Anti-Foulant Ultrafiltration Polymer Composite Membranes Incorporated with Composite Activated Carbon/Chitosan and Activated Carbon/Thiolated Chitosan with Enhanced Hydrophilicity

Anti-Foulant Ultrafiltration Polymer Composite Membranes Incorporated with Composite Activated Carbon/Chitosan and Activated Carbon/Thiolated Chitosan with Enhanced Hydrophilicity

A rapid increase in population worldwide is giving rise to the severe problem of safe drinking water availability, necessitating the search for solutions that are effective and economical. For this purpose, membrane technology has shown a lot of promise but faces the challenge of fouling, leading to...

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Bibliographic Details
Main Authors: Syeda Samia Nayab, M. Asad Abbas, Shehla Mushtaq, Bilal Khan Niazi, Mehwish Batool, Gul Shehnaz, Naveed Ahmad, Nasir M. Ahmad
Format: article
Language:EN
Published: MDPI AG 2021
Subjects:
ultrafiltration
polyethersulfone
activated carbon
chitosan
thiolated chitosan
anti-fouling
Chemical technology
TP1-1185
Chemical engineering
TP155-156
Online Access:https://doaj.org/article/5a7e5c2484b94afea4238ac983e9c3f1
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Summary:A rapid increase in population worldwide is giving rise to the severe problem of safe drinking water availability, necessitating the search for solutions that are effective and economical. For this purpose, membrane technology has shown a lot of promise but faces the challenge of fouling, leading to a reduction in its lifetime. In this study, ultrafiltration polyethersulfone membranes were synthesized in two different concentrations, 16% wt. and 20% wt., using the phase inversion method. Chitosan and activated carbon were incorporated as individual fillers and then as composites in both the concentrations. A novel thiolated chitosan/activated carbon composite was introduced into a polyethersulfone membrane matrix. The membranes were then analyzed using Attenuated Total Reflection–Fourier-Transform Infrared spectroscopy(ATR-FTIR), Scanning Electron Microscopy (SEM), optical profilometry, gravimetric analysis, water retention, mechanical testing and contact angle. For membranes with the novel thiolated chitosan/activated carbon composite, Scanning Electron Microscopy micrographs showed better channels, indicating a better permeability possibility, reiterated by the flux rate results. The flux rate and bovine serum albumin flux were also assessed, and the results showed an increase from 105 L/m<sup>2</sup>h to 114 L/m<sup>2</sup>h for water flux and the antifouling determined by bovine serum albumin flux increased from 23 L/m<sup>2</sup>h to 51 L/m<sup>2</sup>h. The increase in values of water uptake from 22.84% to 76.5% and decrease in contact angle from 64.5 to 55.7 showed a significant increase in the hydrophilic character of the membrane.

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