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Bioremediation of petroleum and petroleum products [[electronic resource] /] / James G. Speight, Karuna K. Arjoon
Bioremediation of petroleum and petroleum products [[electronic resource] /] / James G. Speight, Karuna K. Arjoon
Autore Speight James G
Pubbl/distr/stampa Salem, Mass., : Scrivener
Descrizione fisica 1 online resource (588 p.)
Disciplina 665.5389
Altri autori (Persone) ArjoonKaruna K
Collana Energy and Environment
Soggetto topico Bioremediation
Petroleum products - Environmental aspects
ISBN 1-118-52832-8
1-118-52847-6
1-283-71519-8
1-118-52828-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Bioremediation of Petroleum and Petroleum Products; Contents; Preface; 1 Introduction to Bioremediation; 1 Introduction; 2 Principles of Bioremediation; 3 Bioremediation and Biodegradation; 3.1 Natural Bioremediation; 3.2 Traditional Bioremediation Methods; 3.3 Enhanced Bioremediation Treatment; 3.4 Biostimulation and Bioaugmentation; 3.5 In Situ and Ex Situ Bioremediation Techniques; 4 Mechanism of Biodegradation; 4.1 Chemical Reactions; 4.2 Kinetic Aspects; 4.3 Effect of Salt; 5 Bioremediation Methods; 5.1 Method Parameters; 5.2 In Situ and Ex Situ Bioremediation
5.3 Biostimulation and Bioaugmentation of Contaminated Sites5.4 Monitored Natural Attenuation; 5.5 Soil Vapor Extraction, Air Sparging, and Bioventing; 5.6 Use of Biosurfactants; 5.7 Rhizosphere Bioremediation; 5.8 Bioengineering in Bioremediation; 6 Test Methods for Biodegradation; 7 References; 2 Petroleum Composition and Properties; 1 Introduction; 2 Composition; 2.1 Elemental Composition; 2.2 Chemical Composition; 2.3 Composition by Volatility; 2.4 Composition by Fractionation; 2.5 Composition by Spectroscopy; 2.5.1 Infrared Spectroscopy; 2.5.2 Nuclear Magnetic Resonance
2.5.3 Mass Spectrometry2.5.4 Other Techniques; 3 Properties; 3.1 Density and Specific Gravity; 3.2 Elemental (Ultimate) Analysis; 3.3 Chromatographie Fractionation; 3.4 Liquefaction and Solidification; 3.5 Metals Content; 3.6 Surface and Interfacial Tension; 3.7 Viscosity; 3.8 Volatility; 4 References; 3 Refinery Products and By-Products; 1 Introduction; 2 Refinery Products; 2.1 Liquefied Petroleum Gas; 2.2 Naphtha, Gasoline, and Solvents; 2.3 Kerosene and Diesel Fuel; 2.4 Fuel Oil; 2.5 Lubricating Oil; 2.6 White Oil, Insulating Oil, Insecticides; 2.7 Grease; 2.8 Wax; 2.9 Asphalt; 2.10 Coke
3 Refinery Chemicals3.1 Spent Caustic; 3.2 Spent Acids; 3.3 Spent Catalysts; 3.3.1 Demet; 3.3.2 Met-X; 4 References; 4 Composition and Properties of Gaseous Products; 1 Introduction; 2 Gaseous Products; 2.1 Liquefied Petroleum Gas; 2.2 Natural Gas; 2.3 Refinery Gas; 3 Environmental Effects; 4 Analysis; 4.1 Calorific Value (Heat of Combustion); 4.2 Composition; 4.3 Density; 4.4 Relative density; 4.5 Sulfur; 4.6 Volatility and Vapor Pressure; 5 References; 5 Composition and Properties of Liquid Products; 1 Introduction; 2 Naphtha; 2.1 Composition; 2.2 Density (Specific Gravity)
2.3 Evaporation Rate2.4 Flash Point; 2.5 Odor and Color; 2.6 Volatility; 2.7 Environmental Impact; 3 Fuel Oil; 3.1 Asphaltene Content; 3.2 Composition; 3.3 Density (Specific Gravity); 3.4 Elemental Analysis; 3.5 Flash Point; 3.6 Metals Content; 3.7 Pour Point and Viscosity; 3.8 Stability; 3.9 Environmental Impact; 4 Wastewaters; 5 References; 6 Composition and Properties of Solid Products; 1 Introduction; 2 Residua and Asphalt; 2.1 Acid Number; 2.2 Asphaltene Content; 3.3 Carbon Disulfide Insoluble Constituents; 2.4 Composition; 2.5 Density (Specific Gravity); 2.6 Elemental Analysis
2.7 Float Test
Record Nr. UNINA-9910141380703321
Speight James G  
Salem, Mass., : Scrivener
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Bioremediation of petroleum and petroleum products [[electronic resource] /] / James G. Speight, Karuna K. Arjoon
Bioremediation of petroleum and petroleum products [[electronic resource] /] / James G. Speight, Karuna K. Arjoon
Autore Speight James G
Edizione [1st ed.]
Pubbl/distr/stampa Salem, Mass., : Scrivener
Descrizione fisica 1 online resource (588 p.)
Disciplina 665.5389
Altri autori (Persone) ArjoonKaruna K
Collana Energy and Environment
Soggetto topico Bioremediation
Petroleum products - Environmental aspects
ISBN 1-118-52832-8
1-118-52847-6
1-283-71519-8
1-118-52828-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Bioremediation of Petroleum and Petroleum Products; Contents; Preface; 1 Introduction to Bioremediation; 1 Introduction; 2 Principles of Bioremediation; 3 Bioremediation and Biodegradation; 3.1 Natural Bioremediation; 3.2 Traditional Bioremediation Methods; 3.3 Enhanced Bioremediation Treatment; 3.4 Biostimulation and Bioaugmentation; 3.5 In Situ and Ex Situ Bioremediation Techniques; 4 Mechanism of Biodegradation; 4.1 Chemical Reactions; 4.2 Kinetic Aspects; 4.3 Effect of Salt; 5 Bioremediation Methods; 5.1 Method Parameters; 5.2 In Situ and Ex Situ Bioremediation
5.3 Biostimulation and Bioaugmentation of Contaminated Sites5.4 Monitored Natural Attenuation; 5.5 Soil Vapor Extraction, Air Sparging, and Bioventing; 5.6 Use of Biosurfactants; 5.7 Rhizosphere Bioremediation; 5.8 Bioengineering in Bioremediation; 6 Test Methods for Biodegradation; 7 References; 2 Petroleum Composition and Properties; 1 Introduction; 2 Composition; 2.1 Elemental Composition; 2.2 Chemical Composition; 2.3 Composition by Volatility; 2.4 Composition by Fractionation; 2.5 Composition by Spectroscopy; 2.5.1 Infrared Spectroscopy; 2.5.2 Nuclear Magnetic Resonance
2.5.3 Mass Spectrometry2.5.4 Other Techniques; 3 Properties; 3.1 Density and Specific Gravity; 3.2 Elemental (Ultimate) Analysis; 3.3 Chromatographie Fractionation; 3.4 Liquefaction and Solidification; 3.5 Metals Content; 3.6 Surface and Interfacial Tension; 3.7 Viscosity; 3.8 Volatility; 4 References; 3 Refinery Products and By-Products; 1 Introduction; 2 Refinery Products; 2.1 Liquefied Petroleum Gas; 2.2 Naphtha, Gasoline, and Solvents; 2.3 Kerosene and Diesel Fuel; 2.4 Fuel Oil; 2.5 Lubricating Oil; 2.6 White Oil, Insulating Oil, Insecticides; 2.7 Grease; 2.8 Wax; 2.9 Asphalt; 2.10 Coke
3 Refinery Chemicals3.1 Spent Caustic; 3.2 Spent Acids; 3.3 Spent Catalysts; 3.3.1 Demet; 3.3.2 Met-X; 4 References; 4 Composition and Properties of Gaseous Products; 1 Introduction; 2 Gaseous Products; 2.1 Liquefied Petroleum Gas; 2.2 Natural Gas; 2.3 Refinery Gas; 3 Environmental Effects; 4 Analysis; 4.1 Calorific Value (Heat of Combustion); 4.2 Composition; 4.3 Density; 4.4 Relative density; 4.5 Sulfur; 4.6 Volatility and Vapor Pressure; 5 References; 5 Composition and Properties of Liquid Products; 1 Introduction; 2 Naphtha; 2.1 Composition; 2.2 Density (Specific Gravity)
2.3 Evaporation Rate2.4 Flash Point; 2.5 Odor and Color; 2.6 Volatility; 2.7 Environmental Impact; 3 Fuel Oil; 3.1 Asphaltene Content; 3.2 Composition; 3.3 Density (Specific Gravity); 3.4 Elemental Analysis; 3.5 Flash Point; 3.6 Metals Content; 3.7 Pour Point and Viscosity; 3.8 Stability; 3.9 Environmental Impact; 4 Wastewaters; 5 References; 6 Composition and Properties of Solid Products; 1 Introduction; 2 Residua and Asphalt; 2.1 Acid Number; 2.2 Asphaltene Content; 3.3 Carbon Disulfide Insoluble Constituents; 2.4 Composition; 2.5 Density (Specific Gravity); 2.6 Elemental Analysis
2.7 Float Test
Record Nr. UNINA-9910821172803321
Speight James G  
Salem, Mass., : Scrivener
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Biotechnological innovations for environmental bioremediation / / Sudipti Arora [and three others], editors
Biotechnological innovations for environmental bioremediation / / Sudipti Arora [and three others], editors
Pubbl/distr/stampa Singapore : , : Springer, , [2022]
Descrizione fisica 1 online resource (1072 pages)
Disciplina 628.5
Soggetto topico Bioremediation
Bioremediació
Soggetto genere / forma Llibres electrònics
ISBN 981-16-9001-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Foreword -- Preface -- Part I: Environmental Remediation -- Part II: Phytoremediation -- Part III: Environmental Safety, Health, and Risk Assessment -- Acknowledgements -- Introduction -- Part I: Environmental Remediation -- Part II: Phytoremediation -- Part III: Environmental Safety, Health, and Risk Assessments -- Contents -- Editors and Contributors -- Part I: Environmental Remediation -- 1: Ecosystem Engineers: A Sustainable Catalyst for Environmental Remediation -- 1.1 Introduction -- 1.2 Green Technologies for the Sustainable Development -- 1.3 Bioremediation: An Effective Tool to Manage Pollution -- 1.3.1 Ecosystem Engineers -- 1.3.2 Conventional Bioremediation Approaches for Pollutant Mitigation: Micro-Remediation -- 1.3.3 Mechanism behind Degradation -- 1.3.4 Sustainable Enzyme Technology for Environmental Remediation -- 1.3.4.1 Hydrolases (EC3) -- 1.3.4.2 Esterases (EC 3.1) -- 1.3.4.3 Nitrilases (EC 3.5.5.1) -- 1.3.4.4 Peroxidases (EC1) Ligninolytic Peroxidases -- 1.3.4.5 Lignin Peroxidase -- 1.3.4.6 Manganese Peroxidase (EC 1.11.1.13) -- 1.3.4.7 Cytochrome p450 Monooxygenase (EC 1.14.14.1) -- 1.4 Entomo-remediation -- 1.4.1 The Role of Earthworms in Pollutant Degradation -- 1.4.2 The Significance of Gut Produced Enzymes in Degradation Processes -- 1.5 Conclusions: A Road Ahead Towards Sustainable Development -- References -- 2: Microbial Nanobiotechnology in Environmental Pollution Management: Prospects and Challenges -- 2.1 Environmental Pollution -- 2.1.1 Types of Environmental Pollution -- 2.1.1.1 Air Pollution -- 2.1.1.2 Water Pollution -- 2.1.1.3 Soil Pollution -- 2.1.2 Effects of Pollution -- 2.2 Microbial Nanobiotechnology in Pollution Management -- 2.2.1 Microorganisms Important in Nanobiotechnological Management of Pollution -- 2.2.1.1 Bacteria -- 2.2.1.2 Fungi -- 2.2.1.3 Microalgae.
2.2.2 Secretion and Importance of Microbial Nanoparticle in Pollution Management -- 2.2.2.1 Gold Nanoparticle -- 2.2.2.2 Silver Nanoparticle -- 2.2.2.3 Titanium Oxide Nanoparticles -- 2.3 Principles of Nanotechnology in Pollution Management -- 2.3.1 Adsorption -- 2.3.2 Nanofiltration -- 2.3.3 Photocatalysis -- 2.4 Current Advances in Nanotechnological Management of Pollution -- 2.4.1 Pollution Bioremediation -- 2.4.2 Pollution Biosensory -- 2.4.3 Pollution Prevention -- 2.5 Risk Assessment and Sustainability of Nanotechnology in Pollution Management -- 2.6 Challenges and Recommendations -- 2.6.1 Challenges -- 2.6.2 Recommendations -- 2.7 Concluding Remarks -- References -- 3: Soil Microbiome: A Key Player in Conservation of Soil Health Under Changing Climatic Conditions -- 3.1 Introduction -- 3.2 Soil Microbiome -- 3.3 Function of Soil Microbiome for Improving Soil Health Under Changing Climate -- 3.4 Characteristics of the Microbiome of Soil -- 3.5 Factors Determining the Composition and Role of Soil Microbiome -- 3.6 Direct Impacts of Climate Change on Soil Communities and Plants -- 3.7 Climate Change Secondary Impacts on Plants and Soil Microbiome -- 3.8 Determination of Microbiome by Host Genotype -- 3.9 Alteration of Host Pathways Signaling -- 3.10 Alteration in Root Secretions -- 3.11 Targeted Engineering of Plant Microbiomes -- 3.12 Developing Areas in Microbiome Engineering -- 3.13 Utilizing Organic Soil Amendments and Root Exudates to Attract and Maintain Beneficial Microbiomes -- 3.14 Artificial Microbial Consortia -- 3.15 Microbiome Breeding and Transplantation -- 3.16 Microbiome Preservation -- 3.17 Methods of Microbiome Preservation -- 3.17.1 Cell Alive System (CAS) Technique for Intact Microbiome Preservation -- 3.17.2 Cryopreservation and Lyophilization in Microbiome Preservation -- 3.17.3 Gelatine Disk Method: Preservation of Sample.
3.17.4 Cellular Immobilization or Entrapment -- 3.17.5 Electrospinning and Electrospraying (Microencapsulation) in Microbiome Preservation -- 3.17.5.1 Prospective Contribution from Genome to Phenome on the Host of the Soil Microbiome -- 3.18 Sustainable Agriculture and Food Safety Due to Consequences of the Soil Microbiome -- 3.19 Conclusion -- References -- 4: Anaerobic Digestion for Climate Change Mitigation: A Review -- 4.1 Introduction -- 4.2 Anaerobic Digestion -- 4.2.1 Pretreatment Methods -- 4.2.1.1 Wastewater Treatment -- 4.2.1.2 Microbial Pretreatment -- 4.3 Methane -- 4.4 Methanogens -- 4.4.1 Phylogeny and Habitats of Methanogens -- 4.5 Methanogenesis -- 4.5.1 Hydrogenotrophic Archaea -- 4.5.2 Methylotrophic Methanogens -- 4.5.3 Aceticlastic Methanogens -- 4.6 Improvement in Methane Production -- 4.6.1 Nano-Biochar -- 4.6.2 Bioaugmentation -- 4.6.3 Ultrasound Pretreatment -- 4.6.4 Micro-Oxygenic Treatment -- 4.6.5 Role of Temperature -- 4.6.5.1 Mesophilic and Thermophilic Temperature -- 4.6.5.2 Psychrophilic Temperature -- 4.6.6 Effects of Silver Nanoparticles -- 4.7 Biotechnology of Archaea -- 4.7.1 Synthetic Genes for Industrial Products Production -- 4.8 Extracellular Electron -- 4.8.1 Mineralization -- 4.8.2 Biomineralization: Microbiologically Influenced Corrosion (MIC) -- 4.8.3 Direct Interspecies Electron Transfer (DIET) -- 4.9 Applications -- 4.9.1 Sweet Sorghum as a Source of Hydrogen and Methane -- 4.9.2 Anaerobic Digestion -- 4.9.3 Clostridium butyricum -- 4.9.4 Reactor System -- 4.9.5 Biogas -- 4.10 Discussion -- 4.11 Conclusion -- References -- 5: Mitigation of Microbially Influenced Corrosion of Concrete Sewers Using Nitrite -- 5.1 Introduction -- 5.2 Sewer System and Concrete Corrosion -- 5.2.1 Sewer System -- 5.2.1.1 Overview of the Sewer System -- 5.2.1.2 Sulfide in Sewers -- 5.2.2 Concrete Corrosion in Sewers.
5.2.2.1 Overview of Sewer Concrete Corrosion -- 5.2.2.2 Corrosion Layer Conditions -- 5.3 Applications of Nitrite in Sewer Systems -- 5.3.1 Reducing H2S Production in Anaerobic Sewers -- 5.3.2 Mitigating the Corrosion Development of Existing Corroding Sewers -- 5.3.3 Increasing the Corrosion Resistance of Nitrite Admixed Concrete -- References -- 6: Metabolic Engineering and Synthetic and Semi-Synthetic Pathways: Biofuel Production for Climate Change Mitigation -- 6.1 Introduction -- 6.2 Systems and Synthetic Biology -- 6.3 The CRISPR/Cas Revolution -- 6.4 The Role of Synthetic Biology in Atmospheric Greenhouse Gas Reduction -- 6.5 Synthetic Biology Tools to Engineer and Control Microbial Communities -- 6.5.1 Applications of Plant Synthetic Biology -- 6.5.2 Production of Functional Biomaterials -- 6.5.3 The Potential of Synthetic Microbial Consortia in Bioprocesses of the Future -- 6.5.4 Synthetic Antibody Could Prevent and Treat COVID-19 -- 6.5.5 Artemisinin -- 6.5.6 Resveratrol -- 6.6 Renewable Energy -- 6.6.1 Biomass and Biofuels -- 6.6.2 C3 and C4 Plants -- 6.7 Lignocellulosic Biofuels -- 6.8 Lignin Biosynthesis -- 6.9 Metabolic Engineering -- 6.10 Bio-Based Platform for Industrial Products -- 6.11 Biochemicals Derived from the Shikimate Pathway -- 6.12 Biochemicals Derived from the Isoprenoid Pathways -- 6.13 Agri-Waste to Value-Added Products -- 6.14 Discussion -- 6.15 Future Directions and Concluding Remarks -- References -- 7: Handmade Paper Industry: A Green and Sustainable Enterprise and Its Challenges -- 7.1 Introduction -- 7.2 National/International Demand -- 7.3 Composition of Wood -- 7.3.1 Cellulose -- 7.3.2 Hemicellulose -- 7.3.3 Lignin -- 7.4 Easily Availability of Machine/Equipment -- 7.5 Disadvantages of Using Nonwood Fiber (Bajpai 2018) -- 7.6 Challenges for Handmade Paper Manufacturing Process -- 7.6.1 Challenges for Raw Material.
7.6.2 Strengthening of Handmade Paper -- 7.6.3 The Degree of Difficulty in the Performance of Fiber Materials During Pulping -- 7.6.4 Challenges in Pulping -- 7.7 Environmental Effect -- 7.8 Economic Effect -- 7.9 Societal Impact -- 7.10 Significance of Handmade Paper -- 7.11 Future Research Areas -- 7.12 Conclusions -- References -- 8: Bioremediation Approaches and the Role of Microbes in the Bio-sustainable Rehabilitation of Polluted Sites -- 8.1 Introduction -- 8.2 The Principle of Bioremediation -- 8.2.1 Factors Affecting Bioremediation -- 8.2.1.1 Nutrients and Environmental Requirements -- 8.2.1.2 Energy Sources -- 8.2.1.3 Bioavailability and Bioactivity -- 8.3 Methods of Bioremediation -- 8.3.1 In Situ Bioremediation -- 8.3.2 Ex Situ Bioremediation -- 8.3.3 Phytoremediation -- 8.3.3.1 Phytoextraction or Phytoaccumulation -- 8.3.3.2 Phytostabilization or Phyto-immobilization -- 8.3.3.3 Phytotransformation or Phytodegradation -- 8.4 Microbes That Assist in the Bioremediation Processes -- 8.5 Advantages and Disadvantages of Bioremediation -- 8.6 Conclusion -- References -- 9: Recent Bioremediation Techniques for the Removal of Industrial Wastes -- 9.1 Introduction -- 9.2 Recent Bioremediation Methods for Mitigating Various Industrial Wastes -- 9.2.1 Microbial Bioremediation -- 9.2.2 Genetically Modified Microbes for Enhanced Bioremediation -- 9.2.3 Phytoremediation -- 9.2.4 Phytobial -- 9.2.5 Electro-bioremediation Technique -- 9.2.6 Electrokinetic-Phytoremediation Technique -- 9.2.7 Microbial Fuel Cells for Bioremediation -- 9.2.8 Nano-bioremediation Technique -- 9.2.9 Constructed Wetlands -- 9.3 Limitations, Prospects and Conclusion -- References -- 10: Pesticides: Indian Scenario on Environmental Concerns and Future Alternatives -- 10.1 Introduction -- 10.2 Consumption of Pesticides in India -- 10.3 Impact of Chemical Pesticides.
10.3.1 Regulations and Quality Control.
Record Nr. UNINA-9910586592703321
Singapore : , : Springer, , [2022]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Biotechnology for sustainable environment / / Sanket J. Joshi, Arvind Deshmukh and Hemen Sarma (editors)
Biotechnology for sustainable environment / / Sanket J. Joshi, Arvind Deshmukh and Hemen Sarma (editors)
Pubbl/distr/stampa Gateway East, Singapore : , : Springer, , [2021]
Descrizione fisica 1 online resource (417 pages)
Disciplina 628.5
Soggetto topico Bioremediation
Bioremediació
Soggetto genere / forma Llibres electrònics
ISBN 981-16-1955-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Preface -- Contents -- About the Editors -- 1: Environmental Biotechnology: Toward a Sustainable Future -- 1.1 Introduction to Environmental Biotechnology -- 1.2 Worldwide Environmental Problems -- 1.2.1 Environmental Contamination -- 1.2.2 Global Warming -- 1.2.3 The Depletion of the Ozone Layer -- 1.2.4 Acid Rain -- 1.2.5 Depletion of Natural Resources -- 1.2.6 Overpopulation -- 1.2.7 Waste Disposal -- 1.2.8 Deforestation -- 1.2.9 Loss of Biodiversity -- 1.3 Bioremediation -- 1.3.1 Nano-Bioremediation Technologies for Sustainable Environment -- 1.4 Biotechnology to Control and Clear Air Pollution -- 1.4.1 Control Methods of Odor and Volatile Organic Compounds (VOCs) -- 1.5 Soil Management and Contamination -- 1.5.1 Sources of Soil Pollution -- 1.5.2 The Available Options for the Integrated Management of Contaminated Soils -- 1.5.2.1 Controlling Pollutant Entry into the Soil -- 1.5.2.2 Use of Physical and Chemical Means to Decontaminate Soil -- 1.5.2.3 Soil Contaminants Bioremediation -- 1.6 Effective Treatment of Wastewater -- 1.6.1 Choice of Methods for Wastewater Treatment -- 1.6.1.1 Small-Scale Wastewater Treatment -- 1.6.1.2 Large-Scale Wastewater Treatment -- 1.6.2 Biological Approach to Wastewater Treatment -- 1.7 Biotechnology Application to Industrial Sustainability -- 1.7.1 Fine Chemicals -- 1.7.2 Intermediate Chemicals -- 1.7.3 Polymers -- 1.7.4 Food Processing -- 1.7.5 Fiber Processing -- 1.7.6 Biotechnology Can Create a Source of Renewable Energy -- 1.8 Microorganisms in the Environment -- 1.8.1 Bio-Inputs for Global Sustainability -- 1.8.2 Antibiotics Are Used to Protect Plants -- 1.9 Further Biotechnological Aspects -- 1.9.1 Eco-Friendly Fuels -- 1.9.1.1 Biofuel Sources -- 1.10 Biopesticides -- 1.10.1 Microbial Pesticides -- 1.10.2 Biochemical Pesticides -- 1.10.2.1 Benefits of Biochemical Pesticides.
1.10.2.2 Limitations of Biochemical Pesticides -- 1.11 Biofertilizers -- 1.11.1 Microbial Biofertilizers -- 1.12 Bioleaching -- 1.12.1 Bioleaching Uses -- 1.12.2 Mechanism of Bioleaching -- 1.13 Bioplastic -- 1.13.1 Merits of Bioplastics Over Conventional Plastics -- 1.13.1.1 Biodegradable -- 1.13.1.2 Eco-Friendly -- 1.14 Conclusion -- References -- 2: The Mystery of Methanogenic Archaea for Sustainable Development of Environment -- 2.1 Introduction -- 2.2 Microbiological Facets of Methanogens -- 2.2.1 Archaebacteria -- 2.2.2 Definitive Characteristics of Methanogenic Archaea -- 2.2.3 Anaerobiosis -- 2.2.4 A Diminutive Historical View of Methanogenic Archaea -- 2.2.5 Habitat -- 2.2.6 Methanogenic Phylogeny -- 2.2.6.1 Methanobacteriales -- 2.2.6.2 Methanococcales -- 2.2.6.3 Methanomicrobiales -- 2.2.6.4 Methanosarcinales -- 2.2.6.5 Methanopyrales -- 2.2.6.6 Methanocellales -- 2.2.6.7 Methanoplasmatales (Thermoplasmatales) -- 2.3 Morphological, Ecological, and Biological View of Methanogenic Archaea -- 2.3.1 Cell Shape, Motility, and Gas Vesicles -- 2.3.2 Gram Reaction -- 2.3.3 Methanogens as Syntrophs -- 2.3.4 Cell Envelope, Lipid Composition, and Antibiotic Resistance -- 2.4 Growth Parameters -- 2.4.1 Temperature, pH, Pressure, and Salinity -- 2.4.2 Substrate Range -- 2.4.2.1 Acetoclastic Methanogens -- 2.4.2.2 Hydrogenotrophic Methanogens -- 2.4.2.3 Methylotrophic Methanogens -- 2.5 Bioeconomy-Based Technologies for Environmental Sustainability -- 2.5.1 Bio-Based Carbon Dioxide Capture, Sequestration, Utilization, and Conversion (CCSUC) Technology -- 2.5.2 Anaerobic Digestion -- 2.5.2.1 Microbial Food Chains of Anaerobic Digestion -- 2.5.2.2 Methanogenesis -- 2.5.3 Energy Pool: Biofuel -- 2.5.4 MEOR: A Combining Hand of Biodegradation and Biotransformation -- 2.5.5 Microbially Enhanced Coal Bed Methane (MECoM) -- 2.5.6 Electromethanogenesis.
2.5.7 Corrosion Prevention -- 2.5.8 Waste Management -- 2.5.9 Bio-Hydrogen Production -- 2.5.10 Other Active Applications -- 2.6 Conclusion and Future Perspectives -- References -- 3: Chitosan Coating Biotechnology for Sustainable Environment -- 3.1 Introduction -- 3.2 Coating Technology -- 3.3 Chitosan -- 3.4 Chitosan-Based Coatings -- 3.4.1 Chitosan-Based Polyester (CHI-PE) -- 3.4.1.1 Synthesis -- 3.4.1.2 Fourier Transform Infrared Spectroscopy (FTIR) -- 3.4.1.3 X-Ray Diffraction (XRD) -- 3.4.1.4 Scanning Electron Microscope (SEM) -- 3.4.1.5 Swelling Performance -- 3.4.1.6 Antibacterial Activity -- 3.4.2 Chitosan-Based Polyurethane (CHI-PU) -- 3.4.2.1 Synthesis -- 3.4.2.2 Fourier Transform Infrared Spectroscopy (FTIR) -- 3.4.2.3 X-Ray Diffraction (XRD) -- 3.4.2.4 Scanning Electron Microscope (SEM) -- 3.4.2.5 Wettability -- 3.4.2.6 Antibacterial Activity -- 3.4.3 Chitosan-Based Polyvinyl Acetate (CHI-PVA) -- 3.4.3.1 Synthesis -- 3.4.3.2 Fourier Transform Infrared Spectroscopy (FTIR) -- 3.4.3.3 X-Ray Diffraction (XRD) -- 3.4.3.4 Morphology -- 3.4.3.5 Swelling Performance -- 3.4.3.6 Conductivity -- 3.4.4 Chitosan-Based Carboxymethyl Cellulose (CHI-CMC) -- 3.4.4.1 Synthesis -- 3.4.4.2 Fourier Transform Infrared Spectroscopy (FTIR) -- 3.4.4.3 X-Ray Diffraction (XRD) -- 3.4.4.4 Swelling Performance -- 3.4.4.5 Antimicrobial Activity -- 3.5 Summary -- 3.6 Future Perspectives -- References -- 4: Bacterial Biodegradation of Bisphenol A (BPA) -- 4.1 Introduction -- 4.2 Xenobiotic Metabolism and Biodegradation -- 4.2.1 Bisphenol A -- 4.2.1.1 Production and Uses of BPA -- 4.2.2 Hazards of BPA -- 4.2.3 Microorganisms Involved in BPA Degradation -- 4.2.4 BPA Degradation Pathway and Intermediates -- 4.3 Case Study -- 4.3.1 Determination of Enzyme Activity -- 4.3.2 Observations -- 4.3.3 Bisphenol A Degradation -- 4.4 Conclusion and Future Prospects -- References.
5: Microbial Degradation of Marine Plastics: Current State and Future Prospects -- 5.1 Introduction -- 5.1.1 Plastics: The Marvel and The Global Problem -- 5.2 The Oceans Plastic Problem -- 5.2.1 Impacts of Plastic on Marine Life -- 5.3 Plastic Degradation -- 5.3.1 Abiotic Factors Influencing the Degradation of Plastic -- 5.3.2 The Potential for Microbially Mediated Plastic Degradation -- 5.4 Methods and Techniques Applied in the Assessment of Polymer Biodegradation -- 5.4.1 Methods to Evaluate Biodegradation -- 5.4.2 Colonization of Prokaryotes and Eukaryotes on Marine Plastic -- 5.4.2.1 Prokaryotic Colonizers on Marine Plastic -- 5.4.2.2 Eukaryotes as Plastic Colonizers and Degraders -- 5.5 Enzymatic Potential of Microbes -- 5.5.1 General Considerations -- 5.5.2 Extracellular Biodegradation -- 5.5.3 Intracellular Biodegradation -- 5.6 Valorization and Applications -- References -- 6: Mechanism and Pretreatment Effect of Fungal Biomass on the Removal of Heavy Metals -- 6.1 Introduction -- 6.2 Natural and Anthropogenic Sources of Heavy Metals -- 6.3 Passive and Active Biosorption -- 6.4 Fungal Biomass Generated from the Fermentation Industries -- 6.5 Fungal Cell Wall Structure -- 6.5.1 Advantages of Fungi as Biosorbents -- 6.5.2 Fungi as Biosorbents -- 6.6 Factors Affecting Biosorption Process -- 6.7 Effect of Pretreatment of Fungal Biomass on the Removal of Heavy Metals -- 6.8 Physical and Chemical Methods of Pretreatment of Fungal Biomass for the Removal of Heavy Metals -- 6.8.1 Physical Methods -- 6.8.2 Pretreatment Using Acids (Das et al. 2007) -- 6.8.3 Pretreatment Using Alkali (Das et al. 2007) -- 6.8.4 Pretreatment Using Organic Solvents (Das et al. 2007) -- 6.9 Mechanism of the Removal of Heavy Metals by the Fungal Biomass -- 6.9.1 Presence of Functional Groups on the Fungal Biomass -- 6.9.2 Direct Adherence on the Fungal Cell Wall.
6.9.3 Functional Group on Chitosan -- 6.10 Immobilization of Fungal Biomass for Biosorption -- 6.11 Conclusions -- 6.12 Future Prospects -- References -- 7: Metal Bioremediation, Mechanisms, Kinetics and Role of Marine Bacteria in the Bioremediation Technology -- 7.1 Introduction -- 7.2 Heavy Metals and Their Sources -- 7.3 Mechanisms of Metal Bioremediation -- 7.3.1 Solubilization -- 7.3.1.1 Bioleaching -- 7.3.2 Immobilization -- 7.3.2.1 Bioaccumulation -- 7.3.2.2 Biosorption -- 7.3.3 Mechanisms of Biosorption -- 7.3.3.1 Cell Surface Adsorption -- 7.3.3.2 Extracellular Accumulation -- 7.3.3.3 Intracellular Accumulation -- 7.3.3.4 Precipitation -- 7.3.3.5 Transformation of Metals -- 7.4 Marine Bacteria -- 7.5 Marine Bacteria in Biosorption of Metals -- 7.6 Use of Genetically Modified Microorganisms in Biosorption -- 7.7 Factors Affecting Biosorption -- 7.8 Biosorption Isotherm Models -- 7.9 Biosorption Kinetics -- 7.10 Analytical Techniques to Analyse Biosorption Process -- 7.11 Living and Non-living Systems for Metal Sorption -- 7.12 Desorption and Metal Recovery -- 7.13 Future Work -- 7.14 Conclusion -- References -- 8: Biofilm-Associated Metal Bioremediation -- 8.1 Introduction -- 8.2 Heavy Metals and Their Toxicity -- 8.3 Biofilm: Composition and Structure -- 8.3.1 Composition -- 8.3.2 EPS Synthesis -- 8.3.3 Biofilm Structure and Its Formation -- 8.4 Biofilm-Producing Microbiota -- 8.4.1 Bacteria in Bioremediation of Heavy Metals -- 8.4.2 Fungi in Bioremediation of Heavy Metals: Mycoremediation -- 8.4.3 Algae in Bioremediation of Heavy Metals: Phycoremediation -- 8.5 Metal-Microbe Interaction and EPS-Mediated Strategies for Remediation -- 8.5.1 EPS-Mediated Metal Biosorption: Mechanism, Advantages, and Disadvantages -- 8.5.2 Strategies of Heavy-Metal and EPS Interaction and Its Remediation -- 8.5.3 Types of EPS and Its Remediation Strategies.
8.5.3.1 Dead Biomass EPS.
Record Nr. UNINA-9910488696003321
Gateway East, Singapore : , : Springer, , [2021]
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Biotechnology, research program overview
Biotechnology, research program overview
Pubbl/distr/stampa Washington, DC : , : United States Environmental Protection Agency, Office of Research and Development, , 1994
Descrizione fisica 1 online resource (14 pages) : illustrations
Soggetto topico Hazardous wastes - Biodegradation - United States
Refuse and refuse disposal - Biodegradation - United States
Bioremediation - United States
Bioremediation
Hazardous wastes - Biodegradation
Refuse and refuse disposal - Biodegradation
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910709754503321
Washington, DC : , : United States Environmental Protection Agency, Office of Research and Development, , 1994
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Biotreatment of industrial effluents [[electronic resource] /] / Mukesh Doble and Anil Kumar
Biotreatment of industrial effluents [[electronic resource] /] / Mukesh Doble and Anil Kumar
Autore Doble Mukesh
Pubbl/distr/stampa Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Descrizione fisica 1 online resource (337 p.)
Disciplina 628.5
Altri autori (Persone) Anil Kumar
Soggetto topico Factory and trade waste - Purification
Waste products - Environmental aspects
Bioremediation
Soggetto genere / forma Electronic books.
ISBN 1-280-62942-8
9786610629428
0-08-045621-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Front matter; Half Title Page; Title Page; Copyright; Dedication Page; Contents; Foreword; Preface; 1. Introduction; Movement of Pollutants from the Source; Different Treatment Procedures and Factors Affecting Technology Selection; Various Chapters in the Book and How They Are Interrelated; Major Findings; New Research Frontiers; References; 2. Environmental Disasters; Various Disasters; Superfund; Conclusions; References; Bibliography; 3. Aerobic and Anaerobic Bioreactors; Introduction; Aerobic Degradation; Anaerobic Degradation
Comparison between Aerobic and Anaerobic Degradation Pathways Aerobic Reactors; Anaerobic Reactors; Conclusions; References; 4. Mathematical Models; Basic Reactor Models; Reaction Kinetics; Oxygen Transfer Rates; Mass Transfer and Diffusion Coefficients; Activated Sludge Process; Ponds and Lagoons; Transport in Soils; Diffusion and Transport of Gases in Air; Nomenclature; References; 5. Treatment of Waste from Organic Chemical Industries; Introduction; Biotreatment; Phytoremediation; References; 6. Chlorinated Hydrocarbons and Aromatics, and Dioxins; Introduction; Occurrence
Aerobic Degradation Anaerobic Degradation Pathways; Polynuclear Aromatic Hydrocarbons; Dioxins; References; Bibliography; 7. Fluoride Removal; Introduction; Organofluorine Compounds; Fluoride Contamination of Water and Treatment; References; 8. Biodegradation of Pesticides; Introduction; Insecticides; Fungicides; Herbicides; References; Bibliography; 9. Degradation of Polymers; Introduction; Biodegradation; Conclusions; References; Bibliography; 10. Degradation of Dyes; Textile Dyes; Reactors; White Rot Fungi; Conclusions; References; Bibliography; 11. Textile Effluent; Physical Treatment
Biodegradation Biosorption; Combined Treatments; Reactors; Conclusions; References; Bibliography; 12. Tannery Effluent; Biochemical Treatment; Chromium; Conclusions; References; Bibliography; 13. Treatment of Waste from Metal Processing and Electrochemical Industries; Mechanisms of Metal-Microorganism Interaction; Biosorption and Bioaccumulation; Bioprocesses and Reactors; Toxic Metals; Acid Mine Water; Plants; Conclusions; References; Bibliography; 14. Semiconductor Waste Treatment; Waste; Physical and Chemical Treatment Methods; Biochemical Methods; Biosorption; Conclusions; References
15. Waste from Nuclear Plants Introduction; Waste Management; Bioremediation; Phytoremediation; Composting; References; Bibliography; 16. Cyanide Waste; Physical Processes; Bioprocess; Metal-Cyanide Effluent; Conclusions; References; Bibliography; 17. Treatment of Waste from Food and Dairy Industries; Introduction; Dairy Industry; Meat Processing Industry; General Treatment Methods; References; Bibliography; 18. Sugar and Distillery Waste; Alcohol Distillery Effluent; Treatment of Distillery Effluent; Indian Scene; International Status; Microorganisms; References; Bibliography
19. Paper and Pulp
Record Nr. UNINA-9910457329603321
Doble Mukesh  
Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Materiale a stampa
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Biotreatment of industrial effluents [[electronic resource] /] / Mukesh Doble and Anil Kumar
Biotreatment of industrial effluents [[electronic resource] /] / Mukesh Doble and Anil Kumar
Autore Doble Mukesh
Pubbl/distr/stampa Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Descrizione fisica 1 online resource (337 p.)
Disciplina 628.5
Altri autori (Persone) Anil Kumar
Soggetto topico Factory and trade waste - Purification
Waste products - Environmental aspects
Bioremediation
ISBN 1-280-62942-8
9786610629428
0-08-045621-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Front matter; Half Title Page; Title Page; Copyright; Dedication Page; Contents; Foreword; Preface; 1. Introduction; Movement of Pollutants from the Source; Different Treatment Procedures and Factors Affecting Technology Selection; Various Chapters in the Book and How They Are Interrelated; Major Findings; New Research Frontiers; References; 2. Environmental Disasters; Various Disasters; Superfund; Conclusions; References; Bibliography; 3. Aerobic and Anaerobic Bioreactors; Introduction; Aerobic Degradation; Anaerobic Degradation
Comparison between Aerobic and Anaerobic Degradation Pathways Aerobic Reactors; Anaerobic Reactors; Conclusions; References; 4. Mathematical Models; Basic Reactor Models; Reaction Kinetics; Oxygen Transfer Rates; Mass Transfer and Diffusion Coefficients; Activated Sludge Process; Ponds and Lagoons; Transport in Soils; Diffusion and Transport of Gases in Air; Nomenclature; References; 5. Treatment of Waste from Organic Chemical Industries; Introduction; Biotreatment; Phytoremediation; References; 6. Chlorinated Hydrocarbons and Aromatics, and Dioxins; Introduction; Occurrence
Aerobic Degradation Anaerobic Degradation Pathways; Polynuclear Aromatic Hydrocarbons; Dioxins; References; Bibliography; 7. Fluoride Removal; Introduction; Organofluorine Compounds; Fluoride Contamination of Water and Treatment; References; 8. Biodegradation of Pesticides; Introduction; Insecticides; Fungicides; Herbicides; References; Bibliography; 9. Degradation of Polymers; Introduction; Biodegradation; Conclusions; References; Bibliography; 10. Degradation of Dyes; Textile Dyes; Reactors; White Rot Fungi; Conclusions; References; Bibliography; 11. Textile Effluent; Physical Treatment
Biodegradation Biosorption; Combined Treatments; Reactors; Conclusions; References; Bibliography; 12. Tannery Effluent; Biochemical Treatment; Chromium; Conclusions; References; Bibliography; 13. Treatment of Waste from Metal Processing and Electrochemical Industries; Mechanisms of Metal-Microorganism Interaction; Biosorption and Bioaccumulation; Bioprocesses and Reactors; Toxic Metals; Acid Mine Water; Plants; Conclusions; References; Bibliography; 14. Semiconductor Waste Treatment; Waste; Physical and Chemical Treatment Methods; Biochemical Methods; Biosorption; Conclusions; References
15. Waste from Nuclear Plants Introduction; Waste Management; Bioremediation; Phytoremediation; Composting; References; Bibliography; 16. Cyanide Waste; Physical Processes; Bioprocess; Metal-Cyanide Effluent; Conclusions; References; Bibliography; 17. Treatment of Waste from Food and Dairy Industries; Introduction; Dairy Industry; Meat Processing Industry; General Treatment Methods; References; Bibliography; 18. Sugar and Distillery Waste; Alcohol Distillery Effluent; Treatment of Distillery Effluent; Indian Scene; International Status; Microorganisms; References; Bibliography
19. Paper and Pulp
Record Nr. UNINA-9910784363703321
Doble Mukesh  
Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Biotreatment of industrial effluents / / Mukesh Doble and Anil Kumar
Biotreatment of industrial effluents / / Mukesh Doble and Anil Kumar
Autore Doble Mukesh
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Descrizione fisica 1 online resource (337 p.)
Disciplina 628.5
Altri autori (Persone) Anil Kumar
Soggetto topico Factory and trade waste - Purification
Waste products - Environmental aspects
Bioremediation
ISBN 1-280-62942-8
9786610629428
0-08-045621-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Front matter; Half Title Page; Title Page; Copyright; Dedication Page; Contents; Foreword; Preface; 1. Introduction; Movement of Pollutants from the Source; Different Treatment Procedures and Factors Affecting Technology Selection; Various Chapters in the Book and How They Are Interrelated; Major Findings; New Research Frontiers; References; 2. Environmental Disasters; Various Disasters; Superfund; Conclusions; References; Bibliography; 3. Aerobic and Anaerobic Bioreactors; Introduction; Aerobic Degradation; Anaerobic Degradation
Comparison between Aerobic and Anaerobic Degradation Pathways Aerobic Reactors; Anaerobic Reactors; Conclusions; References; 4. Mathematical Models; Basic Reactor Models; Reaction Kinetics; Oxygen Transfer Rates; Mass Transfer and Diffusion Coefficients; Activated Sludge Process; Ponds and Lagoons; Transport in Soils; Diffusion and Transport of Gases in Air; Nomenclature; References; 5. Treatment of Waste from Organic Chemical Industries; Introduction; Biotreatment; Phytoremediation; References; 6. Chlorinated Hydrocarbons and Aromatics, and Dioxins; Introduction; Occurrence
Aerobic Degradation Anaerobic Degradation Pathways; Polynuclear Aromatic Hydrocarbons; Dioxins; References; Bibliography; 7. Fluoride Removal; Introduction; Organofluorine Compounds; Fluoride Contamination of Water and Treatment; References; 8. Biodegradation of Pesticides; Introduction; Insecticides; Fungicides; Herbicides; References; Bibliography; 9. Degradation of Polymers; Introduction; Biodegradation; Conclusions; References; Bibliography; 10. Degradation of Dyes; Textile Dyes; Reactors; White Rot Fungi; Conclusions; References; Bibliography; 11. Textile Effluent; Physical Treatment
Biodegradation Biosorption; Combined Treatments; Reactors; Conclusions; References; Bibliography; 12. Tannery Effluent; Biochemical Treatment; Chromium; Conclusions; References; Bibliography; 13. Treatment of Waste from Metal Processing and Electrochemical Industries; Mechanisms of Metal-Microorganism Interaction; Biosorption and Bioaccumulation; Bioprocesses and Reactors; Toxic Metals; Acid Mine Water; Plants; Conclusions; References; Bibliography; 14. Semiconductor Waste Treatment; Waste; Physical and Chemical Treatment Methods; Biochemical Methods; Biosorption; Conclusions; References
15. Waste from Nuclear Plants Introduction; Waste Management; Bioremediation; Phytoremediation; Composting; References; Bibliography; 16. Cyanide Waste; Physical Processes; Bioprocess; Metal-Cyanide Effluent; Conclusions; References; Bibliography; 17. Treatment of Waste from Food and Dairy Industries; Introduction; Dairy Industry; Meat Processing Industry; General Treatment Methods; References; Bibliography; 18. Sugar and Distillery Waste; Alcohol Distillery Effluent; Treatment of Distillery Effluent; Indian Scene; International Status; Microorganisms; References; Bibliography
19. Paper and Pulp
Record Nr. UNINA-9910825032103321
Doble Mukesh  
Amsterdam, : Elsevier Butterworth-Heinemann, c2005
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Biotreatment of industrial effluents [e-book] / Mukesh Doble and Anil Kumar
Biotreatment of industrial effluents [e-book] / Mukesh Doble and Anil Kumar
Autore Doble, Mukesh
Pubbl/distr/stampa Burlington, MA : Elsevier Butterworth-Heinemann, c2005
Descrizione fisica xiv, 322 p. : ill. ; 24 cm
Disciplina 628.16837
Altri autori (Persone) Kumar, Anilauthor
Soggetto topico Factory and trade waste - Purification
Waste products - Environmental aspects
Bioremediation
Soggetto genere / forma Electronic books.
ISBN 9780750678384
0750678380
Formato Risorse elettroniche
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro; Biochemical Treatment of Waste from Dye Stuff Industries; Biochemical Treatment of Waste from Food and Dairy Industries; Biochemical Treatment of Waste from Leather Industries; Biochemical Treatment of Waste from Paint Industries; Biochemical Treatment of Waste from Paper/ Pulp Industries; Biodegradation of Waste from Alcohol Distilleries/Sugar; Biochemical Treatment of Waste from Organic Chemical Industries; Degradation of Polymer Waste; Biochemical Treatment of Waste from Metal Processing/ Electro-chemical Industries; Biochemical Treatment of Waste from Explosive Industries; Biochemical Treatment of Waste from Semiconductor Industries; Biochemical Treatment/Degradation of Pesticides; Biochemical Treatment of Municipal Waste; Biochemical Treatment/Degradation of Cyanide; Biochemical Treatment/Degradation of Petroleum/Petrochemical Waste; Biochemical Treatment/Degradation of Waste from Nuclear Plants; Biochemical Treatment of Hospital Waste; Treatment of Industrial Gaseous Pollutants and Vocs; Biochemical Treatment of Solid Waste; Ground Water Decontamination and Treatment; Treatment/ Detoxification of Chlorinated Hydrocarbons and Aromatics and DIOXINS; Fluoride Removal Using Biochemical Approaches; Biodesulphurisation of Crude Petroleum; Dentrification; Comparison of Aerobic and Anaerobic Processes and Reactors; Environmental Disasters; Textile; Pharma; Modeling if Waste Treatment Systems
Record Nr. UNISALENTO-991003229719707536
Doble, Mukesh  
Burlington, MA : Elsevier Butterworth-Heinemann, c2005
Risorse elettroniche
Lo trovi qui: Univ. del Salento
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Cadmium Toxicity in Water [[electronic resource] ] : Challenges and Solutions / / edited by Amrit Kumar Jha, Nitish Kumar
Cadmium Toxicity in Water [[electronic resource] ] : Challenges and Solutions / / edited by Amrit Kumar Jha, Nitish Kumar
Autore Jha Amrit Kumar
Edizione [1st ed. 2024.]
Pubbl/distr/stampa Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2024
Descrizione fisica 1 online resource (365 pages)
Disciplina 551.48
Altri autori (Persone) KumarNitish
Collana Springer Water
Soggetto topico Water
Hydrology
Pollution
Environmental chemistry
Bioremediation
Environmental management
Environmental Chemistry
Environmental Biotechnology
Environmental Management
ISBN 3-031-54005-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Source and Distribution of cadmium in Groundwater -- Health risks linked to cadmium toxicity -- Sustainable Mitigation Strategies.
Record Nr. UNINA-9910847582603321
Jha Amrit Kumar  
Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
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