Reprint

Advanced Membrane Technologies for Wastewater Treatment and Recycling

Edited by
September 2023
296 pages
  • ISBN978-3-0365-8862-9 (Hardback)
  • ISBN978-3-0365-8863-6 (PDF)

This is a Reprint of the Special Issue Advanced Membrane Technologies for Wastewater Treatment and Recycling that was published in

Biology & Life Sciences
Chemistry & Materials Science
Engineering
Summary

In light of the escalating challenge posed by water scarcity, membrane technology has been extensively harnessed in wastewater treatment and recycling, owing to its distinctive advantages. This reprint focuses on cutting-edge advancements and forthcoming prospects in membrane technologies applied to wastewater treatment and recycling. It encompasses membrane fabrication and modification, the utilization of membrane bioreactors in wastewater treatment, the dynamics of water transport during membrane filtration, the elucidation of membrane fouling mechanisms, strategies for mitigating fouling, and various other pertinent topics.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
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