On the use of the dual process Langmuir model for binary gas mixture components that exhibit single process or linear isotherms

Two methodologies were developed to predict adsorption equilibria of a binary system when one of the components is described by the dual-process Langmuir (DPL) model and the other component is described by either the single process Langmuir (SPL) or linear isotherm (LI) model. Energetic site matching with the DPL–SPL model considered perfect positive (PP), perfect negative (PN) and unselective (US) correlations, and that with the DPL–LI model considered PP and PN correlations. A consistent set of single and binary isotherms for O 2 and N 2 on 5A zeolite were used to successfully demonstrate these concepts. For the DPL–SPL binary system, PP meant O 2 adsorbed only on the N 2 low energy site, PN meant O 2 adsorbed only on the N 2 high energy site, and US meant O 2 adsorbed on both sites with the ratio of its saturation capacity on each site the same as that for N 2 . For this case, the PP model predicted the binary data well and correctly predicted that O 2 only adsorbed on the low energy site of N 2 ; the PN model predicted the data poorly and US was close but not as good as PP. The binary predictions from the DPL–SPL model that require only single component information to obtain the single component DPL and SPL parameters were nearly as good as those obtained from a non-predictive formulation similar to the US correlation but that utilized all the single and binary data to obtain the single component DPL and SPL parameters. For the DPL–LI binary system, with O 2 having an affinity for only one site, PN meant O 2 interacted solely with the high energy site of N 2 and PP meant O 2 interacted solely with the low energy site of N 2 ; and because O 2 exhibited a linear isotherm (i.e., the Henry’s law constants from the SPL parameters), it did not affect the adsorption of N 2 on its sites, but N 2 did affect the adsorption of O 2 on its sites. For this case, the PP model predicted the binary data well and correctly predicted that O 2 did not affect the adsorption of N 2 , but that N 2 did affect the adsorption of O 2 on the low energy site of N 2 ; the PN model predicted the data poorly.