Abstract
In the preceding companion article, we reported high-temperature molecular dynamics (MD) simulations to trace single-molecule as well as collective mean square displacements over a range of temperatures (600−1500 K) and loadings (infinite dilution to four benzenes per supercage) to evaluate respectively the self-diffusivities and cooperative (alternatively Maxwell−Stefan) diffusivities of benzene in NaX (Si:Al = 1.2). In this follow-up article, we use the loading- and temperature-dependent Maxwell−Stefan diffusivities to predict single-component fluxes for benzene in NaX membranes at steady state as a function of typical experimental parameters such as temperature, benzene feed side and permeate side partial pressures. We explore whether support resistances need to be included in our transport model. We compare our model predictions with experimental permeation data and find that our MD-simulated diffusivities overestimate experimental fluxes by about 2 orders of magnitude when support resistance is ignor...
Published Version
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