AI Article Synopsis
- Magnesite precipitation from water is typically slow at low temperatures, and this study explores how high-pressure conditions with supercritical CO2 influence this process.
- The reaction products include hydrated carbonates like hydromagnesite and nesquehonite, which form early on, while magnesite only appears later after several days of reaction.
- Results indicate that the formation of magnesite involves a slow transition from these hydrated carbonates under acidic conditions, emphasizing the need for better understanding of CO2 storage processes and how they affect geological formations over time.
Article Abstract
Magnesite precipitation from aqueous solution, despite conditions of supersaturation, is kinetically hindered at low temperatures for reasons that remain poorly understood. The present study examines the products of Mg(OH)2 reaction in solutions saturated with supercritical CO2 at high pressures (90 and 110 atm) and low temperatures (35 and 50 °C). Solids characterization combined with in situ solution analysis reveal that the first reaction products are the hydrated carbonates hydromagnesite and nesquehonite, appearing simultaneously with brucite dissolution. Magnesite is not observed until it comprises a minor product at 7 days reaction at 50 °C. Complete transition to magnesite as the sole product at 35 °C (135 days) and at a faster rate at 50 °C (56 days) occurs as the hydrated carbonates slowly dissolve under the slightly acidic conditions generated at high pCO2. Such a reaction progression at high pCO2 suggests that over long term the hydrated Mg-carbonates functioned as intermediates in magnesite formation. These findings highlight the importance of developing a better understanding of the processes expected to occur during CO2 storage. They also support the importance of integrating magnesite as an equilibrium phase in reactive transport calculations of the effects of CO2 sequestration on geological formations at long time scale.
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| http://dx.doi.org/10.1021/acs.est.5b02588 | DOI Listing |
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