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A method to enhance the CO 2 storage capacity of pyroxenitic rocks

Ioannis Rigopoulos, Michalis A. Vasiliades, Klito C. Petallidou, Ioannis Ioannou, Angelos M. Efstathiou and Theodora Kyratsi

Greenhouse Gases: Science and Technology, 2015, vol. 5, issue 5, 577-591

Abstract: Investigation of new efficient pathways for CO 2 sequestration is of great significance for the mitigation of climate change. Ultramafic rocks are considered among the most promising lithotypes for the safe storage of CO 2 via mineral carbonation. This paper investigates a powerful method for the optimization of the ex situ carbonation of pyroxenitic rocks, which comprise part of ultramafic lithologies occurring in ophiolite complexes. The ball milling process was applied to a sample of pyroxenite from the Troodos ophiolite (Cyprus) for the first time, in order to create novel nanomaterials with enhanced CO 2 storage capacity. The goal was to accelerate the kinetics of rock‐fluid reactions during the carbonation process. The starting rock material and the ball‐milled samples were characterized using a variety of methodologies. The experimental results imply that only a few hours of wet ball milling with ethanol as process control agent can substantially increase the CO 2 storage capacity of pyroxenites. Through temperature‐programmed desorption of CO 2 (CO 2 ‐TPD) experiments, we show that the optimum milling conditions are 4 h of ball milling with 50 wt% ethanol, leading to an increase of the CO 2 uptake of the studied rock material by 41 times. This notable increase designates that pyroxenites are very promising lithologies for CO 2 storage via ex situ carbonation, and that ball milling can be an effective preparation technique for this process, providing an efficient and secure carbon storage solution.© 2015 Society of Chemical Industry and John Wiley & Sons, Ltd

Date: 2015
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Citations: View citations in EconPapers (1)

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http://hdl.handle.net/10.1002/ghg.1502

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