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Full Description
Waste materials in the solid form tend to be bulky and difficult to handle and transport. Its management could happen through physical, thermal, chemical or biological processing stages, with the exact sequence of and their operational optima being decided by the waste composition. In recent years, energy crisis and increased waste production have been undoubtedly major issues of concern. As we mentioned in the previous volume of this book, defining waste is crucial in terms of identifying the most adequate approach to recycle or recover resources from the waste. Various chemical, biochemical, and biological approaches are being investigated widely by researchers for waste valorization. Volume 2 of this book brings together the leading researchers working on solid waste management using biological and biochemical approaches.
Contents
Foreword. Preface. The Use of Biological Methods to Process Solid Waste. Anaerobic Digestion of Solid Organic Waste to Generate Biogas. Kinetics of Biochemical Degradation of Municipal Solid Waste in Landfills. Biogas Generation from Solid State Anaerobic Digestion of Waste Material. Municipal Solid Waste Management and Effect of Process Parameters on the Treatment Methods. Biological Treatment of Leather Industry Solid Waste: Current Status and Future Perspectives. Biorefining of Organic Solid: Current Technology and Future Perspectives. Sustainable Management of Municipal Solid Waste by a Combination of Biological and Chemical Process Approaches. The Recent Development of Waste to Energy System for Municipal Solid Management System in Developing Countries. Treatment of Solid Food Waste Using Solid-State Fermentation: Its Current Use and Future Perspectives. Solid Waste Treatment Using Vermicomposting: Its Current Use and Future Perspectives. Application of Anaerobic Digestion Approach for the Treatment of Agro-Residue Waste. Applications of Mechanical Biological Pre-Treatment Methods of Municipal Solid Waste. Integration of Site-Specific Data into Life Cycle Assessment Method, with a Focus on Municipal Solid Waste Treatment Technologies. Biotechnological Approaches for Addressing the Plastic Waste Treatment. Index.
