AI Article Synopsis
- Understanding how water vapor impacts mixed matrix membranes (MMMs) can enhance CO recovery from industrial streams.
- Research focused on MMMs made of hydrophilic zeolite 4A and hydrophobic PTMSP, showing that CO permeability improves with increased water content, unlike pure PTMSP.
- The study utilized a model based on the NELF theory to analyze gas sorption and diffusion, considering the interactions between the hydrophobic and hydrophilic components of the membranes.
Article Abstract
Increasing the knowledge of the influence of water vapor in new mixed matrix membranes (MMMs) could favor the integration of novel membrane materials in the recovery of CO from wet industrial streams. In this work, the water vapor effect on the N, CH and CO permeability through MMMs comprised of 20 wt% hydrophilic zeolite 4A in hydrophobic PTMSP polymer were investigated in the relative humidity range 0-75%. While in the pure PTMSP membranes, the permeability of all gases decreases with water vapor activity, with almost unchanged CO/N and CO/CH selectivities, in zeolite A/PTMSP MMMs, the CO permeability increases with increasing water content in the system up to 50% R.H., resulting in an increase in CO/N and CO/CH selectivities with respect to pure PTMSP. Gas sorption was studied so that the effect the residual humidity in the zeolite 4A has on the sorption of the different gases helped explaining the permeability observations. The sorption and humid permeation behavior were evaluated by a simple model equation based on the NELF theory, taking into account the multicomponent gas sorption and diffusion in the presence of humidity, as well as the counteracting effects of the hydrophobic PTMSP and hydrophilic zeolite A in a very accurate way.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9077789 | PMC |
| http://dx.doi.org/10.1039/c7ra13039b | DOI Listing |
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