Abstract
Adsorption of Xe, Kr, Ar, N2, O2, H2 CH4, CO2, He, and freons by PAU-10 and ACC microporous carbon adsorbents as well as by A and X zeolites was investigated over a wide range of pressures (0.1 Pa – 20 MPa) and temperatures (77, 120–600 K). The amount of gases, vapors and liquids adsorbed by microporous adsorbents increases steadily with increasing pressure and does not change dramatically if phase transitions occur in the adsorptive. Isosteres of adsorption constructed as a curve of ln P against f(1/T) a retain a linear form over a wide range of pressures and temperatures. The slope of isosteres does not vary on going through the critical temperature of the gaseous phase. At high pressures, due to non-ideality of the gaseous phase and non-inert behavior of the adsorbent the differential molar heat of adsorption is dependent on temperature. At high fillings of micropores the differential molar isosteric heat capacities of adsorption systems show maxima that indicate the occurrence of structural rearrangements in the adsorbate.
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Fomkin, A.A. Adsorption of Gases, Vapors and Liquids by Microporous Adsorbents. Adsorption 11, 425–436 (2005). https://doi.org/10.1007/s10450-005-5636-x
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DOI: https://doi.org/10.1007/s10450-005-5636-x