An alternative general model for the effective longitudinal diffusion in chromatographic beds filled with ordered porous particles

Alessandra Adrover; Claudia Venditti; Gert Desmet

doi:10.1016/j.chroma.2023.464598

An alternative general model for the effective longitudinal diffusion in chromatographic beds filled with ordered porous particles

J Chromatogr A. 2024 Jan 25:1715:464598. doi: 10.1016/j.chroma.2023.464598. Epub 2023 Dec 27.

Authors

Alessandra Adrover¹, Claudia Venditti², Gert Desmet³

Affiliations

¹ Dipartimento di Ingegneria Chimica Materiali Ambiente, Sapienza Università di Roma, Italy. Electronic address: alessandra.adrover@uniroma1.it.
² Dipartimento di Ingegneria Chimica Materiali Ambiente, Sapienza Università di Roma, Italy.
³ Department of Chemical Engineering, Vrije Universiteit Brussel, Brussels, Belgium.

PMID: 38171067
DOI: 10.1016/j.chroma.2023.464598

Abstract

The two-zone moment-analysis method for the determination of the dispersion tensor in hierarchical retentive porous media has been adopted to compute and model the effective longitudinal diffusion D_eff, or equivalently the B-term band broadening, in chromatographic beds filled with ordered porous particles. On the one hand, this approach offers accurate numerical results for D_eff while keeping computational expenses low. On the other hand, it also gives direct insight for the analytical modelling, readily revealings the two main essential quantities (resp. referred to as the mobile-zone and stationary-zone effective diffusion factors γ_m and γ_s) that contribute to D_eff. Modelling these two main parameters provided us with two new analytical models for D_eff: a general one, valid for diluted and concentrated packings and accurate in the whole range of relevant intra-particle diffusion coefficient D_pz, and an approximate one, reliable for diluted packings and accurate also for concentrated packings with low to intermediate values of D_pz. The large advantage of both models is that they do not need any fitting parameter because all the required information is incorporated into the experimentally accessible geometric obstruction factor in the mobile phase originating from the tortuosity of the through-pore space (limiting case of fully solid particles without any retention). These models hence serve as an alternative to the Effective Medium Theory (EMT) models used so far in the literature. To validate the theory, five ordered geometries have been investigated. The accuracy of the general model proposed has been quantified and found to be comparable with that of the 3rd order approximate Torquato model for four geometries, even for macro-porosities close to the close-packing limit. The case of a 2-d triangular array of ellipsoidal particles with different elongations is also investigated to show the general validity and applicability of the models.

Keywords: Adsorption; Band broadening; Dispersion theory; Hierarchical porous media; Liquid chromatography.

MeSH terms

Chromatography* / methods
Diffusion
Porosity