LAUSR

Abstract Membrane separation technology is an ideal choice for wastewater treatment due to its low energy consumption and cost. However, membrane separation is limited by easy fouling and low separation efficiency. Therefore, the preparation of membranes with outstanding anti-fouling properties and stable flux is the key to address this problem. Herein, attapulgite (APT) coated polyacrylonitrile (PAN) nanofiber (ACPN) membrane was fabricated through electrospinning and vacuum-filtration assembly. The as-prepared ACPN membrane with micro/nano multi-layer structure exhibited excellent underwater superoleophobicity. The ACPN membrane can be employed to effectively separate a range of surfactant-stabilized oil-in-water emulsions, even high-viscosity crude oil-in-water emulsions with separation efficiency higher than 99.4%. Moreover, after 15 cycles of reusability, the membrane still displayed outstanding separation efficiency and stable permeation flux. Surprisingly, the prepared membrane was also proved to have superior mechanical stability and anti-oil fouling performance. Most importantly, the robust mechanical and chemical stability makes the antifouling ACPN membrane exhibiting prospective potential in the remediation of wastewater containing crude oil, which making it a competitive candidate in oil-water separation.