Nano Technology for Battery Recycling, Remanufacturing, and Reusing
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portes grátis
Nano Technology for Battery Recycling, Remanufacturing, and Reusing
Gupta, Ram K.; Nguyen, Tuan Anh; Yasin, Ghulam; Farhad, Siamak
Elsevier - Health Sciences Division
04/2022
520
Mole
Inglês
9780323911344
15 a 20 dias
1090
Descrição não disponível.
Part 1: Introduction 1. Types of batteries in market and their statistics 2. Nanomaterials in batteries 3. Closed loop in battery recycling, remanufacturing, and reusing 4. Nanotechnology and recycling, remanufacturing, and reusing battery 5. Available technologies for recycling, remanufacturing, and reusing batteries: An introduction 6. Underdevelopment and promising technologies of recycling, remanufacturing, and reusing batteries: An introduction 7. Modeling and analysis tools for recycling, remanufacturing, and reusing batteries: An introduction
Part 2: Recycling, Remanufacturing and Reusing Batteries 8. Environmental aspects of recycling, remanufacturing, and reusing batteries 9. Economical aspects of recycling, remanufacturing, and reusing batteries 10. Safety aspects of recycling, remanufacturing, and reusing batteries 11. Government supports and incentive programs for recycling, remanufacturing, and reusing batteries 12. Regulations and standards for recycling, remanufacturing, and reusing batteries 13. Disassembly of battery packs for recycling 14. Industry experience in recycling, remanufacturing, and reusing batteries
Part 3: Nanotechnology for Battery Recycling 15. Mechanical and physical processes of battery recycling and the role of nanotechnology 16. Pyrometallurgical processes of battery recycling and the role of nanotechnology 17. Hydrometallurgical processes of battery recycling and the role of nanotechnology 18. Emerging processes and technologies of battery recycling and the role of nanotechnology 19. Separation technologies of nanomaterials from batteries 20. Regeneration technologies of nanomaterials of recycled batteries 21. Equipment for recycling batteries and separation of nanomaterials 22. Potential environmental impacts of non-recycled battery nanomaterials 23. Battery design to improve its recyclability
Part 4: Recycling Battery Components and Nanomaterials 24. Recycling battery cathode materials 25. Recycling battery anode materials 26. Recycling battery electrolyte materials 27. Recycling battery current collector materials 28. Recycling of battery casing materials 29. Recycling battery polymer materials 30. Recycling battery ceramic materials 31. Recycling battery metallic materials 32. Recycling lithium, cobalt, and nickel and returning to battery production cycle
Part 5: Battery Remanufacturing and Reusing from Recycled Nanomaterials 33. Battery manufacturing from recycled nanomaterials 34. Blending fresh and recycled nanomaterials in battery manufacturing 35. Applications of batteries made from recycled nanomaterials 36. Safety of batteries made from recycled nanomaterials 37. Current and future market for batteries made from recycled nanomaterials 38. Performance of batteries made from recycled nanomaterials 39. Industry experience in using batteries made from recycled nanomaterials 40. Future trends and threats for remanufacturing and reusing batteries from recycled nanomaterials
Part 2: Recycling, Remanufacturing and Reusing Batteries 8. Environmental aspects of recycling, remanufacturing, and reusing batteries 9. Economical aspects of recycling, remanufacturing, and reusing batteries 10. Safety aspects of recycling, remanufacturing, and reusing batteries 11. Government supports and incentive programs for recycling, remanufacturing, and reusing batteries 12. Regulations and standards for recycling, remanufacturing, and reusing batteries 13. Disassembly of battery packs for recycling 14. Industry experience in recycling, remanufacturing, and reusing batteries
Part 3: Nanotechnology for Battery Recycling 15. Mechanical and physical processes of battery recycling and the role of nanotechnology 16. Pyrometallurgical processes of battery recycling and the role of nanotechnology 17. Hydrometallurgical processes of battery recycling and the role of nanotechnology 18. Emerging processes and technologies of battery recycling and the role of nanotechnology 19. Separation technologies of nanomaterials from batteries 20. Regeneration technologies of nanomaterials of recycled batteries 21. Equipment for recycling batteries and separation of nanomaterials 22. Potential environmental impacts of non-recycled battery nanomaterials 23. Battery design to improve its recyclability
Part 4: Recycling Battery Components and Nanomaterials 24. Recycling battery cathode materials 25. Recycling battery anode materials 26. Recycling battery electrolyte materials 27. Recycling battery current collector materials 28. Recycling of battery casing materials 29. Recycling battery polymer materials 30. Recycling battery ceramic materials 31. Recycling battery metallic materials 32. Recycling lithium, cobalt, and nickel and returning to battery production cycle
Part 5: Battery Remanufacturing and Reusing from Recycled Nanomaterials 33. Battery manufacturing from recycled nanomaterials 34. Blending fresh and recycled nanomaterials in battery manufacturing 35. Applications of batteries made from recycled nanomaterials 36. Safety of batteries made from recycled nanomaterials 37. Current and future market for batteries made from recycled nanomaterials 38. Performance of batteries made from recycled nanomaterials 39. Industry experience in using batteries made from recycled nanomaterials 40. Future trends and threats for remanufacturing and reusing batteries from recycled nanomaterials
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acid leaching; Air classifier; Alkaline leaching; Anode materials recycling; Atomic energy battery; Batteries; Battery; Battery recycling; Battery technology; Bio-inspired nanotechnology; Bioleaching process; Carbothermic reduction method; Cell housing; Chemical approach; Chemical battery; Deep-eutectic solvents; Defects; Design of current collector; Directional adhesion; Economic analysis; Eddy-current separation; Environmental analysis; Fuel cell; Gecko feet; Graphene; Graphite; Green technology; Heavy liquids; Housing fraction; Hydrometallurgical; Hydrometallurgical recovery; Hydrometallurgy; Impurities; Impurity removal; Ionic liquids; Leaching; LIB; Liberation comminution; Lithium-ion batteries; Lithium-ion battery; Material resynthesis; Materials separation; Mechanical processing; Metal recycling; Nano; Nano-/microsized electrode materials; Nanomaterials; Nanometal; Nanotechnology; Organic acids; pH-responsive material; Physical approach; Physical battery; Polymer; Pretreatment
Part 1: Introduction 1. Types of batteries in market and their statistics 2. Nanomaterials in batteries 3. Closed loop in battery recycling, remanufacturing, and reusing 4. Nanotechnology and recycling, remanufacturing, and reusing battery 5. Available technologies for recycling, remanufacturing, and reusing batteries: An introduction 6. Underdevelopment and promising technologies of recycling, remanufacturing, and reusing batteries: An introduction 7. Modeling and analysis tools for recycling, remanufacturing, and reusing batteries: An introduction
Part 2: Recycling, Remanufacturing and Reusing Batteries 8. Environmental aspects of recycling, remanufacturing, and reusing batteries 9. Economical aspects of recycling, remanufacturing, and reusing batteries 10. Safety aspects of recycling, remanufacturing, and reusing batteries 11. Government supports and incentive programs for recycling, remanufacturing, and reusing batteries 12. Regulations and standards for recycling, remanufacturing, and reusing batteries 13. Disassembly of battery packs for recycling 14. Industry experience in recycling, remanufacturing, and reusing batteries
Part 3: Nanotechnology for Battery Recycling 15. Mechanical and physical processes of battery recycling and the role of nanotechnology 16. Pyrometallurgical processes of battery recycling and the role of nanotechnology 17. Hydrometallurgical processes of battery recycling and the role of nanotechnology 18. Emerging processes and technologies of battery recycling and the role of nanotechnology 19. Separation technologies of nanomaterials from batteries 20. Regeneration technologies of nanomaterials of recycled batteries 21. Equipment for recycling batteries and separation of nanomaterials 22. Potential environmental impacts of non-recycled battery nanomaterials 23. Battery design to improve its recyclability
Part 4: Recycling Battery Components and Nanomaterials 24. Recycling battery cathode materials 25. Recycling battery anode materials 26. Recycling battery electrolyte materials 27. Recycling battery current collector materials 28. Recycling of battery casing materials 29. Recycling battery polymer materials 30. Recycling battery ceramic materials 31. Recycling battery metallic materials 32. Recycling lithium, cobalt, and nickel and returning to battery production cycle
Part 5: Battery Remanufacturing and Reusing from Recycled Nanomaterials 33. Battery manufacturing from recycled nanomaterials 34. Blending fresh and recycled nanomaterials in battery manufacturing 35. Applications of batteries made from recycled nanomaterials 36. Safety of batteries made from recycled nanomaterials 37. Current and future market for batteries made from recycled nanomaterials 38. Performance of batteries made from recycled nanomaterials 39. Industry experience in using batteries made from recycled nanomaterials 40. Future trends and threats for remanufacturing and reusing batteries from recycled nanomaterials
Part 2: Recycling, Remanufacturing and Reusing Batteries 8. Environmental aspects of recycling, remanufacturing, and reusing batteries 9. Economical aspects of recycling, remanufacturing, and reusing batteries 10. Safety aspects of recycling, remanufacturing, and reusing batteries 11. Government supports and incentive programs for recycling, remanufacturing, and reusing batteries 12. Regulations and standards for recycling, remanufacturing, and reusing batteries 13. Disassembly of battery packs for recycling 14. Industry experience in recycling, remanufacturing, and reusing batteries
Part 3: Nanotechnology for Battery Recycling 15. Mechanical and physical processes of battery recycling and the role of nanotechnology 16. Pyrometallurgical processes of battery recycling and the role of nanotechnology 17. Hydrometallurgical processes of battery recycling and the role of nanotechnology 18. Emerging processes and technologies of battery recycling and the role of nanotechnology 19. Separation technologies of nanomaterials from batteries 20. Regeneration technologies of nanomaterials of recycled batteries 21. Equipment for recycling batteries and separation of nanomaterials 22. Potential environmental impacts of non-recycled battery nanomaterials 23. Battery design to improve its recyclability
Part 4: Recycling Battery Components and Nanomaterials 24. Recycling battery cathode materials 25. Recycling battery anode materials 26. Recycling battery electrolyte materials 27. Recycling battery current collector materials 28. Recycling of battery casing materials 29. Recycling battery polymer materials 30. Recycling battery ceramic materials 31. Recycling battery metallic materials 32. Recycling lithium, cobalt, and nickel and returning to battery production cycle
Part 5: Battery Remanufacturing and Reusing from Recycled Nanomaterials 33. Battery manufacturing from recycled nanomaterials 34. Blending fresh and recycled nanomaterials in battery manufacturing 35. Applications of batteries made from recycled nanomaterials 36. Safety of batteries made from recycled nanomaterials 37. Current and future market for batteries made from recycled nanomaterials 38. Performance of batteries made from recycled nanomaterials 39. Industry experience in using batteries made from recycled nanomaterials 40. Future trends and threats for remanufacturing and reusing batteries from recycled nanomaterials
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acid leaching; Air classifier; Alkaline leaching; Anode materials recycling; Atomic energy battery; Batteries; Battery; Battery recycling; Battery technology; Bio-inspired nanotechnology; Bioleaching process; Carbothermic reduction method; Cell housing; Chemical approach; Chemical battery; Deep-eutectic solvents; Defects; Design of current collector; Directional adhesion; Economic analysis; Eddy-current separation; Environmental analysis; Fuel cell; Gecko feet; Graphene; Graphite; Green technology; Heavy liquids; Housing fraction; Hydrometallurgical; Hydrometallurgical recovery; Hydrometallurgy; Impurities; Impurity removal; Ionic liquids; Leaching; LIB; Liberation comminution; Lithium-ion batteries; Lithium-ion battery; Material resynthesis; Materials separation; Mechanical processing; Metal recycling; Nano; Nano-/microsized electrode materials; Nanomaterials; Nanometal; Nanotechnology; Organic acids; pH-responsive material; Physical approach; Physical battery; Polymer; Pretreatment
