Treatment of Heavy-Metal-Containing Oily Wastewater Using a Novel α-Zirconium-Phosphate/Polyacrylonitrile Ultrafiltration Membrane

Abstract: For most work on separation membrane for oily wastewater, heavy metals in oily wastewater may pollute the environment. Novel α-zirconium-phosphate-nanoparticle/polyacrylonitrile (α-ZrP-NP/PAN) mixed matrix membranes (MMMs) were prepared for effective oily wastewater treatment. The α-ZrP-NP contributed abundant –OH groups to the MMMs and enhanced their hydrophilicity. Meanwhile, the surface of the MMMs carried enhanced negative charges due to the α-ZrP-NP in the pH range of 3–10. Scanning electron microscopic … Show more

“…Furthermore, Ikhsan et al reported high permeate flux and enhanced oil rejection by blending a PES membrane with halloysite nanotube-hydrous ferric dioxide ( Abdel-Aty et al, 2020 ). The recent advancements in membrane technology demonstrate a growing interest in developing efficient ‘water-removing’ materials tailored for addressing the challenges posed by oil-in-water emulsions ( Shen et al, 2023 ; Yang et al, 2022 ). Notably, Ge and collaborators successfully engineered a composite membrane combining microspheres and nanofibers, showcasing a remarkable capability for microscale oil-in-water emulsion separation through innovative electrospinning and electrospraying techniques ( Ge et al, 2017 ).…”

Enhancing oil–water emulsion separation via synergistic filtration using graphene oxide–silver oxide nanocomposite-embedded polyethersulfone membrane

“…Furthermore, Ikhsan et al reported high permeate flux and enhanced oil rejection by blending a PES membrane with halloysite nanotube-hydrous ferric dioxide ( Abdel-Aty et al, 2020 ). The recent advancements in membrane technology demonstrate a growing interest in developing efficient ‘water-removing’ materials tailored for addressing the challenges posed by oil-in-water emulsions ( Shen et al, 2023 ; Yang et al, 2022 ). Notably, Ge and collaborators successfully engineered a composite membrane combining microspheres and nanofibers, showcasing a remarkable capability for microscale oil-in-water emulsion separation through innovative electrospinning and electrospraying techniques ( Ge et al, 2017 ).…”

Enhancing oil–water emulsion separation via synergistic filtration using graphene oxide–silver oxide nanocomposite-embedded polyethersulfone membrane

“…The contamination of water sources by heavy metal ions, particularly iron (Fe) and manganese (Mn), has emerged as a global concern due to its profound impact on environmental ecosystems and public health ( Fernandez-Luqueno et al, 2013 ; Mukherjee et al, 2021 ; Shen et al, 2023 ; Yang et al, 2022 ). The escalation of industrial activities, mining operations and urbanization has unleashed a torrent of heavy metals into aquatic systems, resulting in severe pollution that jeopardizes ecosystems and human well-being ( Danielopol et al, 2003 ; Jin et al, 2022 ; Meng et al, 2022 ).…”

Enhanced removal of iron (Fe) and manganese (Mn) ions from contaminated water using graphene oxide-decorated polyethersulphone membranes: Synthesis and characterization

Recent advances and mechanisms of microbial bioremediation of nickel from wastewater