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چکیده
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To implement an experimental study of CH4/
N2 adsorption on Zeochem Co. zeolite 13X, a volumetric
apparatus was utilized. In this regard, pure adsorption
isotherms were measured at different temperatures [(273,
283, 303, 323, and 343) K] and pressures up to 10 bar, while
binary data were collected at (303 and 323) K and different
pressures and bulk gas phase molar fractions. Integral and
differential thermodynamic consistency tests (TCT) were
performed to validate the collected data and certify accuracy of
the measurements. To have a thermodynamic view over the investigated system, thermodynamic functions such as enthalpy,
entropy, surface potential, and Gibbs free energy were estimated numerically. Besides, the measured pure isotherms were
regressed using different isotherm equations and the regressed parameters were applied to different models based on the
thermodynamic theory of solutions, i.e., ideal adsorbed solution theory (IAST), vacancy solution models (VSM), and Peng?
Robinson two-dimensional equation of state (PR 2D-EOS). All the models were applied in the predictive scheme. Experimental
and predicted adsorption data were compared through the appropriate phase diagrams. Almost all the models could predict
binary adsorption behavior of CH4 and N2 over zeolite 13X
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