Description
Part I: General Aspects of Recycling 1. Introduction 2. Definitions & Terminology 3. Resource efficiency and recycling 4. Maps of the physical economy to inform sustainability strategies 5. Material Efficiency – Squaring the Circular Economy: Recycling within a hierarchy of material management strategies 6. Material and Product Centric Recycling 7. Theory and Tools of Physical Separation/Recycling Part II : Recycling – Application & Technology 8. Iron & Steel 9. Aluminium & Magnesium (and alloys) 10. Copper 11. Lead 12. Zinc 13. Ferroalloys 14. Rare earths & lanthanides 15. Elecotronic & semiconductor metals (Ga, In, Te, Ge, Se, Si) 16. Batteries 17. Precious & other technology metals (PM&PGM, Sc, Y, Ta, Li) 18. Lumber 19. Paper 20. Plastics 21. Glass 22. Textile 23. Cementitious binders incorporating residues 24. Industrial by-products 25. Carbon Fibres 26. Concrete & aggregates 27. Mixed Bulky waste 28. Buildings 29. Black rubber products Part III: Recovery & Collection 30. Construction & Demolition waste 31. Packaging 32. Automotive (ELV) 33. WEEE Equipment Management 34. Energy generation and storage 35. Municipal solid waste 36. Mine tailings 37. Sensor-based Sorting 38. The path to inclusive recycling Part IV: Economics, Governance and Policy 39. The economics of recycling 40. Economic Impacts on Metal Recycling 41. Geopolitics of resources & recycling 42. Recycling in waste management policy 43. extended producer responsibility 44. Economic instruments for recycling 45. Information instruments for recycling 46. Recycling, law and the circular economy Part V: Recycling Fundamentals 47. Physical Separation – the basics 48. Thermodynamics 49. Material Flow Analysis 50. Exergy 51. Simulation 52. Life Cycle Analysis (LCA)
