Experimental study of Ar - CH 4 gas mixture adsorption over ex - foliated graphite : kinetic reversal of
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چکیده
Submitted for the MAR13 Meeting of The American Physical Society Experimental study of Ar-CH4 gas mixture adsorption over exfoliated graphite: kinetic reversal of adsorption selectivity1 MATIAS RAFTI, Instituto de Investigaciones Fisicoqúımicas Teoricas y Aplicadas, (INIFTACONICET), Universidad Nacional de La Plata, VAIVA KRUNGLEVICIUTE2, ALDO MIGONE, Southern Illinois University Carbondale — Adsorption is one of the processes used for achieving the separation of gas mixtures. In this poster we present the results of a combined gas composition and adsorption isotherm study performed to investigate how a mixture of two gases with different binding energies adsorbs on exfoliated graphite at temperatures between 70 and 90 K. In our experiments we observed a very interesting phenomenon: adsorption overshoot. This is a phenomenon that occurs in the initial stages of adsorption when the lower binding energy species adsorbs onto the substrate in a greater proportion than the stronger binding species. As time elapses and adsorption equilibrium is approached, the stronger species starts replacing the weaker species in the adsorbed phase. In principle, this phenomenon would allow the possibility of achieving gas mixture separation by controlling the adsorption time. Our results will be compared with those from recent numerical simulations that predicted similar behavior on a one dimensional uniform substrate. 1The authors thanks CONICET-UNLP and the Fullbright Commission for the scholarship granted. One of us (A.D.M) gratefully acknowledges support for this research from the NSF, through Grant NSF-DMR-#1006428. 2Present address: UPenn/NIST, 100 Bureau Drive, Gaithersburg, MD. Vaiva Krungleviciute Southern Illinois University Carbondale Date submitted: 10 Dec 2012 Electronic form version 1.4
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