Errors involved in the existing B-term expressions for the longitudinal diffusion in fully porous chromatographic media Part I. Computational data in ordered pillar arrays and effective medium theory

Numerically solving the effective diffusion in a simplified representation of a chromatographic bed, it was found that the B-term expressions that have up to now been used in the literature, and which can all be reduced to either Deff=(gamma mDm+k'gamma sDs)/(1+k') or Deff=(gamma meDm+k�...

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Published inJournal of chromatography Vol. 1188; no. 2; pp. 171 - 188
Main Authors DESMET, G, BROECKHOVEN, K, DE SMET, J, DERIDDER, S, BARON, G. V, GZIL, P
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier 25.04.2008
Subjects
Analytical chemistry
Chemistry
Chromatographic methods and physical methods associated with chromatography
Chromatography - methods
Computer Simulation
Diffusion
Exact sciences and technology
Models, Chemical
Other chromatographic methods
Porosity
Research Design
Peak resolution
Error analysis
Computational fluid dynamics
Theoretical study
Liquid chromatography
Pillared structure
Surface diffusion
Porous material
Obstruction
Obstruction factor
Composite media
Line broadening
Effective medium theory
Peak parking
Pillar array column
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Summary:Numerically solving the effective diffusion in a simplified representation of a chromatographic bed, it was found that the B-term expressions that have up to now been used in the literature, and which can all be reduced to either Deff=(gamma mDm+k'gamma sDs)/(1+k') or Deff=(gamma meDm+k''Dpart)/(1+k''), can no longer be considered to be unconditionally valid. This could be demonstrated by showing that the simulated diffusion data are in agreement with the mathematically sound effective medium theory (EMT), whereas the B-term expressions used up to now in literature are in conflict with the EMT, a theory that is widely accepted in all other fields of science. It is also shown that the use of the existing B-term expressions can lead to very large measurement errors (up to a 100% and more) for the determination of the stationary phase diffusion coefficient gamma sDs from peak parking experiments. The representation of the B-term diffusion should in the future hence be based on the Deff expressions that can be derived from the EMT. These are physically sound and are also more accurate than the classical B-term expressions used up to now.
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ISSN:0021-9673
DOI:10.1016/j.chroma.2008.02.018