04025nam 22005655 450 991087805700332120240726125238.0981-9725-35-610.1007/978-981-97-2535-9(MiAaPQ)EBC31569675(Au-PeEL)EBL31569675(CKB)33428340600041(DE-He213)978-981-97-2535-9(EXLCZ)993342834060004120240726d2024 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAgricultural Waste to Value-Added Products Bioproducts and its Applications /edited by Remya Neelancherry, Bin Gao, Alberto Wisniewski Jr1st ed. 2024.Singapore :Springer Nature Singapore :Imprint: Springer,2024.1 online resource (275 pages)981-9725-34-8 Chapter 1. Sustainable transformation of agricultural waste into value-added end products through thermochemical approach and end product characteristics -- Chapter 2. Value-Added End Products from Agriculture Residues through Biological Route and End Products Applications -- Chapter 3. Advancements in Hydrogen Production Technologies from Agricultural Waste -- Chapter 4. Agricultural Waste as a Source of Fine Chemicals through Thermochemical Methods -- Chapter 5. Biochar as a Filter Media for Air Pollution Control Systems -- Chapter 6. Valorisation of Agricultural waste into a Low Cost-Adsorbent: Perspective of Reutilization -- Chapter 7. Application of Biochar in Removal of Per- and polyfluoroalkyl substances from aqueous medium -- Chapter 8. Biochar based fertilizers – a smart solution for sustainable agriculture -- Chapter 9. Biomass Conversion to Synthetic Aviation Fuels -- Chapter 10. Utilization of Agricultural Wastes and Byproducts in Asphalt: A Critical Review -- Chapter 11. Innovative Biosensors from Agro-Waste: Laser and Microwave Approaches for Current and Future Applications in Environmental Health -- Chapter 12. Upcycling Coconut Husk Byproducts: Transitioning from Traditional Applications to Emerging High-Value Usages.This book provides awareness about utilizing the agricultural waste to assist sustainable development goals (SDGs) through the adaptation of such waste-to-energy technologies. It discusses the synthesis, characterization, and environmental utilization of biofuels produced from agriculture-derived wastes. The application of circular economy, insights and opportunities of recent issues, and ideas for the potential enhancement of agricultural waste-derived products are also explored. About a third of all biomass waste is produced by agriculture, making it one of the largest contributors to global biomass waste. Different biochemical and thermochemical processes can transform this waste into a wide range of value-added products. Such biomass-to-biofuel trends have gained a prominent status in the global energy system. And the agro-waste-derived products can provide potential solutions to a wide range of environmental problems. The primary audience shall be academicians, researchers, engineers, scientists, and managers working in the field of agricultural residue management and waste biomass to energy. .AgricultureSubsistence farmingAgronomyAgricultureSubsistence AgricultureAgronomyAgriculture.Subsistence farming.Agronomy.Agriculture.Subsistence Agriculture.Agronomy.630Neelancherry Remya1449871Gao Bin1209119Wisniewski Jr Alberto1449872MiAaPQMiAaPQMiAaPQBOOK9910878057003321Agricultural Waste to Value-Added Products3648614UNINA