Jennie Morrison scite author profile

The precipitation of magnesium hydroxy-carbonate hydrates has been suggested as a route to sequester CO2 into solids. We report the development of self-cementing compositions based on nesquehonite, MgCO3⋅3H2O, that are made from CO2-containing gas streams, the CO2 being separated from other gases by its high solubility in alkaline water, while magnesium is typically provided by waste desalination brines. Precipitation conditions are adjusted to optimize the formation of nesquehonite and the crystalline solid can readily be washed free of chloride. Products can be prepared to achieve self-cementation following two routes: (i) thermal activation of the nesquehonite then rehydration of the precursor or (ii) direct curing of a slurry of nesquehonite. The products thus obtained contain ~30 wt% CO2 and could form the basis for a new generation of lightweight, thermally insulating boards, blocks, and panels, with sufficient strength for general construction.

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Magnesium-based cements for CO2 capture and utilisation

Morrison

Jauffret

Gálvez‐Martos

et al. 2016

Cement and Concrete Research

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Conceptual design of a CO2 capture and utilisation process based on calcium and magnesium rich brines

Gálvez‐Martos

Elhoweris

Morrison

et al. 2018

Journal of CO2 Utilization

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Environmental assessment of aqueous alkaline absorption of carbon dioxide and its use to produce a construction material

Gálvez‐Martos

Morrison

Jauffret

et al. 2016

Resources, Conservation and Recycling

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Jennie Morrison

On the thermal decomposition of nesquehonite

Sequestering CO2 by Mineralization into Useful Nesquehonite-Based Products

Magnesium-based cements for CO2 capture and utilisation

Conceptual design of a CO2 capture and utilisation process based on calcium and magnesium rich brines

Environmental assessment of aqueous alkaline absorption of carbon dioxide and its use to produce a construction material

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