Qazi Sohaib scite author profile

The present work demonstrates the potential of coupling ionic liquid 1-ethyl-3-methylimidazolium ethylsulfate ([emim][EtSO 4 ]) and hollow fiber membrane contactors for post-combustion CO 2 capture. CO 2 absorption experiments in counter-current configuration were carried out, followed by a comprehensive two-dimensional dynamic modeling based on steady state and pseudo-steady state operating modes. The model considers the level of wetting of porous hollow fibers. An overall mass transfer coefficient of 3.99 10 -5 m.s -1 and CO 2 flux 6.1 10 -5 mol.m -2 .s -1 were obtained for 100 ml.min -1 of gas flowing inside the fibers. The model predicted the effects of membrane wetting, porosity, tortuosity, module length, fiber inner diameter, gas and absorbent flow rates. Membrane wetting has a noteworthy effect on CO 2 capture efficiency. A smaller amount of wetting can cause a huge resistance in CO 2 transport through the membrane. The separation efficiency was enhanced by using membranes with high porosity and low tortuosity and decreased by enhancing the gas flow rate and absorbent flow rate reduction. CO 2 capture is enhanced by increasing module length and reduction of inner diameter of fibers.

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CO2 capture with room temperature ionic liquids; coupled absorption/desorption and single module absorption in membrane contactor

Sohaib

Vadillo

Gómez‐Coma

et al. 2020

Chemical Engineering Science

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Qazi Sohaib

CO2 capture in a hollow fiber membrane contactor coupled with ionic liquid: Influence of membrane wetting and process parameters

CO2 capture with room temperature ionic liquids; coupled absorption/desorption and single module absorption in membrane contactor

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