The effect of capillary pumping on the course of cleaning porous materials containing liquid contaminants using supercritical fluids
Open access
Date
2021Type
- Journal Article
ETH Bibliography
yes
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Abstract
The role of capillary pumping on the course of cleaning porous materials containing liquid contam-inants using supercritical fluids was investigated numerically. As a specific process to be modelled, cleaning of porous membranes, contaminated with soybean oil, using supercritical carbon dioxide as the cleaning fluid (solvent) was considered. A 3D pore-network model, developed as an extension of a 2D drying model, was used for performing pore scale simulations. The influence of various process parameters, including the coordination number of the pore network, the computational domain size, and the external flow mass transfer resistance, on the strength of the capillary pumping effect was investigated. The capillary pumping effect increases with increasing domain size and decreasing ex -ter nal flow mass transfer resistance. For low coordination numbers of the pore network, the capillary pumping effect is not noticeable at macro scale, while for high coordination numbers, the opposite trend is observed - capillary pumping may influence the process at macro scale. In the investigated system, the coordination number of the pore network seems to be low, as no capillary pumping effects were observed at macro scale during experimental investigation and macro-scale modelling of the membrane cleaning process. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000539192Publication status
publishedExternal links
Journal / series
Chemical and Process EngineeringVolume
Pages / Article No.
Publisher
Polish Academy of SciencesSubject
porous material; supercritical fluid; mathematical modelling; cleaning; capillary pumpingOrganisational unit
03644 - Jenny, Patrick / Jenny, Patrick
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ETH Bibliography
yes
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