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This book, titled “Nanofiltration Membranes: Recent Advances and Environmental Applications”, aims to assess the recent developments and advances in all the aspects related to nanofiltration (NF) technology and its environmental applications. This book has ten articles, including eight research articles and two reviews. Various topics are discussed, including fabrication of organic and inorganic NF membranes, tailoring NF membranes’ surface properties, the application of NF in side-stream valorization, using NF technology in combination with other membrane technologies such as ultrafiltration (UF) and reverse osmosis (RO), wide-range applications of NF for removing organic and inorganic pollutants and viruses, and a detailed sustainability assessment of the use of NF technology via life cycle assessment (LCA).
nanofiltration --- ibuprofen --- adsorption --- enantiomer --- chirality --- removal --- ionic liquids (ILs) --- membranes --- liquid separation --- modifier --- solvent --- colloidal fouling --- membrane patterning --- membrane surface modification --- threshold flux --- thin-film composite membranes --- groundwater --- reclamation --- VOC --- membrane bioreactor (MBR) --- secondary effluent --- ultrafiltration (UF) --- inorganics --- Nanofiltration (NF) --- reverse Osmosis (RO) --- chemical oxygen demand (COD) --- municipal wastewater treatment works (MWWTWs) --- flux --- reuse --- goat cheese whey --- ultrafiltration --- dilution mode --- membrane --- mixed-matrix membranes --- MMMs --- fabrication --- membrane fouling --- nanomaterials --- phase-inversion process --- interfacial polymerization --- electrospinning --- wastewater reuse --- organic matter --- ozonation --- life cycle assessment (LCA) --- hybrid desalination --- multi-stage flash (MSF) --- reverse osmosis (RO) --- nanofiltration (NF) --- drinking water --- virus removal --- MS2 bacteriophage --- fr bacteriophage --- granules --- ceramic filters --- n/a
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This book, titled “Nanofiltration Membranes: Recent Advances and Environmental Applications”, aims to assess the recent developments and advances in all the aspects related to nanofiltration (NF) technology and its environmental applications. This book has ten articles, including eight research articles and two reviews. Various topics are discussed, including fabrication of organic and inorganic NF membranes, tailoring NF membranes’ surface properties, the application of NF in side-stream valorization, using NF technology in combination with other membrane technologies such as ultrafiltration (UF) and reverse osmosis (RO), wide-range applications of NF for removing organic and inorganic pollutants and viruses, and a detailed sustainability assessment of the use of NF technology via life cycle assessment (LCA).
Technology: general issues --- History of engineering & technology --- Environmental science, engineering & technology --- nanofiltration --- ibuprofen --- adsorption --- enantiomer --- chirality --- removal --- ionic liquids (ILs) --- membranes --- liquid separation --- modifier --- solvent --- colloidal fouling --- membrane patterning --- membrane surface modification --- threshold flux --- thin-film composite membranes --- groundwater --- reclamation --- VOC --- membrane bioreactor (MBR) --- secondary effluent --- ultrafiltration (UF) --- inorganics --- Nanofiltration (NF) --- reverse Osmosis (RO) --- chemical oxygen demand (COD) --- municipal wastewater treatment works (MWWTWs) --- flux --- reuse --- goat cheese whey --- ultrafiltration --- dilution mode --- membrane --- mixed-matrix membranes --- MMMs --- fabrication --- membrane fouling --- nanomaterials --- phase-inversion process --- interfacial polymerization --- electrospinning --- wastewater reuse --- organic matter --- ozonation --- life cycle assessment (LCA) --- hybrid desalination --- multi-stage flash (MSF) --- reverse osmosis (RO) --- nanofiltration (NF) --- drinking water --- virus removal --- MS2 bacteriophage --- fr bacteriophage --- granules --- ceramic filters --- nanofiltration --- ibuprofen --- adsorption --- enantiomer --- chirality --- removal --- ionic liquids (ILs) --- membranes --- liquid separation --- modifier --- solvent --- colloidal fouling --- membrane patterning --- membrane surface modification --- threshold flux --- thin-film composite membranes --- groundwater --- reclamation --- VOC --- membrane bioreactor (MBR) --- secondary effluent --- ultrafiltration (UF) --- inorganics --- Nanofiltration (NF) --- reverse Osmosis (RO) --- chemical oxygen demand (COD) --- municipal wastewater treatment works (MWWTWs) --- flux --- reuse --- goat cheese whey --- ultrafiltration --- dilution mode --- membrane --- mixed-matrix membranes --- MMMs --- fabrication --- membrane fouling --- nanomaterials --- phase-inversion process --- interfacial polymerization --- electrospinning --- wastewater reuse --- organic matter --- ozonation --- life cycle assessment (LCA) --- hybrid desalination --- multi-stage flash (MSF) --- reverse osmosis (RO) --- nanofiltration (NF) --- drinking water --- virus removal --- MS2 bacteriophage --- fr bacteriophage --- granules --- ceramic filters
Choose an application
This book, titled “Nanofiltration Membranes: Recent Advances and Environmental Applications”, aims to assess the recent developments and advances in all the aspects related to nanofiltration (NF) technology and its environmental applications. This book has ten articles, including eight research articles and two reviews. Various topics are discussed, including fabrication of organic and inorganic NF membranes, tailoring NF membranes’ surface properties, the application of NF in side-stream valorization, using NF technology in combination with other membrane technologies such as ultrafiltration (UF) and reverse osmosis (RO), wide-range applications of NF for removing organic and inorganic pollutants and viruses, and a detailed sustainability assessment of the use of NF technology via life cycle assessment (LCA).
Technology: general issues --- History of engineering & technology --- Environmental science, engineering & technology --- nanofiltration --- ibuprofen --- adsorption --- enantiomer --- chirality --- removal --- ionic liquids (ILs) --- membranes --- liquid separation --- modifier --- solvent --- colloidal fouling --- membrane patterning --- membrane surface modification --- threshold flux --- thin-film composite membranes --- groundwater --- reclamation --- VOC --- membrane bioreactor (MBR) --- secondary effluent --- ultrafiltration (UF) --- inorganics --- Nanofiltration (NF) --- reverse Osmosis (RO) --- chemical oxygen demand (COD) --- municipal wastewater treatment works (MWWTWs) --- flux --- reuse --- goat cheese whey --- ultrafiltration --- dilution mode --- membrane --- mixed-matrix membranes --- MMMs --- fabrication --- membrane fouling --- nanomaterials --- phase-inversion process --- interfacial polymerization --- electrospinning --- wastewater reuse --- organic matter --- ozonation --- life cycle assessment (LCA) --- hybrid desalination --- multi-stage flash (MSF) --- reverse osmosis (RO) --- nanofiltration (NF) --- drinking water --- virus removal --- MS2 bacteriophage --- fr bacteriophage --- granules --- ceramic filters --- n/a
Choose an application
Energy is a fundamental social need and plays an essential role in driving economic growth. The emerging economy requires the support of a reliable, affordable, and energy system with low carbon emissions and air pollutants. System design is important in facilitating sustainable development. Various works that aspire to promote sustainable system design by addressing the issues of enhancing energy and environmental performance were presented in the Special Issue (SI) of the 22nd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’19). The contribution can be categorised into four topics focused on modelling, simulation, optimisation, and assessment studies, on the topics of: (a) heat integration and heat transfer, (b) integrated and newly developed heat exchangers, (c) integration of renewables (d) roles in economic and environmental sustainability. This book is complemented with an editorial review, to highlight the broader state-of-the-art development.
Research & information: general --- Process Integration --- heat pumps --- Joule cycle heat pump --- Pinch Analysis --- evaporation --- condensation --- surface-enhanced tube --- heat transfer coefficient --- fossil-intensive industrial processes --- decarbonization technologies --- reactive absorption/adsorption CO2 capture systems --- modeling --- simulation --- and process integration --- techno-economic and environmental assessments --- improved superstructure --- HENs --- utility system --- steam heater --- MINLP --- heat exchanger network (HEN) --- retrofit --- flexibility --- optimization --- critical points --- multi-period --- flow distribution --- process and power industry equipment --- finite element analysis --- waste-originated feedstock --- isomerization --- biogasoline --- benzene-free --- increased octane number --- CFD modelling --- heat treatment process --- industrial furnaces --- natural gas substitution --- syngas co-firing --- biofuel --- bioenergy --- supply chain --- Malaysia --- Indonesia --- Thailand --- interdisciplinary --- integrated assessment --- gravity-driven particle flow --- discrete element method --- heat transfer enhancement --- acrylic acid --- propylene oxidation --- multitubular reactor --- biowaste --- waste-to-energy --- composting --- fermentation --- greenhouse gases --- global warming potential --- energy-related carbon emissions --- carbon flow --- Sankey diagrams --- structural changes --- TRO index --- energy allocation analysis --- energy system --- exergy footprint --- sustainability --- process systems engineering --- exergy accounting --- desalination --- multi-effect distillation --- multi-stage flash --- mechanical vapor compression --- reverse osmosis --- renewable energy --- waste materials --- sewage sludge --- riverbank grass --- rumen fluid --- pretreatment of waste --- determination of parameters --- biomass boilers --- fuel cell --- solar thermal --- electrode boiler --- steam systems --- food processing industry --- decarbonisation --- energy costs --- Shifted Retrofit Thermodynamic Grid Diagram (SRTGD) --- type selection --- CO2 emissions --- electricity planning --- CO2 Constrained Energy Planning (CCEP) --- approaches for CCEP --- aluminum products --- ammonia synthesis --- plate heat exchanger --- heat transfer --- multi-pass arrangement --- optimal design --- energy efficiency --- environmental sustainability --- heat integration --- economic sustainability --- optimisation and modelling tools --- Acree model --- dielectric constant --- ethanol --- impedance --- King and Queen model --- microwave heating --- binary mixtures --- NaCl --- permittivity --- water --- Process Integration --- heat pumps --- Joule cycle heat pump --- Pinch Analysis --- evaporation --- condensation --- surface-enhanced tube --- heat transfer coefficient --- fossil-intensive industrial processes --- decarbonization technologies --- reactive absorption/adsorption CO2 capture systems --- modeling --- simulation --- and process integration --- techno-economic and environmental assessments --- improved superstructure --- HENs --- utility system --- steam heater --- MINLP --- heat exchanger network (HEN) --- retrofit --- flexibility --- optimization --- critical points --- multi-period --- flow distribution --- process and power industry equipment --- finite element analysis --- waste-originated feedstock --- isomerization --- biogasoline --- benzene-free --- increased octane number --- CFD modelling --- heat treatment process --- industrial furnaces --- natural gas substitution --- syngas co-firing --- biofuel --- bioenergy --- supply chain --- Malaysia --- Indonesia --- Thailand --- interdisciplinary --- integrated assessment --- gravity-driven particle flow --- discrete element method --- heat transfer enhancement --- acrylic acid --- propylene oxidation --- multitubular reactor --- biowaste --- waste-to-energy --- composting --- fermentation --- greenhouse gases --- global warming potential --- energy-related carbon emissions --- carbon flow --- Sankey diagrams --- structural changes --- TRO index --- energy allocation analysis --- energy system --- exergy footprint --- sustainability --- process systems engineering --- exergy accounting --- desalination --- multi-effect distillation --- multi-stage flash --- mechanical vapor compression --- reverse osmosis --- renewable energy --- waste materials --- sewage sludge --- riverbank grass --- rumen fluid --- pretreatment of waste --- determination of parameters --- biomass boilers --- fuel cell --- solar thermal --- electrode boiler --- steam systems --- food processing industry --- decarbonisation --- energy costs --- Shifted Retrofit Thermodynamic Grid Diagram (SRTGD) --- type selection --- CO2 emissions --- electricity planning --- CO2 Constrained Energy Planning (CCEP) --- approaches for CCEP --- aluminum products --- ammonia synthesis --- plate heat exchanger --- heat transfer --- multi-pass arrangement --- optimal design --- energy efficiency --- environmental sustainability --- heat integration --- economic sustainability --- optimisation and modelling tools --- Acree model --- dielectric constant --- ethanol --- impedance --- King and Queen model --- microwave heating --- binary mixtures --- NaCl --- permittivity --- water
Choose an application
Energy is a fundamental social need and plays an essential role in driving economic growth. The emerging economy requires the support of a reliable, affordable, and energy system with low carbon emissions and air pollutants. System design is important in facilitating sustainable development. Various works that aspire to promote sustainable system design by addressing the issues of enhancing energy and environmental performance were presented in the Special Issue (SI) of the 22nd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’19). The contribution can be categorised into four topics focused on modelling, simulation, optimisation, and assessment studies, on the topics of: (a) heat integration and heat transfer, (b) integrated and newly developed heat exchangers, (c) integration of renewables (d) roles in economic and environmental sustainability. This book is complemented with an editorial review, to highlight the broader state-of-the-art development.
Research & information: general --- Process Integration --- heat pumps --- Joule cycle heat pump --- Pinch Analysis --- evaporation --- condensation --- surface-enhanced tube --- heat transfer coefficient --- fossil-intensive industrial processes --- decarbonization technologies --- reactive absorption/adsorption CO2 capture systems --- modeling --- simulation --- and process integration --- techno-economic and environmental assessments --- improved superstructure --- HENs --- utility system --- steam heater --- MINLP --- heat exchanger network (HEN) --- retrofit --- flexibility --- optimization --- critical points --- multi-period --- flow distribution --- process and power industry equipment --- finite element analysis --- waste-originated feedstock --- isomerization --- biogasoline --- benzene-free --- increased octane number --- CFD modelling --- heat treatment process --- industrial furnaces --- natural gas substitution --- syngas co-firing --- biofuel --- bioenergy --- supply chain --- Malaysia --- Indonesia --- Thailand --- interdisciplinary --- integrated assessment --- gravity-driven particle flow --- discrete element method --- heat transfer enhancement --- acrylic acid --- propylene oxidation --- multitubular reactor --- biowaste --- waste-to-energy --- composting --- fermentation --- greenhouse gases --- global warming potential --- energy-related carbon emissions --- carbon flow --- Sankey diagrams --- structural changes --- TRO index --- energy allocation analysis --- energy system --- exergy footprint --- sustainability --- process systems engineering --- exergy accounting --- desalination --- multi-effect distillation --- multi-stage flash --- mechanical vapor compression --- reverse osmosis --- renewable energy --- waste materials --- sewage sludge --- riverbank grass --- rumen fluid --- pretreatment of waste --- determination of parameters --- biomass boilers --- fuel cell --- solar thermal --- electrode boiler --- steam systems --- food processing industry --- decarbonisation --- energy costs --- Shifted Retrofit Thermodynamic Grid Diagram (SRTGD) --- type selection --- CO2 emissions --- electricity planning --- CO2 Constrained Energy Planning (CCEP) --- approaches for CCEP --- aluminum products --- ammonia synthesis --- plate heat exchanger --- heat transfer --- multi-pass arrangement --- optimal design --- energy efficiency --- environmental sustainability --- heat integration --- economic sustainability --- optimisation and modelling tools --- Acree model --- dielectric constant --- ethanol --- impedance --- King and Queen model --- microwave heating --- binary mixtures --- NaCl --- permittivity --- water
Choose an application
Energy is a fundamental social need and plays an essential role in driving economic growth. The emerging economy requires the support of a reliable, affordable, and energy system with low carbon emissions and air pollutants. System design is important in facilitating sustainable development. Various works that aspire to promote sustainable system design by addressing the issues of enhancing energy and environmental performance were presented in the Special Issue (SI) of the 22nd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’19). The contribution can be categorised into four topics focused on modelling, simulation, optimisation, and assessment studies, on the topics of: (a) heat integration and heat transfer, (b) integrated and newly developed heat exchangers, (c) integration of renewables (d) roles in economic and environmental sustainability. This book is complemented with an editorial review, to highlight the broader state-of-the-art development.
Process Integration --- heat pumps --- Joule cycle heat pump --- Pinch Analysis --- evaporation --- condensation --- surface-enhanced tube --- heat transfer coefficient --- fossil-intensive industrial processes --- decarbonization technologies --- reactive absorption/adsorption CO2 capture systems --- modeling --- simulation --- and process integration --- techno-economic and environmental assessments --- improved superstructure --- HENs --- utility system --- steam heater --- MINLP --- heat exchanger network (HEN) --- retrofit --- flexibility --- optimization --- critical points --- multi-period --- flow distribution --- process and power industry equipment --- finite element analysis --- waste-originated feedstock --- isomerization --- biogasoline --- benzene-free --- increased octane number --- CFD modelling --- heat treatment process --- industrial furnaces --- natural gas substitution --- syngas co-firing --- biofuel --- bioenergy --- supply chain --- Malaysia --- Indonesia --- Thailand --- interdisciplinary --- integrated assessment --- gravity-driven particle flow --- discrete element method --- heat transfer enhancement --- acrylic acid --- propylene oxidation --- multitubular reactor --- biowaste --- waste-to-energy --- composting --- fermentation --- greenhouse gases --- global warming potential --- energy-related carbon emissions --- carbon flow --- Sankey diagrams --- structural changes --- TRO index --- energy allocation analysis --- energy system --- exergy footprint --- sustainability --- process systems engineering --- exergy accounting --- desalination --- multi-effect distillation --- multi-stage flash --- mechanical vapor compression --- reverse osmosis --- renewable energy --- waste materials --- sewage sludge --- riverbank grass --- rumen fluid --- pretreatment of waste --- determination of parameters --- biomass boilers --- fuel cell --- solar thermal --- electrode boiler --- steam systems --- food processing industry --- decarbonisation --- energy costs --- Shifted Retrofit Thermodynamic Grid Diagram (SRTGD) --- type selection --- CO2 emissions --- electricity planning --- CO2 Constrained Energy Planning (CCEP) --- approaches for CCEP --- aluminum products --- ammonia synthesis --- plate heat exchanger --- heat transfer --- multi-pass arrangement --- optimal design --- energy efficiency --- environmental sustainability --- heat integration --- economic sustainability --- optimisation and modelling tools --- Acree model --- dielectric constant --- ethanol --- impedance --- King and Queen model --- microwave heating --- binary mixtures --- NaCl --- permittivity --- water
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