This study explains the use of a ultrafiltration membrane made of polyvinyl pyrrolidone (PVP) and poly(ether ether sulfone) (PEES)/Nano-titania (n-TiO) for the separation of organic compounds. The results of the tests for porosity, water content, surface chemistry, membrane morphology, and contact angle demonstrated that the developed membranes have more hydrophilicity than PEES membranes due to the redundant hydrophilic nature of PVP and n-TiO. The membrane pure water flux, which contains 5 wt% PVP and 1.5 wt% n-TiO was 312.76 Lmh, about three-fold higher than that of pristine membrane (95.71 Lmh). Employing bovine serum albumin as a model foulant, the fouling resistance of the PEES/PVP/n-TiO membrane was examined. According to the analysis of flux recovery ratio and irreversible resistance, modified membranes were less likely to foul, and the PEES/n-TiO membrane with 5% PVP addition was recommended as optimal. The fabricated membranes effectively removed more than 95% of various organic compounds such as humic acid, safranin O, egg albumin, pepsin, and trypsin from aqueous solution. Permeability of safranin O and humic acid of PEES/PVP/n-TiO membranes was about 118 Lmh and 138 Lmh, respectively.
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| http://dx.doi.org/10.1016/j.jhazmat.2021.127467 | DOI Listing |
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