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Recycling and Resource Recovery from Polymers



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Autore: Devasahayam Sheila Visualizza persona
Titolo: Recycling and Resource Recovery from Polymers Visualizza cluster
Pubblicazione: Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica: 1 electronic resource (282 p.)
Soggetto topico: Research & information: general
Environmental economics
Pollution control
Soggetto non controllato: lignin
bituminous modifier
lignin modified bitumen
chemical analysis
rheological behavior
mechanical properties
road engineering
open graded friction course
viscoelastic properties
creep compliance
relaxation modulus
dynamic modulus
linear correlation
polymer-modified asphalt
Hamburg wheel-tracking
indirect tensile strength
co-pyrolysis
synergy
kinetics
plastic waste
animal manure
cement decarbonization
waste utilization
co-pyro-gasification
carbon conversions
non-soot catalysts
clean energy
polymer
rubber
recycling
cryoagent
liquid nitrogen
waste tire
thermal conductivity
post-consumer waste
mechanical recycling
polyethylene
polypropylene
contamination
composition
tensile properties
impact properties
compatibilisation
polymer based post-consumer waste
mechano-chemical treatment
ball milling
thiol-ene
carbon nanotubes
polysilicone
functionalization
flame retardancy
dispersion
epoxy resin
silicone
thermal degradation
activation energy
poly (l-lactic acid)
poly (3-hydroxybutyrate-co-3-hydroxyvalerate)
non-isothermal crystallisation kinetics
circular economy
circo-economics
material circularity indicator
packaging
recycled opaque PET
reactive extrusion
chain extension
long-chain branching
polyethylene-modified bitumen
wax-based additives
rutting
linear viscoelastic properties
combustion
automotive shredder residue
solid recovered fuel
alternative fuels
sustainable energy
waste-to-energy
Persona (resp. second.): SinghRaman
StrezovVladimir
DevasahayamSheila
Sommario/riassunto: Environmental challenges posed by wrong end of lifeplastic management drive the plastics recycling schemes for energy recovery and cutting emissions, penalties, energy consumption, non-renewable resources, and manufacturing costs. Plastic recycling has the lowest environmental impact on global warming potential and total energy use. However, under-utilised plastic wastes due to low value issues with sorting/contamination pose major challenges. Novel technologies drive innovation in a circular economy model for plastics and employ reuse, recycling and responsible manufacture solutions, support the development of new industries and jobs, reduce emissions and increase efficient use of natural resources (including energy, water and materials). Many economies are working towards achieving a zero plastic waste economy. This Special Issue covers the applications of recycled plastics in the areas of energy recovery/alternative fuels, economic analyses, bitumen additives, flame retardants, recycled polymer nanocomposites to enhance the mechanical property, thermomechanical recycling to improve physical properties, mechano-chemical treatment, cryogenic waste tyre recycling, application in decarbonizing technology, e.g., cement industry, waste characterization, improving agricultural soil quality, as smart fertilizers. The Editors express their appreciation to all the contributors across the world in the development of this reprint. This reprint gives different perspectives and technical ideas for the transformation of plastic wastes into value-added products and to achieve higher recycling rates in the coming years.
Titolo autorizzato: Recycling and Resource Recovery from Polymers  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910585945503321
Lo trovi qui: Univ. Federico II
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