Emerging Concerns and Scope for Resource Recovery Herausgegeben:Vara Prasad, Majeti Narasimha; de Campos Favas, Paulo Jorge; Vithanage, Meththika; Mohan, S.Venkata
Emerging Concerns and Scope for Resource Recovery Herausgegeben:Vara Prasad, Majeti Narasimha; de Campos Favas, Paulo Jorge; Vithanage, Meththika; Mohan, S.Venkata
Industrial and Municipal Sludge: Emerging Concerns and Scope for Resource Recovery begins with a characterization of the types of sludge and their sources and management strategies. This section is followed by specific chapters that cover Emerging contaminants in sludge (Endocrine disruptors, Pesticides and Pharmaceutical residues, including illicit drugs/controlled substances), Bioleaching of sludge [with an enriched sulfur-oxidizing bacterial community, Recovery of valuable metals (Bioleaching and use of sulfur-oxidizing bacterial community, and Biogas production by continuous thermal…mehr
Industrial and Municipal Sludge: Emerging Concerns and Scope for Resource Recovery begins with a characterization of the types of sludge and their sources and management strategies. This section is followed by specific chapters that cover Emerging contaminants in sludge (Endocrine disruptors, Pesticides and Pharmaceutical residues, including illicit drugs/controlled substances), Bioleaching of sludge [with an enriched sulfur-oxidizing bacterial community, Recovery of valuable metals (Bioleaching and use of sulfur-oxidizing bacterial community, and Biogas production by continuous thermal hydrolysis and thermophilic anaerobic digestion of waste activated sludge. In addition, the book includes numerous tables and flow diagrams to help users further comprehend the subject matter.
Majeti Narasimha Vara Prasad is currently Emeritus Professor, School of Life Sciences, University of Hyderabad, Hyderabad, India. He has made outstanding contributions to the fields of bioremediation, bioresources, biomass energy sources, bioeconomy and to the broad field of environmental biotechnology, all of which are his main areas of expertise. Dr. Prasad has served the Ministry of Environment, Forests and Climate Change, Government of India in various advisory committees on biodiversity conservation, ecosystem services, pollution control and abatement, environmental information systems and bioremediation of contaminated sites. He is an active visiting scientist in several international universities.
Inhaltsangabe
Section 1: Sludge: Sources and Characterization1. Sludge from waste water treatment plants2. Sludge from pulp, tannery and distillery industries3. Sludge from oil refinery4. Sludge from chemical industry5. Sludge from antibiotic wastewater treatment plants- Fate of antibiotic resistance 6. Earthworms converting milk processing industry sludge into biomanure
Section 2: Sludge Management7. Activation, conditioning and engineering of sludge8. General considerations on sludge disposal 9. Sludge legislation (comparison between different countries)10. Enhanced sludge degradation process using a microbial electrolysis cell11. Sludge dewatering - Processes for enhanced performance12. Rheological characterization of digested sludge
Section 3: Contaminants in Sludge and Treatment strategies13. Ecological and human health risks (general aspects of sludge ecotoxicity and public health)14. Emerging contaminants in sludge (Endocrine disruptors, Pesticides and Pharmaceutical residues, including illicit drugs/controlled substances, etc.)15. Traditional contaminants in sludge (Poly Aromatic Hydrocarbons (PAH) and Poly Chlorinated Biphenyls (PCBs), dioxins, perfluorinated chemicals, alkylphenol surfactants, etc.)16. Bioleaching of sludge [with an enriched sulfur-oxidizing bacterial community]17. Sludge as medium for degradation of textile industry effluents
Section 4: Valorization of Sludge as a Resource18. Fertilizer for agriculture/ Manure for agro-forestry Sludge ash to horticultural crops19. Sludge multifunctions in a phytobiome - (Forest and plantation application incl. microbial aspects)20. Co-composting of sewage sludge and wetland plant material from a constructed wetland treating domestic wastewater21. Biochar production from sludge22. Phosphorus extraction and sludge dissolution23. Recovery of valuable metals from sludge (Bioleaching and use of sulfur-oxidizing bacterial community)24. Water-based paint sludge from automotive industries
Section 5: Energy recovery from sludge25. Co-processing of sewage sludge in cement kiln26. Biorefinery-based valorisation of pulp and paper sludge - opportunities and challenges27. Volatile fatty acid yield from sludge anaerobic fermentation through biotechnological approach28. Biogas (methane production) and energy recovery from different sludges 29. Biogas production by continuous thermal hydrolysis and thermophilic anaerobic digestion of waste activated sludge 30. Sewage Sludge based Microbial fuel cell
Section 1: Sludge: Sources and Characterization1. Sludge from waste water treatment plants2. Sludge from pulp, tannery and distillery industries3. Sludge from oil refinery4. Sludge from chemical industry5. Sludge from antibiotic wastewater treatment plants- Fate of antibiotic resistance 6. Earthworms converting milk processing industry sludge into biomanure
Section 2: Sludge Management7. Activation, conditioning and engineering of sludge8. General considerations on sludge disposal 9. Sludge legislation (comparison between different countries)10. Enhanced sludge degradation process using a microbial electrolysis cell11. Sludge dewatering - Processes for enhanced performance12. Rheological characterization of digested sludge
Section 3: Contaminants in Sludge and Treatment strategies13. Ecological and human health risks (general aspects of sludge ecotoxicity and public health)14. Emerging contaminants in sludge (Endocrine disruptors, Pesticides and Pharmaceutical residues, including illicit drugs/controlled substances, etc.)15. Traditional contaminants in sludge (Poly Aromatic Hydrocarbons (PAH) and Poly Chlorinated Biphenyls (PCBs), dioxins, perfluorinated chemicals, alkylphenol surfactants, etc.)16. Bioleaching of sludge [with an enriched sulfur-oxidizing bacterial community]17. Sludge as medium for degradation of textile industry effluents
Section 4: Valorization of Sludge as a Resource18. Fertilizer for agriculture/ Manure for agro-forestry Sludge ash to horticultural crops19. Sludge multifunctions in a phytobiome - (Forest and plantation application incl. microbial aspects)20. Co-composting of sewage sludge and wetland plant material from a constructed wetland treating domestic wastewater21. Biochar production from sludge22. Phosphorus extraction and sludge dissolution23. Recovery of valuable metals from sludge (Bioleaching and use of sulfur-oxidizing bacterial community)24. Water-based paint sludge from automotive industries
Section 5: Energy recovery from sludge25. Co-processing of sewage sludge in cement kiln26. Biorefinery-based valorisation of pulp and paper sludge - opportunities and challenges27. Volatile fatty acid yield from sludge anaerobic fermentation through biotechnological approach28. Biogas (methane production) and energy recovery from different sludges 29. Biogas production by continuous thermal hydrolysis and thermophilic anaerobic digestion of waste activated sludge 30. Sewage Sludge based Microbial fuel cell
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