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Autore: | Nazari Laleh |
Titolo: | Advanced and emerging technologies for resource recovery from wastes / / Laleh Nazari, Chunbao Xu, Madhumita B. Ray |
Pubblicazione: | Singapore : , : Springer, , [2021] |
©2021 | |
Descrizione fisica: | 1 online resource (216 pages) : illustrations |
Disciplina: | 737 |
Soggetto topico: | Chemistry |
Persona (resp. second.): | XuChunbao (Charles) |
RayMadhumita B. | |
Nota di bibliografia: | Includes bibliographical references. |
Nota di contenuto: | Intro -- Preface -- Contents -- 1 Wastes Generation, Characterization, Management Strategies and Health and Environmental Impacts -- 1.1 Wastes Generation -- 1.2 Wastes Characterization -- 1.2.1 Hazardous Wastes -- 1.2.2 Non-hazardous Wastes -- 1.3 Waste Management Strategies -- 1.3.1 Waste Management Hierarchy -- 1.3.2 Waste Management Strategies in Canada -- 1.4 Health and Environmental Impacts of Wastes and Waste Management -- 1.4.1 Impacts of Waste on Human Health and the Environment -- 1.4.2 Impacts of Waste Management on the Environment -- References -- 2 Conventional Approaches for Waste Management-A Canadian Perspective -- 2.1 Waste Generation in Canada -- 2.2 Conventional Approaches for Non-hazardous Solid Waste Disposal -- 2.2.1 Landfills -- 2.2.2 Thermal Treatment -- 2.3 Conventional Approaches for Hazardous Solid Waste Disposal -- 2.4 Waste Diversion -- 2.4.1 Recycling at Material Recovery Facility (MRF) -- 2.4.2 Composting -- 2.5 Conventional Approaches for Wastewater Management -- 2.5.1 Treatment of Municipal Wastewater -- 2.5.2 Treatment of Industrial Wastewater -- References -- 3 Advanced Technologies (Biological and Thermochemical) for Waste-to-Energy Conversion -- 3.1 Thermochemical Conversion Technologies -- 3.1.1 Combustion -- 3.1.2 Pyrolysis -- 3.1.3 Hydrothermal Liquefaction -- 3.1.4 Gasification -- 3.2 Biochemical Conversion Technologies -- 3.2.1 Anaerobic Digestion -- 3.2.2 Mechanical Biological Treatment -- 3.2.3 Fermentation -- References -- 4 Nitrogen and Phosphorous Recovery from Municipal Wastewater and Sludge -- 4.1 Wastewater Treatment -- 4.1.1 Preliminary Treatment -- 4.1.2 Primary Treatment -- 4.1.3 Secondary Treatment -- 4.1.4 Tertiary Treatment -- 4.1.5 Advanced Treatment Processes -- 4.2 Wastewater Sludge -- 4.2.1 Sludge Treatment Methods -- 4.3 Nutrient Removal/Recovery from Wastewater. |
4.3.1 Nitrogen Removal/Recovery from Wastewater -- 4.3.2 Phosphorous Removal/Recovery from Wastewater -- 4.3.3 Simultaneous Removal of Phosphorous and Nitrogen [36, 43, 45] -- 4.4 Nutrient Removal/Recovery from Sludge -- 4.4.1 Phosphorous Removal/Recovery from Sludge -- 4.4.2 Nitrogen Removal/Recovery from Sludge -- 4.5 Nutrient Recovery Technologies Across the World -- 4.6 Economic Analysis of Nutrient Recovery from Municipal Wastewater and Sludge -- 4.7 Environmental Impacts of the Nutrient Recovery from Municipal Wastewater and Sludge -- References -- 5 Recovery of Metals from Electronic Waste -- 5.1 Environmental and Health Issues of Electronic Devices -- 5.2 International Legislation on E-Waste -- 5.3 Economic Values of E-Waste -- 5.4 E-Waste Recycling -- 5.5 Recovery of Metals from E-Waste -- 5.6 Physical Methods for Metals Recovery -- 5.7 Thermo-Chemical Methods for Metals Recovery -- 5.7.1 Pyrolysis -- 5.7.2 Gasification and Plasma Technology -- 5.8 Metallurgical Methods for Metals Recovery -- 5.8.1 Pyrometallurgical Processing -- 5.8.2 Hydrometallurgical Processing -- 5.8.3 Recovery of Precious Metals -- 5.8.4 Biometallurgical Processing -- 5.9 Industrial Applications of E-Waste Recycling -- References -- 6 Waste Plastics Management and Conversion into Liquid Fuels and Carbon Materials -- 6.1 Plastics Components -- 6.1.1 Synthetic Resins -- 6.1.2 Additives [3, 5, 6] -- 6.2 Plastics Classification -- 6.3 Waste Plastics Generation and Disposal -- 6.4 Conversion of Waste Plastics and Resins into Liquid Fuels and Carbon Materials -- 6.4.1 Liquid Fuels or Oils from Waste Plastics -- 6.4.2 Carbon Materials from Waste Plastics -- 6.5 Industrial Application Examples of Waste Plastics Conversion Technologies -- 6.6 Economic and Environmental Benefits of Waste Plastics Management -- References. | |
7 Resource Utilization of Agricultural/Forestry Residues via Fractionation into Cellulose, Hemicellulose and Lignin -- 7.1 Lignocellulosic Biomass -- 7.2 Pre-treatments of Lignocellulosic Biomass -- 7.3 Physical Pre-treatment Methods -- 7.3.1 Mechanical Methods -- 7.3.2 Microwave-Assisted Methods -- 7.3.3 Extrusion -- 7.3.4 Ultrasonication -- 7.4 Chemical Pre-treatment Methods -- 7.4.1 Acidic Pre-treatment -- 7.4.2 Alkaline and Kraft Pulping Pre-treatment -- 7.4.3 Oxidative Pre-treatment -- 7.4.4 Organosolv Fractionation Processes -- 7.4.5 Fractionation Using Ionic Liquids -- 7.4.6 Pre-treatment with Deep Eutectic Solvents (DES) -- 7.5 Physico-chemical Methods -- 7.5.1 Steam Explosion (SE) -- 7.5.2 Ammonia-Based Pre-treatment -- 7.5.3 Supercritical Fluid Pre-treatment -- 7.5.4 Hydrothermal Processes -- 7.6 Biological Methods -- References -- 8 Summary. | |
Titolo autorizzato: | Advanced and emerging technologies for resource recovery from wastes |
ISBN: | 981-15-9267-5 |
Formato: | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione: | Inglese |
Record Nr.: | 9910484920403321 |
Lo trovi qui: | Univ. Federico II |
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