Note: Intro -- Preface -- Contents -- Introduction -- Waste Management and the Agenda 2030 in the Indian Context -- 1 Introduction -- 2 Sustainability Issues Related to Waste Management -- 3 Agenda 2030, SDGs and Waste -- 4 Electronic Waste -- 5 Circular Economy for Sustainable Development -- 6 Sustainable Waste Management: Indian Scenario -- 6.1 Biomedical Waste -- 6.2 Extended Producer Responsibility (EPR) -- 7 Way Forward: Waste Management-Key to Achieving SDGs -- 8 Summary -- 9 Recommendations -- References -- Waste to Wealth -- Solid Waste Management Methods: A Technological Analysis of Mechanical, Chemical, Thermal and Hybrid Means -- 1 Introduction -- 2 Types of Solid Waste Conversion Technologies -- 2.1 Mechanical Conversion Technology -- 2.2 Thermal Conversion Technologies -- 2.3 Chemical Technologies -- 2.4 Hybrid Technologies -- 3 Conclusions -- 4 Recommendations -- References -- Characterization and Sustainable Utilization of Steel Slag (SS) as a Recycled Aggregates in Indian Concrete Industry -- 1 Introduction -- 2 Methods and Material -- 2.1 Sample Collection -- 2.2 SS Waste Characterization Methods and Parameters Analyzed -- 3 Results and Discussions -- 3.1 Physical and Chemical Characteristics of SS Waste -- 3.2 Major, Minor and Trace Analysis of SS Waste -- 3.3 Mineralogical Characteristics of SS Waste -- 3.4 Sieve Analysis of SS Waste -- 3.5 Mechanical Characteristics of SS Wastes -- 3.6 Compressive Strength at 90, 28, and 7 Days -- 4 Conclusions -- 5 Recommendations -- References -- Application of Green Synthesis of Nanoparticles for Removal of Heavy Metal Ion from Industrial Waste Water -- 1 Introduction -- 1.1 What Are Heavy Metal Ions? -- 1.2 Toxic Effect of Ions -- 1.3 Industrialization and Deposition of Metal Ions in Water -- 2 How Heavy Metal Ions Affect the Environment. , 3 Water Pollution: Determining the Quality of Water and Factors Inducing Toxicity -- 3.1 Acid Mine Water -- 3.2 Toxicity -- 4 Using Green Chemistry for Removal of Metal Ions-Brief Overview -- 5 Conventional Methods for Removal of Heavy Metal -- 5.1 Chemical Precipitation -- 5.2 Sulfide Precipitation -- 5.3 Ion Exchange -- 5.4 Adsorption -- 5.5 Disadvantages of Conventional Methods of Heavy Metal Removal -- 6 Methods to Remove Deposition of Ions from Water: Nano Technology -- 6.1 What is Nanotechnology? -- 6.2 Classification of Nano Materials [51] -- 6.3 Fabrication Methods -- 6.4 Kinds of Nanomaterials -- 6.5 Water Remediation Using Polymer Nanoparticles -- 7 Removal of Heavy Metal from Industrial Waste Water Using Bio Based Materials -- 7.1 Ligni -- 7.2 Composition of Leaves -- 8 Removal of Cu and Al from Drinking Water -- 8.1 Copper -- 8.2 Aluminum -- 9 Removal of Specific Metals: Zinc and Cadmium -- 9.1 Cadmium -- 9.2 Zinc -- 10 Toxic Effects on Health -- 10.1 Toxicity Mechanism of Some of the Heavy Metals -- 11 Conclusion -- 12 Recommendation -- References -- Waste Management in Indian Pharmaceutical Industries -- 1 Introduction -- 2 Evolution of Indian Pharmaceutical Sector -- 3 Treatment Methods -- 3.1 Incineration -- 3.2 Autoclaving -- 3.3 Physicochemical Methods -- 3.4 Adsorption Process -- 3.5 Coagulation and Precipitation -- 3.6 Electro-Coagulation -- 3.7 Constructed Wetlands -- 3.8 Biological Processes -- 3.9 Membrane Separation -- 4 Management Practices in India -- 5 Conclusion -- 6 Recommendations -- References -- Erosion Management of Riparian Ecosystem in Coal Mining Area Through Selective Vegetation -- 1 Introduction -- 1.1 Coal Mining -- 1.2 Riparian Ecosystem -- 2 Materials and Methods -- 2.1 Coal Mining -- 3 Results and Discussion -- 3.1 Coal Mining (OB Dump) -- 3.2 Riparian Land -- 4 Conclusions -- 5 Recommendations -- References. , Waste to Energy -- Urban Solid Waste Management for Enhancement of Agricultural Productivity in India -- 1 Introduction -- 2 Environmental Impacts of Solid Waste -- 3 Agricultural Productivity: Waste to Wealth to Health -- 4 Conclusions -- 5 Recommendations -- References -- Food Waste Utilization for the Production of Biogas by Anaerobic Digestion: A Case Study in Coal Capital of India -- 1 Introduction -- 2 Formation and Chemical Properties of Biogas -- 2.1 Methane -- 2.2 Carbon Dioxide -- 2.3 Other Components -- 3 Anaerobic Digestion -- 4 Stages of Anaerobic Digestion -- 4.1 Hydrolysis -- 4.2 Acidogenesis -- 4.3 Methanogenesis -- 5 Biogasification: Policies and Current Status in India -- 6 Materials and Methods -- 6.1 Study Location -- 6.2 Waste Collection and Processing -- 6.3 Exploratory Set-Up -- 6.4 Analytical Methods -- 6.5 Measurements -- 7 Result and Discussion -- 8 Methane Yields -- 9 Conclusion -- References -- Development of Low-Cost Microbial Fuel Cell for Converting Waste to Electricity and Abating Pollution -- 1 Introduction -- 1.1 Description of Microbial Fuel Cell -- 2 Cathode Materials -- 2.1 Modified Carbon Catalysts -- 2.2 Transition Metal Oxides -- 2.3 Metal Doped Complex Organic Catalysts -- 3 Anode Materials -- 3.1 Anode Modification Using Metal Oxides -- 3.2 Anode Modification Using Conductive Polymers -- 3.3 Anode Modification Using Graphene and Carbon Nanotube -- 4 Proton Exchange Membrane -- 4.1 Nafion and Its Modifications -- 4.2 Non-Nafion Sulfonated Polymeric Membranes -- 4.3 Polymeric Membranes -- 4.4 Clayware Membranes -- 5 Alternative to High-Cost Terminal Electron Acceptors -- 6 Perspectives and Way Forward -- 7 Conclusion -- References -- Recent Developments in Energy Recovery from Sewage Treatment Plant Sludge via Anaerobic Digestion -- 1 Introduction -- 1.1 Anaerobic Digestion Process. , 2 Environmental Requirements and Control -- 2.1 Temperature -- 2.2 Alkalinity and pH -- 2.3 Nutrients -- 2.4 Retention Time -- 2.5 OLR and Sludge Feed Composition -- 2.6 Seeding and Mixing -- 3 Process Inhibition -- 3.1 Ammonia Inhibition -- 3.2 Volatile Fatty Acids -- 3.3 Sulphide/Sulphate -- 4 Process Configurations -- 4.1 High Rate or Continuous Digester -- 4.2 Two-Stage Digester -- 4.3 Digester Design Considerations -- 5 Pre-treatment -- 5.1 Physical Pre-treatment -- 5.2 Chemical Pre-treatment -- 5.3 Biological Pre-treatment -- 6 Biogas Refinement -- 7 Biogas Utilization Systems -- 8 Challenges and Opportunities -- 9 Conclusions -- 10 Recommendations -- References -- Waste and Sustainability -- Management of Waste Plastic: Conversion and Its Degradation as an Environment Concern in Asian Country -- 1 Introduction -- 2 Healthcare Waste -- 2.1 Management of Healthcare Waste -- 3 Plastic Waste in Soil -- 3.1 Management of Plastic Waste in Soil -- 4 Municipal Solid Waste -- 4.1 Management of Municipal Solid Waste -- 5 Household Waste Plastic and Its Management -- 6 Marine Waste Plastic -- 6.1 Management of Marine Waste Plastic -- 7 Conclusions -- 8 Recommendations -- References -- Gold Phytomining in India: An Approach to Circular Economy in the 21st Century -- 1 Introduction -- 2 Gold Phytomining -- 2.1 Gold Phytomining-Indian Scenario and an Approach to the Circular Economy -- 3 Discussion -- 4 Conclusions -- 5 Recommendations -- References -- Conclusions -- Update, Conclusions and Recommendations for "Environment Management: Waste to Wealth in India" -- 1 Background -- 2 Update -- 2.1 From Waste to Energy -- 2.2 Waste and Sustainability -- 3 Conclusions -- 3.1 From Waste to Wealth -- 3.2 From Waste to Energy -- 3.3 Waste and Sustainability -- 4 Recommendations -- References.