Handbook of Plastics Recycling
iSmithers Rapra Publishing, 2002 - 442 pagine
Over the past 20 years recycling of plastics has increased dramatically. This is important not only from the environmental point of view (less landfill space is needed) but also from the economic point of view because recycling allows energy and materials to be reused. This book discusses some of the state-of-the-art techniques of recycling post-consumer plastic materials and focuses on mechanical recycling, chemical recycling and energy recovery. This book is intended for all those who are interested in recycling of post consumer plastic waste. Although, this book discusses technical aspects of recycling, the Authors have endeavoured to make this book easily understandable to anyone interested in the subject. This book enables the reader to gain a thorough grounding in all the subjects discussed and each chapter has a bibliography to allow follow up of subjects of interest. This book provides an invaluable resource for those already working in the field or for those just starting out in recycling.
Cosa dicono le persone - Scrivi una recensione
Nessuna recensione trovata nei soliti posti.
Fundamentals of Degradation and Stabilisation of Polymers
Methods of Pretreatment
Properties Reprocessing Behaviour of Recycled Plastics
VirginRecycled Homopolymer Blends
Upgrading of Recycled Plastics
Plastics Recycling Machinery
Applications for Recycled Plastics
Energy Recovery from Plastic Materials
Abbreviations and Acronyms
acid additives antioxidants applications Applied Polymer Science assignee behaviour bottles carbon catalyst chain scission chemical recycling co-combustion combustion combustor components composites compounds containing conveyor copolymers crystallinity decrease Degradation and Stability density depolymerisation dioxins elongation at break emissions energy recovery environmental extrusion F.P. La Mantia feedstock fibre Figure film filter fluidised bed fuel furnace glass HDPE heat homopolymer impact strength incineration increase industrial injection moulding LDPE manufacture mechanical properties melt metal mixed plastics mixture modulus molecular weight monomers monopolymer blends moulding cycles number of processing nylon oxidation oxygen packaging particles phenolic plant plastic lumber plastic waste Plastics Recycling PMMA polyamide polyesters polyethylene Polymer Degradation Polymer Recycling polymerisation polyolefins polyols Pospíšil post-consumer pyrolysis radicals reaction recycled material recycled PET recycled plastics reduce residue resin rubber samples scrap screw separation sieve stabilisers structure styrene Technology temperature tensile strength thermal thermoplastic virgin polymer viscosity