Correlation of methane uptake with microporosity and surface area of chemically activated carbons

Two series of activated carbon discs have been prepared by chemical activation of olive stones with ZnCl 2 and H 3PO 4. Some of the carbons have been post-treated in order to modify their porous texture and/or surface chemical composition. All carbons have been characterized by adsorption of N 2 (−1...

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Bibliographic Details
Published in:Microporous and mesoporous materials 2008-11, Vol.115 (3), p.603-608
Main Authors: Rodríguez-Reinoso, F., Nakagawa, Y., Silvestre-Albero, J., Juárez-Galán, J.M., Molina-Sabio, M.
Format: Article
Language:English
Subjects:
Activated carbon
Adsorbents
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
Methane adsorption
Microporosity
Natural gas storage
Porous materials
Surface area
Surface physical chemistry
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Summary:Two series of activated carbon discs have been prepared by chemical activation of olive stones with ZnCl 2 and H 3PO 4. Some of the carbons have been post-treated in order to modify their porous texture and/or surface chemical composition. All carbons have been characterized by adsorption of N 2 (−196 °C) and CO 2 (0 °C) and immersion calorimetry into dichloromethane. The volume of methane adsorbed at 25 °C and 3.5 MPa is proportional to the surface area deduced from immersion calorimetry into dichloromethane. Consequently, it is possible to estimate, using a single experiment, the possibility of using activated carbons for the storage of natural gas. On the other hand, the methane uptake can be also correlated to the volume of micropores, provided by the adsorption of N 2 at −196 °C and CO 2 at 0 °C, although the correlations is not as good. Only carbons slightly activated, with low surface area and microporosity below around 0.6 nm, do not adjust the above correlations because they adsorb more methane than the expected, the effect of chemical nature of the carbon surface being almost negligible.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2008.03.002