Sorption of trifluoromethane in activated carbon

Sorption isotherms for trifluoromethane (R-23) in activated carbon have been measured at ca. 298 and 323 K using a gravimetric microbalance. High-resolution TEM images of the activated carbon show a very uniform microstructure with no evidence of any contaminants. The adsorption in the activated car...

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Bibliographic Details
Published in:Adsorption : journal of the International Adsorption Society 2014-05, Vol.20 (4), p.565-575
Main Authors: Shiflett, Mark B., Corbin, David R., Elliott, Beth A., Subramoney, Shekhar, Kaneko, Katsumi, Yokozeki, Akimichi
Format: Article
Language:English
Subjects:
Activated carbon
Adsorption
Chemistry
Chemistry and Materials Science
Engineering Thermodynamics
Heat and Mass Transfer
Heat of adsorption
Industrial Chemistry/Chemical Engineering
Ionic liquids
Microbalances
Sorption
Surfaces and Interfaces
Thin Films
Trifluoromethane
Zeolites
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Summary:Sorption isotherms for trifluoromethane (R-23) in activated carbon have been measured at ca. 298 and 323 K using a gravimetric microbalance. High-resolution TEM images of the activated carbon show a very uniform microstructure with no evidence of any contaminants. The adsorption in the activated carbon reaches about 22.8 mol kg −1 at 2.0 MPa and 298 K or 17.6 mol kg −1 at 2.0 MPa and 323 K. Three different adsorption models (Langmuir, multi-site Langmuir, and BET equations) have been used to analyze the activated carbon sorption data, with a particular interest in the heat of adsorption (−Δ H ). The heat of adsorption for R-23 in the activated carbon was about 29.78 ± 0.04 kJ mol −1 based on the multi-site Langmuir model and is within the range of typical physical adsorption. According to the IUPAC classification, the activated carbon exhibits Type I adsorption behavior and was completely reversible. Compared with our previous work for the sorption of R-23 in zeolites (5A (Ca,Na-A), 13X (Na-X), Na,K-LSX, Na-Y, K,H-Y, Rb,Na-Y) and ionic liquids ([omim][TFES] and [emim][Tf 2 N]) the activated carbon had the highest adsorption capacity. The adsorption process in the activated carbon also took less time than in the zeolites or the ionic liquids to reach thermodynamic equilibrium.
ISSN:0929-5607
1572-8757
DOI:10.1007/s10450-014-9601-4