René Israel Peinador scite author profile

The pore size distribution of a porous medium is often estimated from the retention curve or the invading fluid flow rate curve using simple relationships more or less explicitly based on the consideration that the porous medium is made of a bundle of cylindrical parallel tubes. This type of determination is tested using pore network simulations. Starting from two-or three-dimensional networks, the characteristics of which are known apriori, the estimation of the throat size distribution (TSD) is performed using the standard methods in the case of drainage. Results show a significant discrepancy with the input data. The disagreement is more pronounced when the fluid flow rate curve is employed together with the parallel tubes assumption. The physical origins of these shortcomings are identified. A method, based on pore network simulations combined with a genetic algorithm and the hill climbing algorithm, is then designed, which makes simultaneous use of the nonwetting fluid flow rate curve and the retention curve of the medium. Very significant improvement is achieved in the estimation of the TSD using this procedure.

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Liquid–liquid displacement porometry to estimate the molecular weight cut-off of ultrafiltration membranes

Calvo¹,

Peinador²,

Prádanos³

et al. 2011

Desalination

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Characterisation of polymeric UF membranes by liquid–liquid displacement porosimetry

Peinador

Calvo

Prádanos

et al. 2010

Journal of Membrane Science

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Membrane characterization via evapoporometry (EP) and liquid-liquid displacement porosimetry (LLDP) techniques

Tanis-Kanbur

Peinador

et al. 2019

Journal of Membrane Science

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Porosimetric membrane characterization techniques: A review

Tanis-Kanbur

Peinador

Calvo

et al. 2021

Journal of Membrane Science

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