Sustainable Water and Wastewater Processing /

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Sustainable Water and Wastewater Processing covers the 12 most current topics in the field of sustainable water processing, with emphasis given to water as a resource (quality, supply, distribution, and aquifer recharge). Topics covered include emerging sustainable technologies for potable and waste...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Galanakis, Charis M. (Editor ), Agrafioti, Evita (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam, Netherlands ; Cambridge, MA : Elsevier, [2019]
Temas:
Water > Purification > Technological innovations.
Eau > Épuration > Innovations.
TECHNOLOGY & ENGINEERING > Environmental > General.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Sustainable Water and Wastewater Processing; Copyright; Contents; Contributors; Preface; Chapter 1: Water as a finite resource: From historical accomplishments to emerging challenges and artificial recharge; 1. Introduction; 2. A historical appraisal: History of water treatment, sanitation and reuse; 3. Emerging challenges; 3.1. Microbiological pathogens; 3.2. Emerging organic contaminants; 4. Emerging water treatment technologies; 4.1. Eliminating contaminants by retention, breakup, and degradation; 4.2. Disinfection; 4.3. Membrane separation; 4.4. Reuse and reclamation
  • 5. Artificial recharge of aquifers6. Summary and conclusions; References; Further reading; Chapter 2: Graywater treatment and reuse; 1. Introduction; 2. Quantity and quality characteristics of GW; 2.1. Quantity of GW generation; 2.2. Quality of GW; 3. Risk associated with GW reuse and reuse guidelines/standards; 4. Treatment of GW; 4.1. Physical treatment processes; 4.2. Chemical treatment systems; 4.3. Biological treatment systems; 4.4. Constructed wetlands; 4.5. Disinfection; 4.6. Selection of optimal treatment system; 5. Concluding remarks; References; Further reading
  • Chapter 3: Refinery and petrochemical wastewater treatment1. Introduction; 2. Petroleum and oily wastewater characterization; 3. Treatment methods for the purification of petrochemical and refinery wastewater; 3.1. API separators; 3.2. Sedimentation; 3.3. Dissolved air flotation; 3.4. Electrodialysis; 3.5. Biological treatment; 3.6. Electrochemical methods; 3.7. Catalytic vacuum distillation; 3.8. Adsorption; 3.9. Hybrid technologies; 4. Oil wastewater treatment; 5. Removal of organic compounds from refinery and petrochemical wastewater; 5.1. Clarifiers; 5.2. Flotation
  • 5.3. Steam distillation5.4. Extraction; 5.5. Advanced oxidation process; 5.6. Noncatalytic wet air oxidation (WAO); 5.7. Ozonation; 5.8. Adsorption; 5.9. Hybrid processes; 5.9.1. Ultrafiltration and (PVDF) membranes; 5.9.2. Hollow fiber membrane bioreactor; 6. Applications of low-pressure membrane processes for removing polluted compounds from wastewater; 6.1. Reverse osmosis (RO); 6.2. Ultrafiltration; 6.3. Microfiltration; 6.4. Membrane bioreactor processes; 6.5. Supported liquid membrane; 6.6. Pervaporation
  • 7. Application of adsorption processes for the treatment of refinery and petrochemical wastewater7.1. COD reduction; 7.2. Phenol removal; 7.3. Heavy metal removal; 7.4. Adsorption in combination with different treatment technologies; 8. Discussion and future development; References; Further reading; Chapter 4: Advanced desalination technologies; 1. Introduction; 2. Thermal desalination technologies; 2.1. Multistage flash desalination (MSF); 2.2. Multieffect desalination (MED); 2.3. Ocean-based low temperature thermal desalination (LTTD); 2.4. Vapor compression (VC)

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