Advanced Membrane Technologies for Wastewater Treatment and Recycling

© 2022 by the authors; CC BY-NC-ND license

partial nitrification-denitrification; hydrogen autotrophic denitrification; MBR-MBfR; nanofiltration; metal-coordination; polyphenol; dye/salt separation; antifouling; droplet method; carbon nanotubes; porous materials; interfacial evaporation; solar energy materials; membrane-aerated biofilm reactor; thermophilic membrane-aerated biofilm reactor; thermophilic biological treatment; biofilm; mass transfer; modeling; PVDF; hollow fiber membranes; vacuum membrane distillation; flux; liquid entry pressure; wastewater treatment; desalination; blend membrane; water treatment; antifouling modification; hydrophilic; polycationic liquid; membrane fouling; mixed matrix membranes; D-amino acid; graphene oxide (GO); biofouling control; powdered activated carbon; ultrafiltration; particle size; cleaning; fouling; membrane photobioreactor; microalgae decay; solids retention time; treatment performance; biomass properties; municipal wastewater treatment; high-flux membranes; artificial water channels; COFs; composite structure; modelling of organophilic pervaporation; vacuum fractionated condensation; aroma recovery; valorisation of canning industry effluents; removal of off-flavours; membrane fouling; humic acid; calcium ion; hydraulic resistance; ultrafiltration process; NMR; spectroscopy; diffusometry; relaxometry; cellulose acetate; asymmetric membranes; ultrafiltration; nanofiltration; nanofiltration; polyelectrolyte complex membrane; polystyrene sulfonate particles; charged mosaic membranes; gas permeable membrane; coagulation–flocculation; resource recovery; circular economy; techno-economic evaluation; homogeniser; PVDF; GO nanosheets; ultrafiltration membrane; lignin-containing cellulose nanofibrils; oil-water separation; water filtration; surface modification; industrial wastewater; moving bed biofilm reactor; membrane bioreactor; membrane distillation; hybrid process; n/a