PISBN:9781845699697
出版社:Woodhead Publishing
出版时间:2011
作者:Basile,Angelo
主题词:Decontamination Factor,Detritiation,Hepa Filters,Liquid Waste Treatment,Nuclear Fuel Cycle,Tritium Recovery,Air Cleaners,Air Purification,Breeding Blankets,Effluents,Isotopes,Liquids,Membrane Technology,Membranes,Microfiltration,Nuclear Energy,Nuclear Fuel Reprocessing,Nuclear Fuels,Nuclear Medicine,Power Plant Laboratories,Radiation Decontamination,Radioactive Wastes,Tritium,Waste Treatment,Decontamination Factors,Detritiation,Liquid Wastes,Nuclear Fuel Cycles,Tritium Recovery,Filtration,Mass Transport Parameters,Membrane Characterization,Modelling,Physical Structure,Surface Chemistry,Air Cleaners,Air Purification,Carbon Dioxide,Ceramic Materials,Ceramic Membranes,Characterization,Chemical Stability,Membranes,Models,Parameter Estimation,Separation,Surface Chemistry,Carbon Dioxide Separation,Characterization Techniques,Development And Applications,Environmental Applications,Membrane Characterization,Phenomenological Models,Physical Structures,Transport Parameters,Gas Permeable Membranes,Hydrogen Purification,Membrane Reactor,Palladium-Based Membranes,Silica-Based Membranes,Water Gas Shift Reaction,Air Purification,Bioreactors,Chemical Shift,Fischer-Tropsch Synthesis,Synthesis Gas,Water Gas Shift,Basic Principles,Gas Processing,Hydrogen Purification,Inorganic Membranes,Membrane Reactor,Palladium-Based Membrane,Research And Development,Water Gas Shift (Wgs) Reaction,Membranes,Biofuel Production,Heterogeneous Catalysis,Hydrocarbons And Gas Separation,Nanocomposite Membranes,Steam Reforming,Biofuels,Catalysis,Economic And Social Effects,Hydrocarbon Refining,Hydrocarbons,Industrial Research,Membrane Technology,Membranes,Raw Materials,Separation,Steam Reforming,Biofuel Production,Biofuels Production,Fundamental Research,Gas Separations,Industrial Production,Nano-Composite Membranes,Petrochemical Industry,Trade-Off Relationship,Gas Permeable Membranes,Bioenergy,Biofuels,Biomass,Bioreactors,Modelling,Biomass,Bioreactors,Climate Change,Economics,Models,Oils And Fats,Advanced Biofuels,Bio-Energy,Biofuel Production,Biofuels Production,Climate Change Mitigation,Engineering Aspects,Membrane Bioreactor,Second Generation,Biofuels,Artificial Leaf,Biomimetic Systems,Hydrogen Production,Photosynthesis,Solar-To-Fuel Conversion,Water Photo-Splitting,Biomimetics,Bioreactors,Cell Engineering,Photoelectrochemical Cells,Photosynthesis,Photovoltaic Cells,Solar Power Generation,Synthesis (Chemical),Thermodynamics,Artificial Leaf,Artificial Molecule,Biomimetic Devices,Biomimetic Membrane,Biomimetic Systems,Fuel Conversion,Hydrogenase Enzymes,Technical Challenges,Hydrogen Production,Inorganic Membrane,Membrane Reactor,Palladium Membrane,Bioreactors,Carbon,Carbon Dioxide,Ceramic Membranes,Combustion,Energy Utilization,Membrane Technology,Membranes,Polymers,Precombustion,Reforming Reactions,Steam Reforming,Water Gas Shift,Active Transport Systems,Dense Inorganic Membranes,Hydrogen Selective Membrane,Inorganic Membranes,Integrated Gasification Combined Cycle,Membrane Reactor,Natural Gas Combined Cycles,Palladium (Pd) Membranes,Gas Permeable Membranes,Co-Extrusion,Co-Sintering,Dual-Layer Hollow Fibre Membrane,Membrane Reactor,Sofc,Bioreactors,Ceramic Materials,Ceramic Membranes,Energy Utilization,Extrusion,Fibers,Fuel Cells,Membranes,Sintering,Catalytic Membrane Reactors,Catalytic Substrates,Co-Sintering,Co-Sintering Process,Dual-Layer Hollow Fibres,Hollow-Fibre Membrane,Membrane Reactor,Micro-Tubular Solid Oxide Fuel Cells,Solid Oxide Fuel Cells (Sofc),Bioreactors,Filtration,Membrane Configurations And Separation,Membrane Performance,Membrane Processes,Membrane Reactors,Bioreactors,Membranes,Microfiltration,Membrane Performance,Membrane Process,Membrane Reactor,Science And Engineering,Filtration,Block Copolymers,Flue Gas,Polymeric Membranes,Block Copolymers,Carbon,Carbon Dioxide,Flue Gases,Flues,Gas Plants,Membranes,Polymeric Membranes,Polymers,Flue Gas Processing,Flue Gas Treatment,New Approaches,Post-Combustion,Separation Performance,Gas Permeable Membranes,Ceramic Membranes,Hydrogen Flux,Hydrogen Separation,Proton-Conducting Ceramic Materials,Protonic Conductivity,Carbon Dioxide,Ceramic Materials,Fuel Cells,Gas Emissions,Gas Plants,Greenhouse Gases,Membranes,Solid Oxide Fuel Cells (Sofc),Alternative Energy Source,Electricity Generation,Electricity Production,Hydrogen Fluxes,Hydrogen Separation,Innovative Technology,Proton Conducting Ceramic,Protonic Conductivities,Ceramic Membranes,Membrane Modules,Polymeric Membrane,Carbon Dioxide,Fuel Cell Power Plants,Fuel Cells,Membrane Technology,Membranes,Polymeric Membranes,Polymers,Small Power Plants,Steam Reforming,Chemical Absorption,Energy Penalties,High Temperature Stability,Innovative Solutions,Membrane Module,Power Generation Efficiency,Power Production,Reforming Process,Gas Permeable Membranes,Carbon Dioxide,Methane,Natural Gas,Polymeric Membrane,Carbon,Carbon Dioxide,Gases,Methane,Natural Gas,Polymeric Membranes,Polymers,Current Range,Future Trends,Gas Sweetenings,Membrane Material,Membrane Process,Natural Gas Processing,Performance Issues,Pre-Treatment,Membranes,Heterogeneous Photocatalysis,Membranes,Pollutant Abatement,Synthesis Reactions,Catalysis,Membranes,Photocatalysis,Pollution,Water Treatment,Basic Principles,Case-Studies,Heterogeneous Photocatalysis,Liquid-Solid System,Pollutant Abatement,Synergistic Effect,Synthesis Reaction,Water And Wastewater Treatments,Wastewater Treatment,Ceramic Materials,Coal Gasification,Ionic Transport,Oxyfuel Coal Combustion,Oxygen Transport Membranes,Ceramic Materials,Ceramic Membranes,Coal,Coal Gasification,Membranes,Oxygen,Dense Ceramic Membrane,Ionic Transports,Latest Development,Metallurgical Process,Oxy-Fuels,Oxygen Transport Membranes,Power Plant Applications,Transport Mechanism,Coal Combustion,Cross-Linked Membranes,Electrolyte,Gel Polymers,Lithium Batteries,Polymeric Electrolytes,Solid Polymers,Crosslinking,Electric Batteries,Electrolytes,Energy Efficiency,Ionic Conduction In Solids,Liquid Membrane Electrodes,Lithium,Polyelectrolytes,Polymers,Conventional Batteries,Cross Linked Membranes,Gel Polymers,High Energy Efficiency,Interfacial Property,Polymeric Electrolytes,Solid Polymers,Sustainable Transport,Lithium Batteries,Cleaning In Place (Cip),Membrane Ageing,Membrane Degradation,Membrane Integrity,Degradation,Polymeric Membranes,Polymers,Wastewater Treatment,Water Treatment,Aqueous Environment,Cleaning In Place,Degradation Mechanism,Full-Scale Applications,Membrane Degradation,Membrane Integrity,Operational Issues,Water And Wastewater Treatments,Membranes,Desalination,Forward/Direct Osmosis,Hydrophilic,Membrane,Osmosis,Desalination,Food Processing,Membranes,Osmosis,Wastewater Treatment,Water Filtration,Water Treatment,Forward Osmosis,Forward Osmosis Membranes,Hydrophilic,Its Applications,Membrane-Based Separation Process,Separation Process,Water Desalination,Water Transport,Osmosis Membranes,Diffusion Coefficients,Membrane Gas Separation,Permeability Coefficients,Solubility Coefficients,Diffusion,Gas Permeability,Gases,Hydraulic Conductivity,Membranes,Polymeric Membranes,Polymers,Separation,Solubility,Gas Separations,Porous Polymeric Membrane,Pressure And Temperature,Special Sections,Transport Parameters,Vapour Permeation,Gas Permeable Membranes,Economic Analysis,Membrane Performances,Membrane Process Investment,Economic Analysis,Investments,Membranes,Case-Studies,Conventional Treatments,Membrane Performance,Membrane Process,Membrane System,Industrial Economics,Ion Exchange,Membranes,Polymeric Membranes,Redox Flow Batteries,Vanadium,Electric Batteries,Electric Discharges,Hybrid Materials,Ion Exchange,Ion Exchange Membranes,Ions,Membranes,Polymeric Membranes,Polymers,Secondary Batteries,Vanadium,Charge And Discharge,Electrical Energy,Electrochemical Energy Storage,Hybrid Membrane,Oxidation And Reduction,Vanadium Redox Flow Batteries,Flow Batteries,Electrolysers,Electrolysis,Ionic-Conductors,Membranes,Electrodes,Electrolysis,Hydrogen Production,Basic Principles,Chemical Compositions,Electrolysers,Ion-Conducting Membranes,Ion-Transport Properties,Ionic Conductor,Membrane Material,Technological Process,Membranes,Aquivion® Membranes,Ionomer Membranes,Pem Fuel Cell,Polymer Electrolyte Fc,Proton Exchange Membranes,Electrolytes,Fuel Cells,Membranes,Polyelectrolytes,Fabrication Process,Ionomer Membranes,Membrane Material,Pem Fuel Cell,Polymer Electrolyte,Possible Futures,Proton Exchange Membranes,Proton-Exchange Membrane,Proton Exchange Membrane Fuel Cells (Pemfc),0,Energy Resources,Energy Management,Concentration Polarization,Membrane Fouling,Membrane Processes,Microfitration (Mf),Ultrafiltration (Uf),Membrane Fouling,Membranes,Microfiltration,Polarization,Ultrafiltration,Basic Principles,Concentration Polarization,Membrane Material,Membrane Module,Membrane Performance,Membrane Preparation,Membrane Process,Microfitration (Mf),Membrane Technology,0,0
学科:TK 能源与动力工程
语种:英语
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