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  • 1
    Online Resource
    Online Resource
    Scaling up of Microbial Electrochemical Systems : From Reality to Scalability. (2022)
    San Diego :Elsevier,
    Details
    Keywords: Scaling (Social sciences). ; Electronic books.
    Type of Medium: Online Resource
    Pages: 1 online resource (514 pages)
    Edition: 1st ed.
    ISBN: 9780323907668
    Series Statement: Advances in Green and Sustainable Chemistry Series
    URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6875539
    DDC: 541.37
    Language: English
    Note: Intro -- Scaling Up of Microbial Electrochemical Systems: From Reality to Scalability -- Copyright -- Contents -- Contributors -- Chapter 1: Microbial electrochemical systems -- 1.1. Introduction -- 1.2. Classification of METs -- 1.2.1. Microbial fuel cells (MFCs) -- 1.2.2. Microbial electrolysis cells (MECs) -- 1.2.3. Microbial solar cells (MSCs) -- 1.2.4. Microbial electrosynthesis cells (MESCs) -- 1.2.5. Microbial desalination cells (MDCs) -- 1.3. Conclusion -- Acknowledgments -- References -- Chapter 2: A review on scaling-up of microbial fuel cell: Challenges and opportunities -- 2.1. Introduction -- 2.2. MFC theory -- 2.3. Research gap of MFC -- 2.4. Operational and electrochemical limitations of MFC analysis -- 2.4.1. MFC start-up process -- 2.4.2. Wastewater -- 2.4.3. Electrode materials -- 2.4.4. Anode material -- 2.4.5. Cathode material -- 2.4.6. Design of MFC -- 2.4.7. Electrical network of MFC -- 2.5. Technology development solution -- 2.6. Techno-economic viability -- 2.6.1. Advantages of MFC -- 2.7. Pilot scale to industrial scale of MFC -- 2.8. Application of microbial fuel cell to the social relevance -- 2.8.1. Electricity generation -- 2.8.2. Bio-hydrogen production -- 2.8.3. Wastewater treatment -- 2.8.4. Biosensor -- 2.8.5. Desalination plants -- 2.9. Recent developments -- 2.10. Future improvements -- 2.11. Conclusion -- References -- Chapter 3: Electroactive biofilm and electron transfer in microbial electrochemical systems -- 3.1. Introduction -- 3.2. Electroactive microorganisms (EAMs) -- 3.3. Formation of electroactive biofilms (EABFs) -- 3.3.1. Anodic EABFs -- 3.3.2. Cathodic EABFs -- 3.4. Electron transfer mechanism -- 3.4.1. Anodic electron transfer -- 3.4.2. Cathodic electron transfer -- 3.5. Effect of design, operational, and biological parameters on electroactivity of EABFs -- 3.5.1. Design parameters. , 3.5.1.1. Effect of electrode materials and their characteristics -- 3.5.1.2. Influence of applied voltage or potential -- 3.5.2. Operational parameters -- 3.5.2.1. Effect of substrate on EABFs -- 3.5.2.2. Effect of temperature on EABFs -- 3.5.2.3. Effect of pH on EABFs -- 3.5.3. Biological parameters -- 3.6. Genetic engineering: An approach to enhance exoelectrogenesis -- 3.7. Applications of EABFs -- 3.8. Conclusions and future prospects -- Acknowledgments -- References -- Chapter 4: Role of electroactive biofilms in governing the performance of microbial electrochemical system -- 4.1. Introduction -- 4.2. Role of electroactive biofilms in MES -- 4.3. Strategies for development of EAB -- 4.3.1. Natural growth of EAB -- 4.3.2. Artificial induction of EAB -- 4.4. Microbes in EAB -- 4.4.1. Anodic EAB -- 4.4.1.1. Pure culture -- 4.4.1.2. Mixed culture -- 4.4.2. Cathodic EAB -- 4.5. Electron transfer in EAB -- 4.5.1. Direct ET -- 4.5.2. Indirect ET -- 4.6. Methods to study EAB -- 4.7. Dynamic of EAB application -- 4.8. Conclusion and future prospects -- References -- Chapter 5: Electroactive biofilm and electron transfer in the microbial electrochemical system -- 5.1. Introduction -- 5.2. Electroactive microorganism and biofilm formation -- 5.3. Factors affecting electroactive biofilm formation -- 5.3.1. System architecture -- 5.3.2. Biological parameters -- 5.3.3. Operating parameters -- 5.3.3.1. Effect of external resistance and redox potential -- 5.3.3.2. Substrate concentration and loading -- 5.3.3.3. Other factors (pH, temperature, oxygen, and shear rate) -- 5.4. Electron transfer mechanism in MES -- 5.4.1. Direct electron transfer from cell to the electrode -- 5.4.2. Mediated electron transfer -- 5.5. Tools and techniques to study electroactive biofilms and microbial community analysis -- 5.6. Conclusion and future prospects -- References. , Chapter 6: Electroactive biofilm and electron transfer in MES -- 6.1. Introduction -- 6.2. Electroactive biofilms (EABs) -- 6.3. Anodic electroactive biofilm -- 6.4. Cathodic electroactive biofilm -- 6.5. Mechanism of electron within anodic EAB -- 6.6. Mechanisms of electron transfer in cathodic EABs -- 6.7. Tools and techniques used to study EABs -- 6.8. Applications of EABs -- 6.9. Conclusion -- References -- Chapter 7: Bioelectroremediation of wastes using bioelectrochemical system -- 7.1. Introduction -- 7.2. Drawbacks of conventional bioremediation -- 7.3. Phytoremediation -- 7.4. BES for ground water remediation -- 7.5. Practical obstacles in GW remediation suggests BES application -- 7.6. In situ bioelectroremediation: Ideal step -- 7.7. Bioelectroremediation: Future perspectives -- 7.8. Conclusion -- References -- Chapter 8: Fiber-reinforced polymer (FRP) as proton exchange membrane (PEM) in single chambered microbial fuel cells (MFCs) -- 8.1. Introduction -- 8.2. Proton exchange membranes (PEM) -- 8.3. Present study -- 8.4. Designing and fabrication of single-chambered MFCs -- 8.5. Natural fiber-reinforced polymer (FRP) composite as PEM in MFCs -- 8.6. Substrates used in MFCs -- 8.7. Inocula used in MFCs -- 8.8. Experimental design -- 8.9. Results in terms of electricity generation -- 8.10. Results in terms of COD removal -- 8.11. Results of the comparison of different proton exchange membrane (PEM) used in MFC with commercially available PEM-b ... -- 8.12. Results in terms of electricity generation -- 8.13. Results in terms of COD removal -- 8.14. Conclusions -- References -- Chapter 9: Effects of biofouling on polymer electrolyte membranes in scaling-up of microbial electrochemical systems -- 9.1. Introduction -- 9.2. Causes of biofouling in polymer electrolyte membrane -- 9.3. Mechanism of polymer electrolyte membrane biofouling. , 9.4. Effects of biofouling on MES performance -- 9.5. Methods to analyze membrane biofouling -- 9.6. Challenges confronted in scaling-up of MES -- 9.7. Preventive measures of membrane biofouling -- 9.7.1. Pretreatment of PEMs -- 9.7.2. Surface coatings on PEM -- 9.7.3. Polymer electrolyte membrane composites -- 9.7.4. Quorum Quenching for membrane antifouling -- 9.8. Conclusion -- References -- Chapter 10: Advancement in electrode materials and membrane separators for scaling up of MES -- 10.1. Introduction -- 10.2. Designing of reactor to scale-up -- 10.3. Electrode modification in scaling-up of MES -- 10.4. Membrane separators in MES -- References -- Chapter 11: Scale-up of bioelectrochemical systems: Stacking strategies and the road ahead -- 11.1. Introduction -- 11.2. Scale-up: Issues and strategies -- 11.3. Stacking of BESs -- 11.4. Voltage reversal and prevention -- 11.5. Pilot-scale BESs for hydrogen/methane production -- 11.6. Scaled-up BESs for bioremediation -- 11.7. Conclusions and future perspective -- References -- Chapter 12: Application of microbial electrochemical system for industrial wastewater treatment -- 12.1. Introduction -- 12.2. Energy recovery in wastewater treatment systems -- 12.3. Industrial wastewater generation and the ecotoxicological impacts of the pollutants -- 12.3.1. Heavy metals -- 12.3.2. Emerging contaminants -- 12.4. Industrial wastewater treatment in microbial electrochemical systems -- 12.4.1. Microbial fuel cell -- 12.4.2. Microbial electrolysis cell -- 12.4.3. Microbial desalination cell -- 12.5. Recent advancements in scaling up microbial electrochemical systems -- 12.5.1. Design of MES used in scale-up applications -- 12.5.2. Influencing parameters related to scale up -- 12.5.3. Application of MES in industrial companies: Current status -- 12.5.4. Current challenges and future perspective. , 12.6. Economic and life cycle assessment -- 12.7. Conclusion -- References -- Chapter 13: Metabolic engineering and synthetic biology key players for improving efficacy of microbial fuel cell technology -- 13.1. Introduction -- 13.2. Classification or types and design of MFC for electricity generation -- 13.3. Molecular mechanisms of electron transfer by diverse microbial regimes or electrogens for MFC technology -- 13.4. Existing physical- and chemical-based approaches for improving the MFC performance -- 13.4.1. Anode and cathode modifications -- 13.5. Existing pitfalls or drawbacks of existing MFC technology -- 13.6. Metabolic engineering and synthetic biology impacts on improving MFC performance -- 13.7. Conclusion and future outlook -- Acknowledgment -- References -- Chapter 14: Microbial electrochemical platform: A sustainable workhorse for improving wastewater treatment and desalination -- 14.1. Introduction -- 14.2. Classification and general discussion about microbial electrochemical platform toward wastewater treatment and desa ... -- 14.3. Potential role of existing native microbial regime in wastewater treatment and desalination -- 14.4. Metabolic engineering and synthetic biology impacts on improving strains or M/Os to improve the performance of MES/ ... -- 14.5. Future outlook -- Acknowledgment -- References -- Chapter 15: Scaling-up of microbial electrochemical systems to convert energy from waste into power and biofuel -- 15.1. Introduction -- 15.2. Scale-up of MET from laboratory level to pilot level -- 15.2.1. Microbial fuel cell -- 15.2.2. Microbial electrolysis cell -- 15.2.3. Microbial electrosynthesis -- 15.2.4. Microbial desalination cell -- 15.3. Stacking of microbial electrochemical systems: A major perspective for scaling-up -- 15.3.1. Some case studies on large-scale implementation of MES. , 15.4. Continuous mode of operation of microbial electrochemical systems during scale-up.
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  • 2
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    Online Resource
    Pharmaceutical and Nutraceutical Potential of Cyanobacteria (2024)
    Cham : Springer International Publishing | Cham : Imprint: Springer
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    Keywords: Biotechnology. ; Nutrition . ; Natural products.
    Description / Table of Contents: Chapter 1. Cyanobacterial Cell Factories; Insight into Their Pharmaceutical and Nutraceutical Properties -- Chapter 2. Cyanobacterial Pigments: Pharmaceutical and Nutraceutical Applications -- Chapter 3. Spirulina as a Food of the Future -- Chapter 4. Potential of Cyanobacterial Biomass as an Animal Feed -- Chapter 5. Cost-Effective Cultivation of Cyanobacteria for Biotechnological Applications -- Chapter 6. Storage, Processing, and Stability of Phycobilins -- Chapter 7. Non-Conventional and Novel Strategies to Produce Spirulina Biomass -- Chapter 8. Cyanobacteria-based Green Synthesis of Nanoparticles for Industrial Applications -- Chapter 9. Cyanobacterial Bioactive Compounds; Synthesis, Extraction, and Applications -- Chapter 10. Threats, Challenges, and Issues of Large-Scale Cyanobacterial Cultivation -- Chapter 11. Cyanobacterial Exopolysaccharides; Extraction, Processing and Applications -- Chapter 12. Innovations in the Cyanobacteria-Based Biorefineries for Biopharmaceutical Industries -- Chapter 13. Cyanobacteria Biotechnology: Challenges and Prospects -- Chapter 14. Global Research Trends in Cyanobacteria; Bioproducts and Culture Collection.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XIV, 356 p. 47 illus., 42 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031455230
    URL: https://doi.org/10.1007/978-3-031-45523-0
    DOI: 10.1007/978-3-031-45523-0
    Language: English
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  • 3
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    Online Resource
    Biogenic Nanomaterials for Environmental Sustainability: Principles, Practices, and Opportunities (2024)
    Cham : Springer International Publishing | Cham : Imprint: Springer
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    Keywords: Water. ; Hydrology. ; Biomaterials. ; Nanotechnology. ; Green chemistry. ; Sustainability. ; Environmental chemistry.
    Description / Table of Contents: Bionanotechnology: Concepts, historical developments, and applications -- Biogenic nanomaterials: Synthesis, characterization, and applications -- Biogenic synthesis of nanomaterials: Plant diversity -- Biogenic synthesis of nanomaterials: Microbial diversity- Algae, bacteria, fungi, and others -- Biogenic synthesis of nanomaterials: Bioactive compounds as reducing, and capping agents -- Role of bioactive compounds in synthesis of nanomaterials: insights -- Biogenic nanomaterials as antimicrobial agents -- Nanomaterials induced cell disruption: An insight into mechanism -- Nanomaterials in drug delivery -- Biogenic nanomaterials for degradation of organic and inorganic pollutants -- Biogenic nanomaterials as catalyst for photocatalytic dye degradation -- Biogenic nanomaterials as adsorbents for heavy metal remediation -- Biogenic nanomaterials for remediation of Polyaromatic Hydrocarbons -- Biogenic nanomaterials for remediation of pharmaceutical products -- Biogenic nanomaterials for remediation of biocides-insecticides, pesticides and others -- Metal nanoparticles and algal lipid synthesis: An insight -- Metal nanoparticles and microbial (algal) metabolism -- Nanomaterials to enhance algal lipid productivity: Recent advancements -- Biogenic nanomaterials as fuel additives -- Bionanotechnology: Opportunities and challenges.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VII, 508 p. 38 illus., 27 illus. in color.)
    Edition: 1st ed. 2024.
    ISBN: 9783031459566
    Series Statement: Environmental Science and Engineering
    URL: https://doi.org/10.1007/978-3-031-45956-6
    DOI: 10.1007/978-3-031-45956-6
    Language: English
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  • 4
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    Online Resource
    Genomics of Antibiotic Resistant Bacteria in Industrial Waste Water Treatment (2023)
    Cham : Springer International Publishing | Cham : Imprint: Springer
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    Keywords: Refuse and refuse disposal. ; Environment. ; Water. ; Hydrology. ; Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental chemistry.
    Description / Table of Contents: Characterization methods for microbial communities present in contaminated soils -- Antibiotic Resistance Genes as contaminants in Industrial Waste Water Treatment -- Bacteriophages: A strategy to combat antibiotic resistance in waste water treatment plants -- The emergence of Waste Water Treatment Plant as a leading source for dissemination of Antibiotic-Resistant Gene -- Increasing Prevalence of Antibiotic-resistant genes in industrial wastewater: impact on public health -- Antibiotic resistance genes as emerging contaminants in industrial waste water treatment -- Characterization and Dynamic Shift of Microbial Communities in wastewater treatment plant.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VII, 158 p. 17 illus., 12 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031446184
    URL: https://doi.org/10.1007/978-3-031-44618-4
    DOI: 10.1007/978-3-031-44618-4
    Language: English
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  • 5
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    Online Resource
    Advanced and Innovative Approaches of Environmental Biotechnology in Industrial Wastewater Treatment (2023)
    Singapore : Springer Nature Singapore | Singapore : Imprint: Springer
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    Keywords: Refuse and refuse disposal. ; Biotechnology. ; Water. ; Hydrology. ; Industries. ; Pollution.
    Description / Table of Contents: Microbial biotechnology for circular economy in wastewater treatment: potentials, technologies, and challenges -- Activated sludge process for Wastewater Treatment -- Advanced oxidation processes for industrial wastewater treatment -- Microbial Biofilms in the Treatment of Textile Effluents -- The Challenges of Wastewater and Wastewater Management -- Application of Nanomaterials for the Removal of Heavy Metal from Wastewater -- Nanofiltration Applications for Potable Water, Treatment, and Reuse -- Sustainable green approaches for wastewater Purification -- Contaminants of Emerging Concern and Hybrid Continuous Flow Treatment: A Promising Combination -- An innovative and effective industrial wastewater treatments to reduce water pollution: A brief history and present scenario -- Role of lignocellulosic waste in biochar production for adsorptive removal of pollutants from wastewater -- Emerging methods used in Bioremediation and Nano techniques for the removal of heavy metals in contaminated soil and industrial effluents -- Therapeutic and diagnostic potential of nanomaterials for enhanced biomedical applications -- Nanomaterials and their properties: Thermal analysis, physical, mechanical and chemical properties -- Bioremediation of industrial wastewater using microorganisms: an overview with recent developments -- Phytochelatins: Heavy metal detoxifiers in Plants -- Applications of bioremediation in treatment of environmental pollution -- Combined Applications of Physico-Chemical Treatments In Treatment of Industrial Wastewater -- Traditional Treatment Methods for Industrial Waste -- Anthracene removal from wastewater using biotechnological interventions. .
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VII, 454 p. 57 illus., 52 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9789819925988
    URL: https://doi.org/10.1007/978-981-99-2598-8
    DOI: 10.1007/978-981-99-2598-8
    Language: English
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  • 6
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    Online Resource
    Microbial Bioremediation & Biodegradation (2020)
    Singapore : Springer Singapore | Singapore : Imprint: Springer
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    Keywords: Pollution. ; Environmental chemistry. ; Environmental engineering. ; Biotechnology. ; Environmental health.
    Description / Table of Contents: Chapter 1. Bioremediation Approaches for Pulp and Paper Industry Wastewater Treatment: Recent Advances and Challenges -- Chapter 2. Microbial remediation of Heavy Metals -- Chapter 3. Dyes: effect on environment and biosphere and their remediation constrains -- Chapter 4. Microbial Bioremediation and Biodegradation of Hydrocarbons, Heavy Metals and Radioactive Wastes in solid and waste waters -- Chapter 5. Advancement of omics: Prospects for bioremediation of contaminated soils -- Chapter 6. Microbial biotransformation of hexavalent chromium Cr(VI) in tannery wastewater -- Chapter 7. Bio-remediation: A Low-Cost and Clean-Green Technology for Environmental Management -- Chapter 8. Microbial Degradation of Pharmaceuticals and Personal-care Products from Wastewater -- Chapter 9. Extremophiles; A powerful choice for bioremediation of toxic oxyanions -- Chapter 10. Conventional and non-conventional biodegradation technologies for agroindustrial liquid wastes management -- Chapter 11. White Rot Fungi: Nature’s Scavenger -- Chapter 12. Nanobioremediation: An emerging approach for a cleaner environment -- Chapter 13. Bioelectrochemical system for bioremediation and energy generation -- Chapter 14. Ligninolysis: Roles of Microbes and their Extracellular Enzymes -- Chapter 15. Biosorption of heavy metals by Cyanobacteria: potential of live and dead cells in bioremediation -- Chapter 16. Bioremediation of pharmaceuticals in water and wastewater -- Chapter 17. Bioremediation Of Saline Soil by Cynobacteria -- Chapter 18. Advancement in treatment technologies of Biopharmaceutical Industrial effluents -- Chapter 19. Marine Bacteria- A Storehouse of novel compounds for biodegradation -- Chapter 20. Energy-efficient anaerobic ammonia removal: from laboratory to full-scale application -- Chapter 21. Microbial degradation of natural and synthetic rubbers.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(IX, 550 p. 69 illus., 48 illus. in color.)
    Edition: 1st ed. 2020.
    ISBN: 9789811518126
    Series Statement: Springer eBook Collection
    URL: https://doi.org/10.1007/978-981-15-1812-6
    DOI: 10.1007/978-981-15-1812-6
    Language: English
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  • 7
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    Online Resource
    Phytonanotechnology (2022)
    Singapore : Springer Nature Singapore | Singapore : Imprint: Springer
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    Keywords: Pollution. ; Botany. ; Nanotechnology.
    Description / Table of Contents: - Plant synthesized nanoparticles for dye degradation -- Plant-Mediated Green Synthesis of Nanoparticles for Photocatalytic Dye Degradation -- Plant-derived nanoparticles for heavy metal remediation -- Biomedical applications of phytonanotechnology -- Application of nanotechnology in plant secondary metabolites production -- Applications of Nanotechnology in Preservation and Development of the Plants: A Look Back -- Environmental applications of Phytonanotechnology: a promise to sustainable future -- Phytonanotechnological Approach for Silver Nanoparticles: Mechanistic Aspect, Properties and Reliable Heavy Metal Ion Sensing -- Plant Material Assisted Magnetic Nanoparticles (MNPs) for the Separation of Inorganic Pollutants -- Environmental Applications of Green Engineered Silver Nanoparticles -- Bioremediation of heavy metal contaminated sites using phytogenic nanoparticles -- Environmental applications of green engineered copper nanoparticles -- Plant mediated nanocomposites for water remediation -- Photocatalytic degradation of dye from various metal/metal oxides derived from diverse plants -- Phytonanotechnology for the removal of pollutants from the contaminated soil environment.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VI, 336 p. 54 illus., 49 illus. in color.)
    Edition: 1st ed. 2022.
    ISBN: 9789811948114
    URL: https://doi.org/10.1007/978-981-19-4811-4
    DOI: 10.1007/978-981-19-4811-4
    Language: English
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  • 8
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    Online Resource
    Biorefinery for Water and Wastewater Treatment (2023)
    Cham : Springer International Publishing | Cham : Imprint: Springer
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    Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Environmental protection. ; Civil engineering. ; Water. ; Hydrology. ; Refuse and refuse disposal.
    Description / Table of Contents: Assessment of industrial wastewater for future Bio-refinery -- Sewage water as potential bio-refinery -- Municipal waste water as potential bio-refinery -- Industrial waste water as potential bio-refinery -- Industrial Wastewater treatment technologies with prospective bio-refinery -- Bio-gas as a value generation from industrial waste water -- Bio-ethanol production as a promising approach of wastewater bio-refinery -- Bio-diesel production as a promising approach of industrial wastewater bio-refinery -- Electricity generation during industrial wastewater treatment -- Nutrient recovery and utilization from wastewater for soil less agriculture -- Bio prospecting of novel and industrially relevant enzymes -- Bio-fertilizer from industrial waste water -- Techno-economic feasibility analysis process for industrial waste water bio-refinery -- Case studies on recent development of waste water bio-refinery.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(VII, 496 p. 69 illus., 56 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031208225
    URL: https://doi.org/10.1007/978-3-031-20822-5
    DOI: 10.1007/978-3-031-20822-5
    Language: English
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  • 9
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    Online Resource
    Biochar and its Application in Bioremediation (2021)
    Singapore : Springer Singapore | Singapore : Imprint: Springer
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    Keywords: Waste management. ; Microbiology. ; Biotechnology.
    Description / Table of Contents: Chapter 1. Application of biochar for wastewater treatment -- Chapter 2. Utility of Surface modified biochar for sequestration of heavy metals in water -- Chapter 3. Biochar and microbes- Collaborative approach for bioremediation of industrial effluents -- Chapter 4. Application of biochar for wastewater treatment -- Chapter 5. Synergistic approaches in the bioremediation of industrial effluents -- Chapter 6. Role of biochar in the removal of organic and inorganic contaminants from wastewater -- Chapter 7. Recent advances in biochar-based dye remediation -- Chapter 8. Application of biochar for the treatment of textile dyes and wastewater -- Chapter 9. Conversion of agricultural wastes into biochar and its characteristics -- Chapter 10. Antiepileptic drugs: from public to environmental health problem -- Chapter 11. Biochar :A futurastic tools to remove heavy metals from contaminated soils -- Chapter 12. Conversion of agricultural wastes into biochar and its characteristics -- Chapter 13. Biochar as a tool for the remediation of agricultural soils -- Chapter 14. Removal of contaminants by modified biochar-based material -- Chapter 15. Application of biochar for wastewater treatment -- Chapter 16. A unique collaborative perspective on the utilisation of biochar in accelerated biodegradation of discharge from factories -- Chapter 17. Application of biochar for wastewater treatment -- Chapter 18. Restoration of contaminated agricultural soils -- Chapter 19. Application of biochar for soil remediation -- Chapter 20. Active control of environmental enteric viruses and bacteria using biochar -- Chapter 21. Application of biochar for soil remediation.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(XVII, 471 p. 1 illus.)
    Edition: 1st ed. 2021.
    ISBN: 9789811640599
    URL: https://doi.org/10.1007/978-981-16-4059-9
    DOI: 10.1007/978-981-16-4059-9
    Language: English
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  • 10
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    Online Resource
    Modern Approaches in Waste Bioremediation : Environmental Microbiology (2023)
    Cham : Springer International Publishing | Cham : Imprint: Springer
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    Keywords: Environmental engineering. ; Biotechnology. ; Bioremediation. ; Refuse and refuse disposal. ; Water. ; Hydrology. ; Chemistry. ; Pollution.
    Description / Table of Contents: Bioremediation: The solution to rising pollution -- Role of microbes in cleaning the environment -- Various approaches in bioremediation process -- New advances in use of microbial culture for industrial waste treatment -- Importance of aerobic bioremediation -- Anaerobic bioremediation: types, methods and implementations -- Removal of heavy metals using bio-remedial techniques -- Use of genetic engineering in bioremediation -- Microbes in industrial waste treatment -- Bioremediation of radioactive wastes -- Application of fungi in bioremediation -- Modern enhanced In-Situ techniques of bioremediation -- Advanced role of biosurfactants -- Nanotechnology for bioremediation of industrial wastewater treatment -- Emerging pollutants from the industries and their treatment.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource(IX, 526 p. 54 illus., 42 illus. in color.)
    Edition: 1st ed. 2023.
    ISBN: 9783031240867
    URL: https://doi.org/10.1007/978-3-031-24086-7
    DOI: 10.1007/978-3-031-24086-7
    Language: English
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