Prediction of gas transport across amine mixed matrix membranes with ideal morphologies based on the Maxwell model

Nasir, R. and Mukhtar, H. and Man, Z. (2016) Prediction of gas transport across amine mixed matrix membranes with ideal morphologies based on the Maxwell model. RSC Advances, 6 (36). pp. 30130-30138.

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Abstract

The incorporation of highly selective molecular sieve such as carbon molecular sieve (CMS) and highly affinitive solvent such as diethanolamine (DEA) into polyethersulfone (PES) have been implemented to synthesize amine mixed matrix membranes (MMMs) with an enhanced gas performance. Synergetic effect of CMS and DEA has caused the improvement of carbon dioxide (CO 2 ) permeability and ideal CO 2 /CH 4 selectivity. While existing theoretical models define the relative permeability well for binary mixed matrix membranes they fail to predict the relative permeability of amine mixed matrix membranes. In fact, the degree of deviation from the simple model predictions provides understanding into the detailed properties of the third component, which has been neglected in previous analyses of these models. Modification of an existing model, namely the Maxwell model, provides an outline to analyze the gas permeation properties of model systems with CMS and DEA in glassy polymer phase. The new model is developed by modifying the basic Maxwell MMMs model. The modification also includes the optimization of l dm , which is defined as the ratio of dispersed phase permeability to matrix permeability, and the determination of permeability of the dispersed phase. Furthermore, this Maxwell model has been extended to model the performance of amine mixed matrix membranes by incorporation of combined volume fraction of filler and amine 4 * ad . The proposed approach can predict the permeability of CO 2 through amine MMMs and also lowers the AARE value. This journal is © The Royal Society of Chemistry 2016.

Item Type: Article
Impact Factor: cited By 7
Uncontrolled Keywords: Carbon dioxide; Ethanolamines; Forecasting; Molecular sieves; Sieves, Carbon molecular sieve; Dispersed phase; Gas permeation properties; Matrix permeability; Mixed matrix membranes; Polyethersulfones; Relative permeability; Synergetic effect, Gas permeable membranes
Depositing User: Ms Sharifah Fahimah Saiyed Yeop
Date Deposited: 25 Mar 2022 07:52
Last Modified: 25 Mar 2022 07:52
URI: http://scholars.utp.edu.my/id/eprint/30965

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