INFLUENCE OF THE PILLAR SHAPE ON THE BAND BROADENING IN PRESSURE-DRIVEN AND ELECTRO-OSMOSIS-DRIVEN ORDERED 2D POROUS CHROMATOGRAPHIC COLUMNS

Autor: Gert Weyns, Daan De Wilde, Johan Deconinck, Gert Desmet, Piotr Gzil, Nico Smets
Přispěvatelé: Electrical Engineering and Power Electronics
Rok vydání: 2008
Předmět:
Zdroj: International Journal of Computational Methods. :551-574
ISSN: 1793-6969
0219-8762
DOI: 10.1142/s0219876208001625
Popis: A newly developed computational fluid dynamics method for simulating chromatographic adsorption is presented. This well-validated software package takes adsorption reactions as well as internal porosity into account to explain differences caused by the design and flow regime. Focusing on the band broadening in perfectly ordered 2D chromatographic columns, it is found that the method used for forcing the fluid through the column has a significant influence. Electro-osmosis-driven (ED) flows have a slight advantage (i.e. produce less band broadening) over pressure-driven (PD) flows. This is explained by the way the flow passes through a tortuous pore structure with changing pore size. Furthermore, this behavior does not change when the shape of the pillars is changed. Only for hexagon-like shapes is there a slight gain in performance for ED flows based on a bigger recuperation mechanism typical of ED flows in undulating pore spaces. When concentrating on the effect of the pillar, a better performance is obtained for more elongated shapes compared to more compact shapes like cylinders, as they pack in a more uniform pore space. It is also observed that the uniformity of the fluid field is the most important factor when comparing different shapes or systems. Heterogeneity in the velocity field inevitably leads to an increase of the band broadening.
Databáze: OpenAIRE
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