Journal
JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY
Volume 48, Issue 1-2, Pages 224-230Publisher
SPRINGER
DOI: 10.1007/s10971-008-1719-y
Keywords
aerogel; wollastonite; CO2 sequestration; passivating layer; carbonation; porous matrix
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Synthetic wollastonite has been used as the active phase embedded into two different silica aerogel composites. These composites are different in respect of the route used for the synthesis of the wollastonite powder. Texture and composition of both types of composite have been characterized. In addition, several factors (pH, reaction time, CO2 saturation, etc.) that could help to optimize the carbonation process at room temperature and pressure have been studied. Under the same conditions, both composites confirm previous results showing efficiencies as CO2 sequesters between 80% and 100% in only 15 min of gas flow. The textural characteristics of the aerogel, together with the grain size of the synthetic wollastonite powder, not only increase the speed of the reaction, but also inhibit the appearance of a passivating layer on the surface of the wollastonite grains attacked by the CO2. This is an outstanding feature as it insists on a cutting-edge challenge of the CO2 research: its economical availability.
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