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Cost-Efficient Wastewater Treatment Technologies : Natural Systems / / Mahmoud Nasr and Abdelazim M. Negm, editors ; with contributions by O. Alizadeh [and forty-six others]
| Cost-Efficient Wastewater Treatment Technologies : Natural Systems / / Mahmoud Nasr and Abdelazim M. Negm, editors ; with contributions by O. Alizadeh [and forty-six others] |
| Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2023] |
| Descrizione fisica | 1 online resource (384 pages) |
| Disciplina | 628.3 |
| Collana | The Handbook of Environmental Chemistry Series |
| Soggetto topico |
Sewage - Purification - Technological innovations
Sewage - Purification - Cost effectiveness |
| ISBN | 3-031-12918-0 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Series Preface -- Preface -- Contents -- Part I: Introduction -- Introduction to ``Cost-efficient Wastewater Treatment Technologies: Natural Systems´´ -- 1 Introduction -- 2 Waste Stabilization Ponds (WSPs) -- 3 Microalgae for Phycoremediation -- 4 Anaerobic Treatment of Sewage -- 5 Adsorption Technology in Wastewater Treatment -- 6 Green Nanomaterial for Environmental Remediation -- 7 Deactivation of Waterborne Pathogens in Natural Eco-Systems -- 8 Treated Wastewater Reuse for Irrigation -- 9 Agricultural Drainage Water (ADW) Management -- 10 Treated Wastewater Reuse for Irrigation: A Case Study in Mediterranean Rim -- 11 Agricultural Drainage Water (ADW) Management: A Danish Case Study -- 12 Surface Water Quality: A Case Study of Hron River -- 13 Conclusions -- References -- Part II: Concepts and Knowledge of Natural-Based Wastewater Treatment -- Nature-Based Treatment Systems for Reclaimed Water Use in Agriculture in Mediterranean Countries -- 1 Introduction -- 2 Reclaimed Water Use in Agriculture in Med Region -- 2.1 State of Play -- 2.2 Technical and Regulatory Aspects -- 2.2.1 Technical Aspects -- 2.2.2 Regulatory Aspects -- 2.3 Social Aspects -- 2.4 Environmental Aspects -- 2.5 Health Risks -- 2.5.1 Heavy Metals -- 2.5.2 Emerging Contaminant -- 2.5.3 Microbial Parameters -- 3 Natural Based Treatment Systems in Med Countries -- 3.1 Design, Construction, and Operation -- 3.2 Efficiencies -- 3.2.1 CW Located in San Michele di Ganzaria in Sicily -- 3.2.2 Hybrid-CW Located at the IKEA Store in Sicily -- 4 Conclusions and Recommendations -- References -- Treatment Systems for Agricultural Drainage Water and Farmyard Runoff in Denmark: Case Studies -- 1 Introduction -- 1.1 Agriculture Challenges in Northwestern Europe -- 1.2 Tile Drainage Water -- 1.3 Nutrient Losses in Tile Drains -- 2 State of the Art -- 2.1 Constructed Wetlands.
2.2 Denitrifying Bioreactors -- 2.3 Filter Systems -- 3 Case Studies -- 3.1 Surface-Flow Constructed Wetland: Fillerup -- 3.2 Surface-Flow Constructed Wetland Paired with Woodchip Bioreactor: Ryaa -- 3.3 Filter System: Rodstenseje -- 4 Conclusions -- 5 Recommendations -- References -- Cost-Effective Adsorbents for Reduction of Conventional and Emerging Pollutants in Modified Natural Wastewater Treatment -- 1 Introduction -- 1.1 Adsorption Process -- 1.2 Types of Adsorption Processes -- 1.2.1 Physical Adsorption -- 1.2.2 Chemical Adsorption -- 1.3 Adsorption Mechanisms -- 1.3.1 Physisorption -- 1.3.2 Chemisorption -- Chelation -- Complexation -- 1.3.3 Ion Exchange -- 1.3.4 Precipitation -- 1.3.5 Oxidation-Reduction -- 1.4 Operating Conditions and Factors Affecting Adsorption -- 1.5 Desorption and Reactivation of Adsorbents -- 2 Adsorption Models and Scale-up Considerations -- 2.1 An Introduction to Fixed-Bed Versus Batch Adsorption Processes -- 2.2 Batch Processes -- 2.2.1 Equilibrium Models -- Linear Henry Isotherm -- Langmuir Isotherm -- Freundlich Isotherm -- Temkin Isotherm -- BET Isotherm -- 2.2.2 Kinetic Models -- Diffusional Mass Transfer Models -- Adsorption Reaction Models -- Pseudo-First-Order Model -- Pseudo-Second-Order Model -- Elovich Model -- 2.2.3 Adsorption Thermodynamics -- 2.2.4 Scale-up Considerations for Batch Adsorption -- 2.3 Continuous Processes (Fixed Bed) -- 2.3.1 Characteristics of Continuous Adsorption -- Bed Density (ρB) -- Bed Porosity (εB) -- Bed Volume (VB) -- Flow Velocity (vF) -- Residence Time (tr) -- 2.3.2 Breakthrough Curve Models -- Bohart-Adams Model -- Thomas Model -- Wolborska Model -- Yoon-Nelson Model -- 2.3.3 Scale-Up Considerations for Continuous Adsorption -- Mass Transfer Zone (MTZ) Model -- Length of Unused Bed (LUB) Model -- 3 Low-Cost Adsorbents -- 3.1 Natural Materials. 3.2 Agricultural Wastes/By-Products -- 3.3 Industrial Wastes/By-Products -- 4 Modification of Low-Cost Adsorbents -- 5 Conclusion -- 6 Recommendation -- References -- Environmental-Friendly and Cost-Effective Agricultural Wastes for Heavy Metals and Toxicants Removal from Wastewater -- 1 Introduction -- 2 Wastewater Sources and Estimations in Developing Countries -- 3 The Contamination and the Need for Reusing Wastewater in Developing Countries -- 4 Common Methods and Materials for Wastewater Treatment -- 4.1 Physical Methods of Removing Pollutants -- 4.2 Chemical Methods of Removing Pollutants -- 4.3 Biological Methods -- 5 Low-Cost and Eco-Friendly Agricultural Wastes-Derived Absorbents -- 5.1 Activated Carbon (AC) Derived from Agricultural Wastes -- 5.2 Biosorbents from Agricultural Wastes -- 6 Conclusion -- References -- Green Synthesized Iron Nanoparticles for Environmental Management: Minimizing Material and Energy Inputs -- 1 Introduction -- 2 Green Chemistry -- 2.1 Principles of Green Chemistry -- 2.2 Merits of Green Chemistry -- 3 Green Synthesized Iron Nanoparticle -- 3.1 Properties of Iron Nanoparticles -- 3.2 Crystal Structure and Atomic Arrangement -- 3.3 Methods of Synthesis -- 3.3.1 Plant Extracts -- 3.3.2 Tea Extracts -- 3.3.3 Biomolecules -- 3.3.4 Microorganisms -- 3.4 Mechanism Behind the Green Synthesis of Iron Nanoparticles -- 4 Applications of Iron Nanoparticles -- 4.1 Wastewater Treatment -- 4.1.1 Dye Removal -- 4.1.2 Heavy Metal Removal -- 4.2 Degradation of Pollutants -- 4.3 Detection of Pesticide Contamination -- 5 Critical Approach to Green Synthesized Iron Nanoparticle -- 6 Conclusion -- 7 Future Prospects -- References -- Part III: Natural Wastewater Treatment Technologies -- Overview of Waste Stabilization Ponds in Developing Countries -- 1 Introduction -- 2 Types of Waste Stabilization Ponds (WSPs) -- 2.1 Anaerobic Ponds. 2.2 Facultative Ponds -- 2.3 Maturation Ponds -- 2.4 Other Pond Types -- 3 Design, Operation, and Maintenance -- 3.1 Pond Location, Construction, and Design -- 3.2 Operation and Maintenance of WSPs -- 4 Effluent Disinfection and Nutrient Removal -- 4.1 Pathogen Removal -- 4.2 Nitrogen and Phosphorus Removal -- 4.3 Heavy Metal and Micropollutant Removal -- 5 Advantages and Disadvantages of WSPs -- 6 Conclusions -- References -- Plasma Technology: A Novel Approach for Deactivating Pathogens in Natural Eco-Systems -- 1 Introduction -- 2 Thermal Plasma -- 3 Non-thermal Plasma -- 4 Generation Methods of Different Non-thermal Plasma -- 4.1 Direct Current Glow Discharge -- 4.2 Radio Frequency Discharge -- 4.3 Microwave Plasma -- 4.4 Dielectric Barrier Discharge -- 4.5 Atmospheric Pressure Plasma Jet -- 4.6 Corona Discharge -- 4.7 Pulsed Arc Discharge -- 5 Electrohydraulic Plasma Generation -- 5.1 Pulsed Corona Electrohydraulic Discharge (PCED) -- 5.2 Pulsed Arc Electrohydraulic Discharge (PAED) -- 6 Benefits and Current Challenges of Plasma in Environmental Applications -- 7 Mechanism of Atmospheric Cold Plasma for Bactericidal Activities -- 8 Conclusion -- 9 Future Perspectives in the Study -- References -- Application of Anaerobic Hybrid Filters for Sewage Treatment -- 1 Introduction -- 1.1 Anaerobic Sewage Treatment Evolution -- 1.2 Anaerobic vs. Aerobic Processes -- 1.3 Complementary Low-Cost Treatment Systems -- 1.4 Anaerobic Technologies for Sewage Treatment in Temperate Climates -- 1.4.1 UASB Reactor -- 1.4.2 Anaerobic Biofilm Reactors-Attached Growth -- 1.4.3 Anaerobic Filter Reactor -- 1.4.4 Anaerobic Hybrid Filter (AHF) -- 1.5 Temperature Effect -- 2 Laboratory Experiences -- 2.1 Experimental Work -- 2.2 Effluent Characterization -- 2.2.1 Materials and Methods -- 2.2.2 Startup of Reactors and Reactor Operation -- 2.3 Results. 2.3.1 Startup Behavior -- 2.3.2 COD and Suspended Solids Removal -- 2.3.3 COD and Suspended Solids Concentrations -- 2.3.4 Removal of Nutrients -- 2.3.5 System Stability -- 2.3.6 Biogas Production and Characteristics -- 2.3.7 Effect of the Packing Medium -- 2.4 Reactor Characterization -- 2.5 Methanogenic Activity -- 2.6 Bacterial Physiologies -- 2.7 Conclusion -- 3 Case Study: WWTP Experimental AHF Treatment of Community Sewage -- 3.1 Plant Description -- 3.2 Objectives -- 3.3 Full-Scale Performance of the AHF System -- 3.3.1 Technical Description -- 3.3.2 Startup of the System -- 3.4 WWTP Performance: Results and Discussion -- 3.5 Economic Performance -- 3.6 Discussion and Conclusions -- References -- Impact of Combined Sewer Overflows Events on Recipient Water Quality -- 1 Introduction -- 2 Mathematical and Numerical Models -- 2.1 Modelling of Quantity and Water Quality of Surface Streams -- 2.2 Methods Used for Evaluating the Effect of Wastewater on the Receiving Water -- 3 Case Study Bansk Bystrica: Hron River -- 3.1 Overall Goals of the Study -- 3.2 Runoff Modelling from the Urban Catchment of the Bansk Bystrica Town -- 3.3 Water Quality Modelling in the Receiving Hron River -- 3.4 CSO Spills Modelling -- 4 Results -- 4.1 Results of Water Quality Simulation in the Hron River -- 4.1.1 Results of Hydrodynamic Modelling -- 4.1.2 Results of Water Quality Modelling -- 4.2 Results of Modelling of the Impact of CSO Discharge on the Recipient -- 5 Discussion -- 6 Conclusions -- 7 Future Aspects -- References -- Part IV: Wastewater Management and Sustainability -- Water-Energy Nexus in Wastewater Management for Irrigation -- 1 Introduction -- 2 Water-Energy Nexus -- 2.1 Dimensions of Water-Energy Nexus -- 2.1.1 Environmental Dimension -- 2.1.2 Technological Dimension -- 2.1.3 Economic Dimension -- 2.1.4 Social Dimension -- 2.1.5 Political Dimension. 3 Wastewater Management Strategies. |
| Record Nr. | UNINA-9910639896403321 |
| Cham, Switzerland : , : Springer, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Emerging technologies for wastewater treatment and in-plant wet weather management [[electronic resource]]
| Emerging technologies for wastewater treatment and in-plant wet weather management [[electronic resource]] |
| Pubbl/distr/stampa | Washington, D.C. : , : Office of Wastewater Management, U.S. Environmental Protection Agency, , [2008] |
| Descrizione fisica | 1 online resource (190 pages) : illustrations |
| Soggetto topico |
Sewage - Purification - Technological innovations
Factory and trade waste - Technological innovations Sewage disposal plants - Management |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | Wastewater treatment and in-plant wet weather management |
| Record Nr. | UNINA-9910697733503321 |
| Washington, D.C. : , : Office of Wastewater Management, U.S. Environmental Protection Agency, , [2008] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Innovation and the utilities of the future : how local water treatment facilities are leading the way to better manage wastewater and water supplies : hearing before the Subcommittee on Water and Wildlife of the Committee on Environment and Public Works, United States Senate, One Hundred Thirteenth Congress, second session, December 2, 2014
| Innovation and the utilities of the future : how local water treatment facilities are leading the way to better manage wastewater and water supplies : hearing before the Subcommittee on Water and Wildlife of the Committee on Environment and Public Works, United States Senate, One Hundred Thirteenth Congress, second session, December 2, 2014 |
| Pubbl/distr/stampa | Washington : , : U.S. Government Publishing Office, , 2016 |
| Descrizione fisica | 1 online resource (iii, 122 pages) : illustrations |
| Collana | S. hrg. |
| Soggetto topico |
Sewage - Purification - Technological innovations - United States
Water treatment plants - United States Water quality management - Technological innovations - United States Green technology - United States Green technology Sewage - Purification - Technological innovations Water quality management - Technological innovations Water treatment plants |
| Soggetto genere / forma | Legislative hearings. |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | Innovation and the Utilities of the Future |
| Record Nr. | UNINA-9910708304903321 |
| Washington : , : U.S. Government Publishing Office, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others]
| Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others] |
| Pubbl/distr/stampa | London : , : IWA Publishing, , 2013 |
| Descrizione fisica | 1 online resource (458 p.) |
| Altri autori (Persone) | LensP. N. L |
| Collana | Integrated environmental technology series |
| Soggetto topico |
Water - Purification - Technological innovations
Sewage - Purification - Technological innovations Nanotechnology Nanostructured materials - Environmental aspects Nanotechnology - Environmental aspects |
| Soggetto genere / forma | Electronic books. |
| ISBN | 1-78040-458-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Copyright""; ""Contents""; ""Preface""; ""List of Contributors""; ""Chapter 1: Nanotechnology for water and wastewater treatment: potentials and limitations""; ""1.1 Introduction to Nanoscience and Nanotechnology""; ""1.2 Nanotechnology for Water and Wastewater Treatment""; ""1.3 Overview of Existing Applications and Current Trends""; ""1.3.1 New materials for membrane filtration""; ""1.3.2 Nanomaterials for catalysis and photocatalysis""; ""1.3.3 Nanomaterials for water disinfection""; ""1.3.4 Nanomaterials for pollutant adsorption""; ""1.3.4.1 Carbon based nanomaterials""
""1.3.4.2 Metal based nanomaterials""""1.3.5 Nanoscale zero-valent iron""; ""1.4 Practical Aspects""; ""1.4.1 Technical developments for direct applications of nanoparticles in water treatment""; ""1.4.2 Costs and performance""; ""1.4.3 Toxicity, fate and transport of nanomaterials""; ""1.5 Concluding Remarks""; ""References""; ""Chapter 2: Environmental and human health effects of nanomaterials used in water and waste water treatment""; ""2.1 Introduction""; ""2.2 Effects of Manufactured Nanomaterials on Human Health and the Environment""; ""2.2.1 Human health"" ""2.2.1.1 Carbon based nanomaterials""""2.2.1.2 Metal based nanomaterials""; ""2.2.2 Ecotoxicological effects""; ""2.2.2.1 Aquatic ecotoxicology""; ""2.2.2.1.1 Carbon based nanomaterials""; ""2.2.2.1.2 Metal based nanomaterials""; ""2.2.2.2 Terrestrial ecotoxicology""; ""2.2.2.2.1 Soil microorganisms""; ""2.2.2.2.2 Soil invertebrates""; ""2.2.2.2.3 Plants""; ""2.3 Conclusion""; ""References""; ""Chapter 3: Life cycle assessment of nanomaterials: towards green nanotechnology""; ""3.1 Introduction""; ""3.2 Life Cycle Assessment (LCA)""; ""3.2.1 What is LCA?""; ""3.2.2 Benefit of LCA"" ""3.2.3 ISO14040 series""""3.2.4 General limitation of LCA""; ""3.3 LCA for Nanotechnology""; ""3.3.1 Nanotechnology and LCA""; ""3.3.2 Challenges, limitations and obstacles specific to nanotechnology (Kloepffer et al., 2007)""; ""3.4 Water Research & LCA of Nanomaterials""; ""3.5 Overview of Case Studies""; ""3.6 New Approaches to the LCA of Nanomaterials""; ""3.7 Suggested Improvement""; ""3.8 International Efforts""; ""3.9 Conclusions""; ""Glossary""; ""References""; ""Chapter 4: Physical and chemical analysis of nanoparticles""; ""4.1 Introduction"" ""4.2 Sample Preparation - Prefractionation""""4.2.1 Filtration""; ""4.2.2 Centrifugal-sedimentation techniques""; ""4.3 Methods for Determining Bulk Particle Concentration""; ""4.4 Physical Characterization""; ""4.4.1 Separation techniques""; ""4.4.1.1 Size exclusion chromatography""; ""4.4.1.2 Capillary electrophoresis""; ""4.4.1.3 Hydrodynamic chromatography""; ""4.4.1.4 Field flow fractionation""; ""4.4.2 Methods for assessing the shape, size distribution and surface structure of nanoparticles""; ""4.4.2.1 Scanning electron microscopy""; ""4.4.2.2 Transmission electron microscopy"" ""4.4.2.3 Atomic force microscopy"" |
| Record Nr. | UNINA-9910453717903321 |
| London : , : IWA Publishing, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others]
| Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others] |
| Pubbl/distr/stampa | London : , : IWA Publishing, , 2013 |
| Descrizione fisica | 1 online resource (458 p.) |
| Altri autori (Persone) | LensP. N. L |
| Collana | Integrated environmental technology series |
| Soggetto topico |
Water - Purification - Technological innovations
Sewage - Purification - Technological innovations Nanotechnology Nanostructured materials - Environmental aspects Nanotechnology - Environmental aspects |
| ISBN | 1-78040-458-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Copyright""; ""Contents""; ""Preface""; ""List of Contributors""; ""Chapter 1: Nanotechnology for water and wastewater treatment: potentials and limitations""; ""1.1 Introduction to Nanoscience and Nanotechnology""; ""1.2 Nanotechnology for Water and Wastewater Treatment""; ""1.3 Overview of Existing Applications and Current Trends""; ""1.3.1 New materials for membrane filtration""; ""1.3.2 Nanomaterials for catalysis and photocatalysis""; ""1.3.3 Nanomaterials for water disinfection""; ""1.3.4 Nanomaterials for pollutant adsorption""; ""1.3.4.1 Carbon based nanomaterials""
""1.3.4.2 Metal based nanomaterials""""1.3.5 Nanoscale zero-valent iron""; ""1.4 Practical Aspects""; ""1.4.1 Technical developments for direct applications of nanoparticles in water treatment""; ""1.4.2 Costs and performance""; ""1.4.3 Toxicity, fate and transport of nanomaterials""; ""1.5 Concluding Remarks""; ""References""; ""Chapter 2: Environmental and human health effects of nanomaterials used in water and waste water treatment""; ""2.1 Introduction""; ""2.2 Effects of Manufactured Nanomaterials on Human Health and the Environment""; ""2.2.1 Human health"" ""2.2.1.1 Carbon based nanomaterials""""2.2.1.2 Metal based nanomaterials""; ""2.2.2 Ecotoxicological effects""; ""2.2.2.1 Aquatic ecotoxicology""; ""2.2.2.1.1 Carbon based nanomaterials""; ""2.2.2.1.2 Metal based nanomaterials""; ""2.2.2.2 Terrestrial ecotoxicology""; ""2.2.2.2.1 Soil microorganisms""; ""2.2.2.2.2 Soil invertebrates""; ""2.2.2.2.3 Plants""; ""2.3 Conclusion""; ""References""; ""Chapter 3: Life cycle assessment of nanomaterials: towards green nanotechnology""; ""3.1 Introduction""; ""3.2 Life Cycle Assessment (LCA)""; ""3.2.1 What is LCA?""; ""3.2.2 Benefit of LCA"" ""3.2.3 ISO14040 series""""3.2.4 General limitation of LCA""; ""3.3 LCA for Nanotechnology""; ""3.3.1 Nanotechnology and LCA""; ""3.3.2 Challenges, limitations and obstacles specific to nanotechnology (Kloepffer et al., 2007)""; ""3.4 Water Research & LCA of Nanomaterials""; ""3.5 Overview of Case Studies""; ""3.6 New Approaches to the LCA of Nanomaterials""; ""3.7 Suggested Improvement""; ""3.8 International Efforts""; ""3.9 Conclusions""; ""Glossary""; ""References""; ""Chapter 4: Physical and chemical analysis of nanoparticles""; ""4.1 Introduction"" ""4.2 Sample Preparation - Prefractionation""""4.2.1 Filtration""; ""4.2.2 Centrifugal-sedimentation techniques""; ""4.3 Methods for Determining Bulk Particle Concentration""; ""4.4 Physical Characterization""; ""4.4.1 Separation techniques""; ""4.4.1.1 Size exclusion chromatography""; ""4.4.1.2 Capillary electrophoresis""; ""4.4.1.3 Hydrodynamic chromatography""; ""4.4.1.4 Field flow fractionation""; ""4.4.2 Methods for assessing the shape, size distribution and surface structure of nanoparticles""; ""4.4.2.1 Scanning electron microscopy""; ""4.4.2.2 Transmission electron microscopy"" ""4.4.2.3 Atomic force microscopy"" |
| Record Nr. | UNINA-9910791302603321 |
| London : , : IWA Publishing, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others]
| Nanotechnology for water and wastewater treatment / / P.N.L. Lens [and four others] |
| Pubbl/distr/stampa | London : , : IWA Publishing, , 2013 |
| Descrizione fisica | 1 online resource (458 p.) |
| Altri autori (Persone) | LensP. N. L |
| Collana | Integrated environmental technology series |
| Soggetto topico |
Water - Purification - Technological innovations
Sewage - Purification - Technological innovations Nanotechnology Nanostructured materials - Environmental aspects Nanotechnology - Environmental aspects |
| ISBN | 1-78040-458-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover""; ""Copyright""; ""Contents""; ""Preface""; ""List of Contributors""; ""Chapter 1: Nanotechnology for water and wastewater treatment: potentials and limitations""; ""1.1 Introduction to Nanoscience and Nanotechnology""; ""1.2 Nanotechnology for Water and Wastewater Treatment""; ""1.3 Overview of Existing Applications and Current Trends""; ""1.3.1 New materials for membrane filtration""; ""1.3.2 Nanomaterials for catalysis and photocatalysis""; ""1.3.3 Nanomaterials for water disinfection""; ""1.3.4 Nanomaterials for pollutant adsorption""; ""1.3.4.1 Carbon based nanomaterials""
""1.3.4.2 Metal based nanomaterials""""1.3.5 Nanoscale zero-valent iron""; ""1.4 Practical Aspects""; ""1.4.1 Technical developments for direct applications of nanoparticles in water treatment""; ""1.4.2 Costs and performance""; ""1.4.3 Toxicity, fate and transport of nanomaterials""; ""1.5 Concluding Remarks""; ""References""; ""Chapter 2: Environmental and human health effects of nanomaterials used in water and waste water treatment""; ""2.1 Introduction""; ""2.2 Effects of Manufactured Nanomaterials on Human Health and the Environment""; ""2.2.1 Human health"" ""2.2.1.1 Carbon based nanomaterials""""2.2.1.2 Metal based nanomaterials""; ""2.2.2 Ecotoxicological effects""; ""2.2.2.1 Aquatic ecotoxicology""; ""2.2.2.1.1 Carbon based nanomaterials""; ""2.2.2.1.2 Metal based nanomaterials""; ""2.2.2.2 Terrestrial ecotoxicology""; ""2.2.2.2.1 Soil microorganisms""; ""2.2.2.2.2 Soil invertebrates""; ""2.2.2.2.3 Plants""; ""2.3 Conclusion""; ""References""; ""Chapter 3: Life cycle assessment of nanomaterials: towards green nanotechnology""; ""3.1 Introduction""; ""3.2 Life Cycle Assessment (LCA)""; ""3.2.1 What is LCA?""; ""3.2.2 Benefit of LCA"" ""3.2.3 ISO14040 series""""3.2.4 General limitation of LCA""; ""3.3 LCA for Nanotechnology""; ""3.3.1 Nanotechnology and LCA""; ""3.3.2 Challenges, limitations and obstacles specific to nanotechnology (Kloepffer et al., 2007)""; ""3.4 Water Research & LCA of Nanomaterials""; ""3.5 Overview of Case Studies""; ""3.6 New Approaches to the LCA of Nanomaterials""; ""3.7 Suggested Improvement""; ""3.8 International Efforts""; ""3.9 Conclusions""; ""Glossary""; ""References""; ""Chapter 4: Physical and chemical analysis of nanoparticles""; ""4.1 Introduction"" ""4.2 Sample Preparation - Prefractionation""""4.2.1 Filtration""; ""4.2.2 Centrifugal-sedimentation techniques""; ""4.3 Methods for Determining Bulk Particle Concentration""; ""4.4 Physical Characterization""; ""4.4.1 Separation techniques""; ""4.4.1.1 Size exclusion chromatography""; ""4.4.1.2 Capillary electrophoresis""; ""4.4.1.3 Hydrodynamic chromatography""; ""4.4.1.4 Field flow fractionation""; ""4.4.2 Methods for assessing the shape, size distribution and surface structure of nanoparticles""; ""4.4.2.1 Scanning electron microscopy""; ""4.4.2.2 Transmission electron microscopy"" ""4.4.2.3 Atomic force microscopy"" |
| Record Nr. | UNINA-9910811708703321 |
| London : , : IWA Publishing, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Sustainable water treatment : advances and technological interventions / / edited by Siddhartha Moulik, Aditi Mullick and Anirban Roy
| Sustainable water treatment : advances and technological interventions / / edited by Siddhartha Moulik, Aditi Mullick and Anirban Roy |
| Pubbl/distr/stampa | Hoboken, New Jersey ; ; Beverly, Massachusetts : , : Wiley : , : Scrivener Publishing, , [2022] |
| Descrizione fisica | 1 online resource (681 pages) |
| Disciplina | 628.3 |
| Soggetto topico |
Sewage - Purification - Technological innovations
Sustainable engineering Green chemistry |
| ISBN |
1-119-48007-8
1-119-47989-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910585800203321 |
| Hoboken, New Jersey ; ; Beverly, Massachusetts : , : Wiley : , : Scrivener Publishing, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Sustainable water treatment : advances and technological interventions / / edited by Siddhartha Moulik, Aditi Mullick and Anirban Roy
| Sustainable water treatment : advances and technological interventions / / edited by Siddhartha Moulik, Aditi Mullick and Anirban Roy |
| Pubbl/distr/stampa | Hoboken, New Jersey ; ; Beverly, Massachusetts : , : Wiley : , : Scrivener Publishing, , [2022] |
| Descrizione fisica | 1 online resource (681 pages) |
| Disciplina | 628.3 |
| Soggetto topico |
Sewage - Purification - Technological innovations
Sustainable engineering Green chemistry |
| ISBN |
1-119-48007-8
1-119-47989-4 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830998303321 |
| Hoboken, New Jersey ; ; Beverly, Massachusetts : , : Wiley : , : Scrivener Publishing, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
