Capture of carbon dioxide from flue or fuel gas mixtures by clathrate crystallization in a silica gel column

A column of silica gel was employed to contact water with flue gas (CO 2/N 2) mixture to assess if CO 2 can be separated by hydrate crystallization. Three different silica gels were used. One with a pore size of 30 nm (particle size 40–75 μm) and two with a pore size of 100 nm and particle sizes of...

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Bibliographic Details
Published in:International journal of greenhouse gas control 2010-05, Vol.4 (3), p.478-485
Main Authors: Adeyemo, Adebola, Kumar, Rajnish, Linga, Praveen, Ripmeester, John, Englezos, Peter
Format: Article
Language:English
Subjects:
Carbon dioxide capture
Flue gas
Gas hydrate
Gas separation
Hydrogen
Silica gel
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Summary:A column of silica gel was employed to contact water with flue gas (CO 2/N 2) mixture to assess if CO 2 can be separated by hydrate crystallization. Three different silica gels were used. One with a pore size of 30 nm (particle size 40–75 μm) and two with a pore size of 100 nm and particle sizes of 40–75 and 75–200 μm respectively. The observed trends indicate that larger pores and particle size increase the gas consumption, CO 2 recovery, separation factor and water conversion to hydrate. Thus, the gel (gel #3) with the larger particle size and larger pore size was chosen to carry out experiments with concentrated CO 2 mixtures and for experiments in the presence of tetrahydrofuran (THF), which itself is a hydrate forming substance. Addition of THF reduces the operating pressure in the crystallizer but it also reduces the gas uptake. Gel #3 was also used in experiments with a fuel gas (CO 2/H 2) mixture in order to recover CO 2 and H 2. It was found that the gel column performs as well as a stirred reactor in separating the gas components from both flue gas and fuel gas mixtures. However, the crystallization rate and hydrate yield are considerably enhanced in the former. Finally the need for stirring is eliminated with the gel column which is enormously beneficial economically.
ISSN:1750-5836
1878-0148
DOI:10.1016/j.ijggc.2009.11.011