Environmental impact
Feasibility studies
Fineness
Grinding (comminution)
Precast concrete
Reinforced concrete
Technical Note
Technical Notes
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Summary:AbstractIn order for the concrete industry to become more efficient and sustainable, there is an urgent need to reduce emissions of carbon dioxide (CO2) from cement manufacture. The innovative scheme described here for the linked production of cement and concrete with a low-carbon footprint follows a three-stage process. First, a Portland-like cement composition is calcined at reduced temperature and cooled under controlled conditions so that it self-pulverizes spontaneously to a powder of normal fineness without grinding. Second, CO2-rich gas is extracted directly from the cement kiln flue and used to activate this poorly hydraulic cement by carbonation in the third stage for making precast concrete products. The feasibility study described here aims to provide proof of the principle of this scheme. Considerable energy savings and sustainability gains are anticipated, and the challenges of process enhancements and scale-up are currently being addressed. In addition to its use in precast concrete items such as blocks, roof tiles, and pipes, other potential on-site applications are foreseen for this cement where low-carbon concrete or controlled setting are required.
ISSN:0899-1561
1943-5533
DOI:10.1061/(ASCE)MT.1943-5533.0003370