The Metric Sensitivity of Transient Adsorption-Diffusion Models for Hydrocarbon transport in Microporous materials was investigated
Received Date: Mar 01, 2023 / Published Date: Mar 31, 2023
Abstract
The description of transient kinetic data in catalysis by, for example, acidic zeolites and zeotypes presents unique challenges due to the intricate nature of hydrocarbon transport in microporous materials. Surface barriers and hindered microporous diffusion, two processes that are known to affect gas transport in kinetic studies of zeolite-catalyzed reactions, are currently captured by very few models in the literature. During pulse-response experiments in the Temporal Analysis of Products (TAP) reactor, the aforementioned phenomena are reflected in our extended models in this paper. To help with the design of future experiments, systematic studies of models’ parametric sensitivity are presented. The effects of realistic zeolites’ thermodynamic adsorption properties on the shapes of the pulse-response are studied through numerical simulations. Microporous diffusion is shown to produce a distinctive bend in the mean residence time temperature dependence for some combination adsorption/diffusion parameters, which can be used as a model discrimination fingerprint.
Citation: Redekop E (2023) The Metric Sensitivity of Transient Adsorption-DiffusionModels for Hydrocarbon transport in Microporous materials was investigated. JMater Sci Nanomater 7: 069.
Copyright: © 2023 Redekop E. This is an open-access article distributed underthe terms of the Creative Commons Attribution License, which permits unrestricteduse, distribution, and reproduction in any medium, provided the original author andsource are credited.
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