Highly porous CO2 hydrate generation aided by silica nanoparticles for potential secure storage of CO2 and desalination

Ijung Kim; Michael Nole; Sunghyun Jang; Saebom Ko; Hugh Daigle; Gary A. Pope; Chun Huh

Journal ArticleOPEN ACCESS

Highly porous CO2 hydrate generation aided by silica nanoparticles for potential secure storage of CO2 and desalination

RSC Advances (2017) 7(16) 9545-9550

DOI: 10.1039/c6ra26366f

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Abstract

We report a new way of storing CO2 in a highly porous hydrate structure, stabilized by silica nanoparticles (NPs). Such a porous CO2 hydrate structure was generated either by cooling down NP-stabilized CO2-in-seawater foams, or by gently mixing CO2 and seawater that contains silica NPs under CO2 hydrate-generating conditions. With the highly porous structure, enhanced desalination was also achievable when the partial meltdown of CO2 hydrate was allowed.

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Kim, I., Nole, M., Jang, S., Ko, S., Daigle, H., Pope, G. A., & Huh, C. (2017). Highly porous CO2 hydrate generation aided by silica nanoparticles for potential secure storage of CO2 and desalination. RSC Advances, 7(16), 9545–9550. https://doi.org/10.1039/c6ra26366f

Highly porous CO2 hydrate generation aided by silica nanoparticles for potential secure storage of CO2 and desalination

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