Membrane-based Hybrid Processes for Wastewater Treatment
portes grátis
Membrane-based Hybrid Processes for Wastewater Treatment
Shah, Maulin P.; Rodriguez-Couto, Susana
Elsevier Science Publishing Co Inc
06/2021
730
Mole
Inglês
9780128238042
15 a 20 dias
1380
Descrição não disponível.
1. The industrial development of polymeric membranes and membrane modules for reverse osmosis and ultrafiltration2. Moving bed biofilm reactors3. Biofilms, filtration, microbial kinetics and mechanism of degradation: a revolutionary approach4. Wastewater treatment by membrane bioreactor as potent and advanced technology5. Catalytic membranes for the treatment of oily wastewater6. Application of membrane-based hybrid process on paint industry wastewater treatment7. Application of nanotechnology in membrane-based wastewater treatment: a critical review8. Application of nanoparticles in polymeric and ceramic membrane structure in wastewater treatment9. Anaerobic membrane bioreactor for wastewater treatment: present state of the art10. Permselective membranes for wastewater treatment11. Membrane-based hybrid processes in industrial waste effluent treatment12. Membrane reactors13. Hybrid membrane process: an emerging and promising technique toward industrial wastewater treatment14. Pharmaceuticals in water: Equilibrium and thermodynamic aspects of adsorption on activated carbon for wastewater treatment15. Hybrid membrane technique: a technological advancement of textile waste effluent treatment16. Industrial wastewater treatment by membrane process17. Synthesis of thin film nanocomposite membranes and their application in dye removal from wastewater18. Hybrid membrane technology: demand of present wastewater scenario19. Membrane-based technologies for industrial wastewater treatment and resource recovery20. Membrane bioreactors for wastewater treatment21. Environmental aspects of fluoride contamination and treatment of wastewater using hybrid technology22. Sustainable biological approach for removal of cyanide from wastewater of a metal-finishing industry23. Hybrid membrane technology: an alternative to industrial wastewater treatment 24. Developments in membrane bioreactor technologies and evaluation on case study applications for recycle and reuse of miscellaneous wastewaters25. Modeling aspects of membrane-based industrial wastewater treatment26. Aerobic membrane bioreactor for the efficient wastewater treatment: recent advances27. Emerging nano enhanced membranebased hybrid processes for complex industrial wastewater treatment28. Nanomembranes for ultrapurification and water treatment
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?AOP; Activated carbon; Activated sludge; Adsorbent; Adsorption; Anion separation; Biodegradation; Biofilm; Biofilm assay; Biofiltration; Biomethane; Bioreactor; Bioremoval; COD removal; Carbon nanotubes; Carriers; Catalytic nanoparticles; Chemical interactions; Coagulation; Contaminants; Counterions; Cyanide; Denitrification; Donnan effect; Donnan exclusion; Donnan potential; Dye removal; Eco-green environment; Energy; Environment; Environmental pollutants; Enzymatic catalysis; Filtration; Fluoride; Graphene; Heavy metals; Human health; Hybrid membrane; Hybrid membranes; Hybrid process; Hybrid processes; Hybrid systems; Hybrid technology; Improved surface properties; Industrial effluent; Industrial waste effluent; Industrial wastewater; Kinetics; Liquid effluent; MBBRs; MBR; Mass transfer processes; Matrix material; Mechanism; Membrane; Membrane bioreactor; Membrane bioreactor (MBR); Membrane bioreactors; Membrane distillation; Membrane fouling; Membrane process; Membrane processes; Membrane separation processes; Membrane technology; Membrane-based hybrid process; Membranes; Metal-finishing; Modeling; Municipal wastewater; Nanocomposite membrane; Nanofiltration; Nanomaterials; Nanoparticles; Nanotechnology; Nanotechnology-enabled filtration; Nitrification; Nutrient recovery; Oil; Osmosis; Paint industry effluent; Permeate flux; Pharmaceuticals; Photocatalysis; Pollution; Polymeric and ceramic membrane structure; Polyvinylidene fluoride; Pressure driven membrane; Reuse/recycling; SAB; Scale-up; Separation efficiency; Submerged MBR; Textile industry; Thermally driven membrane; Thermodynamic functions; Thin film nanocomposite; Types of biofilm bioreactors; Ultrafiltration; Waste water treatment; Wastewater
1. The industrial development of polymeric membranes and membrane modules for reverse osmosis and ultrafiltration2. Moving bed biofilm reactors3. Biofilms, filtration, microbial kinetics and mechanism of degradation: a revolutionary approach4. Wastewater treatment by membrane bioreactor as potent and advanced technology5. Catalytic membranes for the treatment of oily wastewater6. Application of membrane-based hybrid process on paint industry wastewater treatment7. Application of nanotechnology in membrane-based wastewater treatment: a critical review8. Application of nanoparticles in polymeric and ceramic membrane structure in wastewater treatment9. Anaerobic membrane bioreactor for wastewater treatment: present state of the art10. Permselective membranes for wastewater treatment11. Membrane-based hybrid processes in industrial waste effluent treatment12. Membrane reactors13. Hybrid membrane process: an emerging and promising technique toward industrial wastewater treatment14. Pharmaceuticals in water: Equilibrium and thermodynamic aspects of adsorption on activated carbon for wastewater treatment15. Hybrid membrane technique: a technological advancement of textile waste effluent treatment16. Industrial wastewater treatment by membrane process17. Synthesis of thin film nanocomposite membranes and their application in dye removal from wastewater18. Hybrid membrane technology: demand of present wastewater scenario19. Membrane-based technologies for industrial wastewater treatment and resource recovery20. Membrane bioreactors for wastewater treatment21. Environmental aspects of fluoride contamination and treatment of wastewater using hybrid technology22. Sustainable biological approach for removal of cyanide from wastewater of a metal-finishing industry23. Hybrid membrane technology: an alternative to industrial wastewater treatment 24. Developments in membrane bioreactor technologies and evaluation on case study applications for recycle and reuse of miscellaneous wastewaters25. Modeling aspects of membrane-based industrial wastewater treatment26. Aerobic membrane bioreactor for the efficient wastewater treatment: recent advances27. Emerging nano enhanced membranebased hybrid processes for complex industrial wastewater treatment28. Nanomembranes for ultrapurification and water treatment
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?AOP; Activated carbon; Activated sludge; Adsorbent; Adsorption; Anion separation; Biodegradation; Biofilm; Biofilm assay; Biofiltration; Biomethane; Bioreactor; Bioremoval; COD removal; Carbon nanotubes; Carriers; Catalytic nanoparticles; Chemical interactions; Coagulation; Contaminants; Counterions; Cyanide; Denitrification; Donnan effect; Donnan exclusion; Donnan potential; Dye removal; Eco-green environment; Energy; Environment; Environmental pollutants; Enzymatic catalysis; Filtration; Fluoride; Graphene; Heavy metals; Human health; Hybrid membrane; Hybrid membranes; Hybrid process; Hybrid processes; Hybrid systems; Hybrid technology; Improved surface properties; Industrial effluent; Industrial waste effluent; Industrial wastewater; Kinetics; Liquid effluent; MBBRs; MBR; Mass transfer processes; Matrix material; Mechanism; Membrane; Membrane bioreactor; Membrane bioreactor (MBR); Membrane bioreactors; Membrane distillation; Membrane fouling; Membrane process; Membrane processes; Membrane separation processes; Membrane technology; Membrane-based hybrid process; Membranes; Metal-finishing; Modeling; Municipal wastewater; Nanocomposite membrane; Nanofiltration; Nanomaterials; Nanoparticles; Nanotechnology; Nanotechnology-enabled filtration; Nitrification; Nutrient recovery; Oil; Osmosis; Paint industry effluent; Permeate flux; Pharmaceuticals; Photocatalysis; Pollution; Polymeric and ceramic membrane structure; Polyvinylidene fluoride; Pressure driven membrane; Reuse/recycling; SAB; Scale-up; Separation efficiency; Submerged MBR; Textile industry; Thermally driven membrane; Thermodynamic functions; Thin film nanocomposite; Types of biofilm bioreactors; Ultrafiltration; Waste water treatment; Wastewater
