09601nam 2200469 450 991083070200332120230414165304.01-119-80842-11-119-80833-21-119-80835-9(MiAaPQ)EBC7152688(Au-PeEL)EBL7152688(CKB)25610227100041(EXLCZ)992561022710004120230414d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAgriculture waste management and bioresource the circular economy perspective /edited by Pardeep Singh [and three others]Hoboken, New Jersey :John Wiley & Sons,[2023]©20231 online resource (412 pages)Print version: Singh, Suruchi Agriculture Waste Management and Bioresource Newark : John Wiley & Sons, Incorporated,c2023 9781119808138 Includes bibliographical references and index.Intro -- Table of Contents -- Title Page -- Copyright Page -- List of Contributors -- 1 Agricultural Waste as a Resource: The Lesser Travelled Road to Sustainability -- 1.1 Introduction -- 1.2 Sources of Agricultural Waste Generation -- 1.3 Agricultural Waste Characterization -- 1.4 Waste to Wealth: Agricultural Waste Management Approaches -- 1.5 Challenges in Agricultural Waste Management -- 1.6 Conclusion -- References -- 2 Sustainable Physical Methods Used for the Management of Agricultural Waste Biomass -- 2.1 Introduction -- 2.2 Major Crops for Agricultural Waste Generation -- 2.3 Predominant Agriculture Residue of Agricultural Crops -- 2.4 Forest Biomass -- 2.5 The Application of Biomass Waste -- 2.6 Challenges in Biomass Residues Utilization -- 2.7 The Waste Management Concept -- 2.8 Waste Management Systems -- 2.9 The Choice of Technology -- 2.10 Sustainable Physical Methods for Agricultural Biomass Management -- 2.11 Biomass Waste Management: Adverse Effect of Biomass Waste -- 2.12 Sustainable Use of Biomass Resources -- 2.13 A Case Study of Southeast Spain: Managing Agriculture Waste Biomass -- 2.14 Conclusion -- References -- 3 An Overview of Biomass Conversion from Agricultural Waste: Address on Environmental Sustainability -- 3.1 Introduction -- 3.2 Environmental Concerns of Renewable and Fossil Energy -- 3.3 Agriculture and Biofuels -- 3.4 Agricultural Residue Composition and Properties -- 3.5 Agricultural Residue Pre‐treatment Methods -- 3.6 Biomass Conversion Technologies -- 3.7 Production of Biofuels from Agricultural Biomass -- 3.8 Factors Influencing Biofuel Production -- 3.9 Biofuel Energy Potentials in India -- 3.10 Environmental and Economic Concern of Agriculture‐Based Biofuel Production -- 3.11 Future Perspectives -- 3.12 Conclusions -- Acknowledgements -- References.4 Agriculture Wastes: Generation and Sustainable Management -- 4.1 Introduction -- 4.2 Agrowastes and Its Composition -- 4.3 Agricultural Wastes as Source of Pollution -- 4.4 Realization of Sustainable Development from Agrowaste -- 4.5 Conclusion and Future Prospects -- References -- 5 Microbiological Digestion of Agricultural Biomass: Prospects and Challenges in Generating Clean and Green Energy -- 5.1 Introduction -- 5.2 Agricultural Waste: Generation to Proper Utilization of Agricultural Waste -- 5.3 Anaerobic Digestion -- 5.4 Way Forward -- 5.5 Conclusion -- References -- 6 Nothing is 'Waste' in Agriculture: From Nanotechnology and Bioprocesses Perspectives -- 6.1 Introduction -- 6.2 Relevance and Opportunities to Use Nanotechnology -- 6.3 Increase Productivity of Soil -- 6.4 Precision Farming -- 6.5 Restoration of Environmental Health -- 6.6 Agricultural Application of Nanotechnology -- 6.7 Nanofertilizers and Nanopesticides -- 6.8 Nanotechnology for Food Industry -- 6.9 Microbial Techniques for Bio‐Transforming Food and Agricultural Waste into Resources -- 6.10 Bioconversion of Food Waste to Wealth -- 6.11 Biowaste and its Products for Agricultural Sustainability -- 6.12 Post‐Harvest Agriculture Waste Management Using NPs -- 6.13 Sustainable Agriculture in India: Some Policy Recommendation -- 6.14 Risk and Safety Aspects of Nanotechnology in Agriculture -- 6.15 Conclusion and Future Implications -- Acknowledgement -- Conflict of Interest -- References -- 7 Agro‐Wastes as Low‐Cost Biosorbent for Dyes Removal from Wastewater -- 7.1 Introduction -- 7.2 Dyes Classification and Their Toxicity -- 7.3 Conventional Dye Removal Technologies from Wastewaters -- 7.4 Agricultural Wastes and Characterization -- 7.5 Agricultural Wastes: An Excellent Dye Adsorbent -- 7.6 Adsorption Kinetics and Isotherm -- 7.7 Factors Influencing Dye Removal Using Agro‐Wastes.7.8 Economic and Environmental Concern of Agricultural Wastes‐Based Dye Removal -- 7.9 Conclusions and Recommendations -- References -- 8 Agricultural Waste as Source of Organic Fertilizer and Energy -- 8.1 Introduction -- 8.2 Agricultural Waste -- 8.3 The Potential Risk of Agriculture Waste on Human and Environment -- 8.4 Traditional Technologies Used for Recycling of Agricultural Waste -- 8.5 Advanced Technology of Agricultural Waste for the Energy Production -- 8.6 Sustainable Use of Agriculture Waste for Biofuel Production -- 8.7 Conclusion -- References -- 9 Production of Bioethanol Using Agricultural Waste: An Overview -- 9.1 Introduction -- 9.2 Origin of Bioethanol -- 9.3 Production Policy of Bioethanol in some Countries with Focus on India -- 9.4 Distribution of Bioethanol Worldwide -- 9.5 Comparison of Ethanol and Gasoline -- 9.6 First‐Generation Bioethanol -- 9.7 Prospects -- 9.8 Challenges -- 9.9 Conclusion -- References -- 10 Bioethanol Production from Lignocellulose Agricultural Waste Biomass -- 10.1 Introduction -- 10.2 Discussion -- 10.3 Conclusion -- References -- 11 Hydrothermal Liquefaction of Waste Agricultural Biomass for Biofuel and Biochar -- 11.1 Introduction -- 11.2 Composition of Waste Obtained from Agriculture -- 11.3 Hydrothermal Liquefaction -- 11.4 Recent Development in HTL Technology -- 11.5 Process for Degradation of Cellulose -- 11.6 Products of HTL -- 11.7 Factors Affecting the Productivity of Bio‐Crude Oil -- 11.8 HTL: Future Prospects and Practical Limitations -- References -- 12 Biogas Production through Anaerobic Digestion of Agricultural Wastes: State of Benefits and its Future Trend -- 12.1 Introduction -- 12.2 Anaerobic versus Aerobic Digestion -- 12.3 Biochemical and Microbiological Aspect of Anaerobic Digestion -- 12.4 Parameters Involved in the Process -- 12.5 Anaerobic Digestion Process.12.6 By‐Products of Anaerobic Digestion -- 12.7 Types of Digesters -- 12.8 Mesophilic and Thermophilic Process -- 12.9 Suitable Wastes for Anaerobic Digestion -- 12.10 Perspective of Anaerobic Digestion -- 12.11 Policies and Application of Anaerobic Digestion Technology -- 12.12 Concluding Remarks -- References -- 13 Expansion of Agricultural Residues to Biofuel Processing and Production -- 13.1 Introduction -- 13.2 Agricultural Residues and Importance in Biofuel Production -- 13.3 Process of Conversion of Biomass Residue to Biofuels -- 13.4 Agricultural Residue Sources for Biofuel Production -- 13.5 Conclusion -- References -- 14 Creating Wealth from Agrowaste: Success Stories from India -- 14.1 Global Scenario of Agriculture -- 14.2 National Scenario -- 14.3 Types of Organic Inputs for Farms -- 14.4 Production by Self‐Help Groups (SHGs): A Microunit of Circular Economy -- 14.5 Linkages to United Nations Sustainable Development Goals (UNSDGs) and Government Schemes -- 14.6 Statistics of Stubble Burning in India -- 14.7 The Adverse Impacts of Stubble Burning on the Environment -- 14.8 Alternative Strategies to Stubble Burning in India -- 14.9 Riches from Rags' Studies from Rural India: Case Studies of Recycling Farm Wastes into Valuable Products -- References -- Web Links -- Index -- End User License Agreement."This book will emphasize the generation of agricultural waste and provide insight into various options in managing the waste, including composting, vermicomposting to form manure, and biogas generation. This is a step towards sustainable development and creating a greener planet. Recovery of resources from agricultural waste is a step towards the management of agricultural waste in a sustainable manner and reducing burden on the resources of the earth. Such measures are a part of recycling and circular economy where waste from one sector is converted to another useful product in the form of bio fertilizers and energy. The wastes produced are generally left in the fields or are burned which further leads to air and land pollution. If managed properly, this problem and its manifestation such as smog generation which is an emerging environmental issue, can be tackled. Nutrient recovery or energy recovery from this waste will also be helpful in solving the energy crisis to some extent. The runoff from fields is a source of water pollution and eutrophication. If the resource recovery concept is followed it will create a solution of tackling the waste at the source of generation."--Provided by publisher.Agricultural wastesRecyclingAgricultural wastesRecycling.628/.74Singh PardeepMiAaPQMiAaPQMiAaPQBOOK9910830702003321Agriculture waste management and bioresource3984516UNINA