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This book is a collation of articles published in the Special Issue "CESE-2019: Applications of Membranes" in the journal Sustainability. It contains a wide variety of topics such as the removal of trace organic contaminants using combined direct contact membrane distillation–UV photolysis; evaluating the feasibility of forward osmosis in diluting reverse osmosis concentrate; tailoring the effects of titanium dioxide (TiO2) and polyvinyl alcohol (PVA) in the separation and antifouling performance of thin-film composite polyvinylidene fluoride (PVDF) membrane; enhancing the antibacterial properties of PVDF membrane by surface modification using TiO2 and silver nanoparticles; and reviews on membrane fouling in membrane bioreactor (MBR) systems and recent advances in the prediction of fouling in MBRs. The book is suitable for postgraduate students and researchers working in the field of membrane applications for treating aqueous solutions.
Technology: general issues --- History of engineering & technology --- membrane fouling --- influencing factors --- control method --- biofouling --- fertilizers --- flat sheet --- flux --- forward osmosis (FO) --- hollow fibre --- reverse osmosis (RO) --- polyvinylidene fluoride membrane (PVDF) --- titanium dioxide nanoparticles (TiO2-NP) --- silver nanoparticles (AgNP) --- antibacterial property --- antifouling property --- photodegradation --- membrane distillation --- halide ions --- nitrate ions --- carbonate ions --- humic acid --- trace organic contaminants --- dip-coating --- dyes --- membrane --- nanocomposite --- polyvinylidene fluoride --- titanium dioxide --- artificial neural network --- mathematical model --- membrane bioreactor --- fouling prediction --- n/a
Choose an application
This book is a collation of articles published in the Special Issue "CESE-2019: Applications of Membranes" in the journal Sustainability. It contains a wide variety of topics such as the removal of trace organic contaminants using combined direct contact membrane distillation–UV photolysis; evaluating the feasibility of forward osmosis in diluting reverse osmosis concentrate; tailoring the effects of titanium dioxide (TiO2) and polyvinyl alcohol (PVA) in the separation and antifouling performance of thin-film composite polyvinylidene fluoride (PVDF) membrane; enhancing the antibacterial properties of PVDF membrane by surface modification using TiO2 and silver nanoparticles; and reviews on membrane fouling in membrane bioreactor (MBR) systems and recent advances in the prediction of fouling in MBRs. The book is suitable for postgraduate students and researchers working in the field of membrane applications for treating aqueous solutions.
membrane fouling --- influencing factors --- control method --- biofouling --- fertilizers --- flat sheet --- flux --- forward osmosis (FO) --- hollow fibre --- reverse osmosis (RO) --- polyvinylidene fluoride membrane (PVDF) --- titanium dioxide nanoparticles (TiO2-NP) --- silver nanoparticles (AgNP) --- antibacterial property --- antifouling property --- photodegradation --- membrane distillation --- halide ions --- nitrate ions --- carbonate ions --- humic acid --- trace organic contaminants --- dip-coating --- dyes --- membrane --- nanocomposite --- polyvinylidene fluoride --- titanium dioxide --- artificial neural network --- mathematical model --- membrane bioreactor --- fouling prediction --- n/a
Choose an application
This book is a collation of articles published in the Special Issue "CESE-2019: Applications of Membranes" in the journal Sustainability. It contains a wide variety of topics such as the removal of trace organic contaminants using combined direct contact membrane distillation–UV photolysis; evaluating the feasibility of forward osmosis in diluting reverse osmosis concentrate; tailoring the effects of titanium dioxide (TiO2) and polyvinyl alcohol (PVA) in the separation and antifouling performance of thin-film composite polyvinylidene fluoride (PVDF) membrane; enhancing the antibacterial properties of PVDF membrane by surface modification using TiO2 and silver nanoparticles; and reviews on membrane fouling in membrane bioreactor (MBR) systems and recent advances in the prediction of fouling in MBRs. The book is suitable for postgraduate students and researchers working in the field of membrane applications for treating aqueous solutions.
Technology: general issues --- History of engineering & technology --- membrane fouling --- influencing factors --- control method --- biofouling --- fertilizers --- flat sheet --- flux --- forward osmosis (FO) --- hollow fibre --- reverse osmosis (RO) --- polyvinylidene fluoride membrane (PVDF) --- titanium dioxide nanoparticles (TiO2-NP) --- silver nanoparticles (AgNP) --- antibacterial property --- antifouling property --- photodegradation --- membrane distillation --- halide ions --- nitrate ions --- carbonate ions --- humic acid --- trace organic contaminants --- dip-coating --- dyes --- membrane --- nanocomposite --- polyvinylidene fluoride --- titanium dioxide --- artificial neural network --- mathematical model --- membrane bioreactor --- fouling prediction
Choose an application
The present Special Issue brings together recent research findings from renowned scientists in the field of water treatment and assembled contributions on advanced technologies applied to the treatment of wastewater and drinking water, with emphasis on novel membrane treatment technologies. 12 research contributions have highlighted various processes and technologies, which can achieve effective treatment and purification of wastewater and of drinking water, aiming (occasionally) for water reuse. The main topics which are analyzed are the use of novel type membranes in bioreactors, the use of modified membranes, for example using vacuum membrane distillation, the fouling of membranes, the problem of arsenic, antimony and chromium contamination in groundwaters and its removal and the use of novel technologies for more efficient ozonation.
hollow fiber membranes --- modeling --- small sized powdered ferric hydroxide --- ceramic membranes --- multiphase --- antimony treatment --- winery effluents --- fouling --- municipal wastewater sludge --- particle size distribution --- ultrafiltration --- coagulation --- HA–BSA mixtures --- Sb(III) --- water treatment --- chromate --- separation --- backwash duration --- water crisis --- adsorption --- dewatering --- hexavalent chromium --- arsenic adsorption --- polydimethylsiloxane --- vacuum membrane distillation --- co-treatment --- desalination --- arsenic --- mass transfer --- produced water treatment --- membranes --- process control --- membrane resistance --- granular ferric hydroxide --- ozonation --- Membrane Bioreactor --- hollow fibre --- crossflow membrane filtration --- microfiltration --- membrane filtration --- xDLVO theory --- Fe-based coagulants --- wastewater treatment --- cake resistance --- Sb(V) --- peroxone --- temperature --- drinking water --- trickling biofilter --- natural organic matter (NOM) --- antimony --- second cheese whey --- sodium alginate --- optical sensors --- bioethanol recovery --- membrane fouling --- interaction energy --- TMP --- adsorption kinetics --- water matrix --- multivariate statistics --- polluted waters --- natural organic matter --- operation --- solution conditions --- biofilm membrane bioreactor
Choose an application
The present Special Issue brings together recent research findings from renowned scientists in the field of water treatment and assembled contributions on advanced technologies applied to the treatment of wastewater and drinking water, with emphasis on novel membrane treatment technologies. 12 research contributions have highlighted various processes and technologies, which can achieve effective treatment and purification of wastewater and of drinking water, aiming (occasionally) for water reuse. The main topics which are analyzed are the use of novel type membranes in bioreactors, the use of modified membranes, for example using vacuum membrane distillation, the fouling of membranes, the problem of arsenic, antimony and chromium contamination in groundwaters and its removal and the use of novel technologies for more efficient ozonation.
hollow fiber membranes --- modeling --- small sized powdered ferric hydroxide --- ceramic membranes --- multiphase --- antimony treatment --- winery effluents --- fouling --- municipal wastewater sludge --- particle size distribution --- ultrafiltration --- coagulation --- HA–BSA mixtures --- Sb(III) --- water treatment --- chromate --- separation --- backwash duration --- water crisis --- adsorption --- dewatering --- hexavalent chromium --- arsenic adsorption --- polydimethylsiloxane --- vacuum membrane distillation --- co-treatment --- desalination --- arsenic --- mass transfer --- produced water treatment --- membranes --- process control --- membrane resistance --- granular ferric hydroxide --- ozonation --- Membrane Bioreactor --- hollow fibre --- crossflow membrane filtration --- microfiltration --- membrane filtration --- xDLVO theory --- Fe-based coagulants --- wastewater treatment --- cake resistance --- Sb(V) --- peroxone --- temperature --- drinking water --- trickling biofilter --- natural organic matter (NOM) --- antimony --- second cheese whey --- sodium alginate --- optical sensors --- bioethanol recovery --- membrane fouling --- interaction energy --- TMP --- adsorption kinetics --- water matrix --- multivariate statistics --- polluted waters --- natural organic matter --- operation --- solution conditions --- biofilm membrane bioreactor
Choose an application
The present Special Issue brings together recent research findings from renowned scientists in the field of water treatment and assembled contributions on advanced technologies applied to the treatment of wastewater and drinking water, with emphasis on novel membrane treatment technologies. 12 research contributions have highlighted various processes and technologies, which can achieve effective treatment and purification of wastewater and of drinking water, aiming (occasionally) for water reuse. The main topics which are analyzed are the use of novel type membranes in bioreactors, the use of modified membranes, for example using vacuum membrane distillation, the fouling of membranes, the problem of arsenic, antimony and chromium contamination in groundwaters and its removal and the use of novel technologies for more efficient ozonation.
hollow fiber membranes --- modeling --- small sized powdered ferric hydroxide --- ceramic membranes --- multiphase --- antimony treatment --- winery effluents --- fouling --- municipal wastewater sludge --- particle size distribution --- ultrafiltration --- coagulation --- HA–BSA mixtures --- Sb(III) --- water treatment --- chromate --- separation --- backwash duration --- water crisis --- adsorption --- dewatering --- hexavalent chromium --- arsenic adsorption --- polydimethylsiloxane --- vacuum membrane distillation --- co-treatment --- desalination --- arsenic --- mass transfer --- produced water treatment --- membranes --- process control --- membrane resistance --- granular ferric hydroxide --- ozonation --- Membrane Bioreactor --- hollow fibre --- crossflow membrane filtration --- microfiltration --- membrane filtration --- xDLVO theory --- Fe-based coagulants --- wastewater treatment --- cake resistance --- Sb(V) --- peroxone --- temperature --- drinking water --- trickling biofilter --- natural organic matter (NOM) --- antimony --- second cheese whey --- sodium alginate --- optical sensors --- bioethanol recovery --- membrane fouling --- interaction energy --- TMP --- adsorption kinetics --- water matrix --- multivariate statistics --- polluted waters --- natural organic matter --- operation --- solution conditions --- biofilm membrane bioreactor --- hollow fiber membranes --- modeling --- small sized powdered ferric hydroxide --- ceramic membranes --- multiphase --- antimony treatment --- winery effluents --- fouling --- municipal wastewater sludge --- particle size distribution --- ultrafiltration --- coagulation --- HA–BSA mixtures --- Sb(III) --- water treatment --- chromate --- separation --- backwash duration --- water crisis --- adsorption --- dewatering --- hexavalent chromium --- arsenic adsorption --- polydimethylsiloxane --- vacuum membrane distillation --- co-treatment --- desalination --- arsenic --- mass transfer --- produced water treatment --- membranes --- process control --- membrane resistance --- granular ferric hydroxide --- ozonation --- Membrane Bioreactor --- hollow fibre --- crossflow membrane filtration --- microfiltration --- membrane filtration --- xDLVO theory --- Fe-based coagulants --- wastewater treatment --- cake resistance --- Sb(V) --- peroxone --- temperature --- drinking water --- trickling biofilter --- natural organic matter (NOM) --- antimony --- second cheese whey --- sodium alginate --- optical sensors --- bioethanol recovery --- membrane fouling --- interaction energy --- TMP --- adsorption kinetics --- water matrix --- multivariate statistics --- polluted waters --- natural organic matter --- operation --- solution conditions --- biofilm membrane bioreactor
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