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W2017104870 abstract "While selective adsorption of carbon dioxide has recently attracted special interest due to concerns over greenhouse emissions, separation of methane from its mixtures with carbon dioxide and nitrogen is a key operation for biogas and natural gas enrichment. Herein we present a detailed study of the multicomponent potential theory of adsorption’s (MPTA) capabilities to predict published experimental adsorption data of binary and ternary mixtures of carbon dioxide, methane and nitrogen from each gas’ pure component adsorption data on activated carbons Norit R1 and Calgon F-400 and on the metal–organic frameworks (MOFs) MOF-508b and MOF-5. It is observed that at temperatures below its critical temperature (304 K), and pressures in the vicinity of its critical pressure (7.37 MPa), carbon dioxide content in the binary mixtures adsorbed on Norit R1 has significant influence on the accuracy of MPTA’s predictions, as sharp mixture density increases due to possible carbon dioxide phase changes cause convergence difficulties in the model’s numerical iterations. This phenomenon is not observed in the studied ternary mixtures’ case. Here, discrepancies are rather attributed to the inherent limitations of using four adjustable parameters to describe multicomponent adsorption at high pressure, and to the additive errors associated with the volumetric experimental measurement technique. Carbon dioxide’s high selectivity due to its strong quadrupole moment is well predicted by the MPTA, on activated carbon as well as on MOFs." @default.
W2017104870 created "2016-06-24" @default.
W2017104870 creator A5014474834 @default.
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W2017104870 date "2014-10-01" @default.
W2017104870 modified "2023-09-29" @default.
W2017104870 title "Potential theory for prediction of high-pressure gas mixture adsorption on activated carbon and MOFs" @default.
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W2017104870 cites W1973894628 @default.
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W2017104870 cites W1987736265 @default.
W2017104870 cites W1992581616 @default.
W2017104870 cites W1994247676 @default.
W2017104870 cites W2003370141 @default.
W2017104870 cites W2006819285 @default.
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W2017104870 cites W2020686937 @default.
W2017104870 cites W2021740237 @default.
W2017104870 cites W2023837755 @default.
W2017104870 cites W2025459326 @default.
W2017104870 cites W2037151428 @default.
W2017104870 cites W2041655944 @default.
W2017104870 cites W2042610384 @default.
W2017104870 cites W2044198425 @default.
W2017104870 cites W2045850536 @default.
W2017104870 cites W2048902486 @default.
W2017104870 cites W2058020819 @default.
W2017104870 cites W2060541472 @default.
W2017104870 cites W2061413138 @default.
W2017104870 cites W2067825941 @default.
W2017104870 cites W2070058467 @default.
W2017104870 cites W2075883340 @default.
W2017104870 cites W2083424769 @default.
W2017104870 cites W2084558549 @default.
W2017104870 cites W2087070363 @default.
W2017104870 cites W2090411527 @default.
W2017104870 cites W2090471017 @default.
W2017104870 cites W2094774149 @default.
W2017104870 cites W2097983792 @default.
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W2017104870 cites W2317317920 @default.
W2017104870 cites W2320633538 @default.
W2017104870 cites W2326109863 @default.
W2017104870 cites W2343475796 @default.
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W2017104870 doi "https://doi.org/10.1016/j.seppur.2014.08.021" @default.
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