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Journal ArticleOpen Access

Skin-replaceable antifouling cellulose ceramic membranes from jute agro-waste for sustainable and efficient oily wastewater treatment

Author Affiliations
King Fahd University of Petroleum and Minerals, Lund University, University of Southampton, Imam Abdulrahman Bin Faisal University, ...
Published Innpj Clean Water
Year2026
Citations3

Abstract

Abstract Oily wastewater presents a serious environmental challenge, demanding sustainable and regenerative membrane technologies. Here, we report a green and scalable method for fabricating skin-replaceable cellulose membranes (SRC-M) from jute agro-waste, using a NaOH/urea activation route and argon-pressurized deposition onto ceramic supports. The resulting Cellulose II -based asymmetric membranes exhibit high water flux (~470 L m⁻²h⁻¹) and >98% oil rejection across various emulsions. Notably, the membrane’s surface can be fully renewed via ultrasonication, restoring >99% of the original flux after 16 fouling cycles. Density functional theory (DFT) calculations confirm the thermodynamic stability (ΔG = -0.162 eV) and low kinetic barrier (0.46 eV) of urea adsorption on cellulose, supporting the dissolution mechanism and regeneration behavior. This biodegradable, self-renewable membrane system offers…
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