Chemical recycling of polyesters

Debowski, Maciej; Iuliano, Anna; Plichta, Andrzej; Kowalczyk, Sebastian; Florjańczyk, Zbigniew

doi:10.14314/polimery.2019.11.5

Cited by 15 publications

(10 citation statements)

References 124 publications

(217 reference statements)

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“…71 Strategies have been identified to improve the outcomes from these methods, such as solid phase polycondensation, in which a polymer sample is heated under vacuum or inert gas flow to increase molecular weight and improve mechanical properties of the recycled material. 73 Despite such techniques being applied industrially in some capacity, the typical number of mechanical processing cycles a plastic can undergo is still severely limited and varies by polymer type. 71 Both primary and secondary recycling methods result in an energy savings of 50% of the energy that would have been necessary to make the recycled product outputs from virgin materials.…”

Section: What Polymers Are Recycled or Upcycled And How?mentioning

confidence: 99%

Electrochemical methods for materials recycling

et al. 2021

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Section: What Polymers Are Recycled or Upcycled And How?mentioning

confidence: 99%

Electrochemical methods for materials recycling

et al. 2021

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“…Gehien erabiltzen diren ur-amina primarioen disoluzioak metilamina, etilamina, etanolamina eta n-butilamina anhidroa dira. Hala ere, aminolisi partziala baliatzen da PET propietateak hobetzeko (adibidez, zuntzen kolorazioa) prozesatzeko propietate zehaztuak dituzten zuntzen fabrikazioan [21,23].…”

Section: Amonolisia Eta Aminolisiaunclassified

“…Hidrolisia despolimerizazio-metodo alternatiboa da, baldintza moderatuetan lan egiten duena, eta hidrolisi neutroan, azidoan eta alkalinoan sailkatzen da. Glikolisiak ez bezala, oso kutsatuta dauden elikagaiak ahalbidetzen ditu, batez ere bere metodo alkalino eta azidoan, azidoen erabilerari esker kolorea kentzea lortzen baita [21]. Elikaduran, PETak beste plastiko mota batzuen ezpurutasunak aurkeztu ditzake, hala nola, PVC eta PU.…”

Section: Hidrolisiaunclassified

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Polietilen Tereftalatoaren (PET) birziklapen kimikoa hidrolisiaren bidez

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Epelde²,

Asueta³

et al. 2022

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Polietilen tereftalato birziklatuaren (rPET) eskaera handiak ingurumenaren sentsibilizazioak eta legediak bultzatuta, kontsumitu osteko PET plastiko-hondakinen sorkuntza handiarekin batera, birziklatze prozesu eraginkorren premiazko beharra eragin du. Birziklapen teknologia klasikoak, birziklapen mekanikoa adibidez, ez dira eraginkorrak birziklatzen zailak diren edo birziklatzen ez diren plastikoen kasuan, hau da, geruza anitzeko eta oso kutsatutako hondakinen kasuan. Teknologia hauek ziklo-kopuru mugatua dute, eta despolimerizazio kimikoak, berriz, jatorrizko PETtik hasierako ekoizpeneko lehengaiak ekoizten ditu. Testuinguru honetan, polietilen tereftalatoaren (PET) hidrolisia, PET hondakinen despolimerizaziorako estrategia jasangarria da, rPET birpolimerizatzeko abiapuntu gisa erabil daitekeena eta, beste despolimerizazio teknologiak ez bezala, oso kutsatuta dauden kontsumo osteko PET hondakinen elikadurak onartzen dituena. Lan honek PET solbolisiaren egungo egoera aztertzen du, eta bereziki PET hidrolisiarena, bai laborategi mailan bai industria eskalan, bere garapenaren alderdirik garrantzitsuenak zehaztuz.

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“…Generally, there are two methods for PET recycling: mechanical and chemical. In general, in the chemical method (16% of recycling), the reverse of the polymerization reaction, i.e., depolymerization, occurs and the primary monomers are obtained (Al-Sabagh et al 2016;Scremin et al 2019;Dębowski et al 2019). Chemical recycling is less used because it causes destructive changes in properties such as mechanical, thermal, and electrical conductivity (El Essawy et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Recent Studies on Recycled PET Fibers: Production and Applications: a Review

et al. 2021

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Increasing demand for non-biodegradable plastics undesirably leads to their accumulation and calls for an appropriate solution for this global crisis. Environmental impacts of PET waste have long been addressed; although some remedies have been proposed, their extensive use in the modern world use demands new studies and recycling techniques. It shows the inadequacy of previous solutions to eliminate this environmental problem. Therefore, researching this subject should not be considered an insignificant issue. Distinctively, this review article has a specific reliance on the use of recycled PET fibers in the production of high-consumption and value-added products that, in addition to considering environmental aspects, can also be attractive to the market. This article deals with recent studies in three product categories (concrete, nonwoven fabrics, yarns) made from recycled PET fibers and shows the high potential of PET fibers for the future industry.

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Chemical recycling of polyesters

Cited by 15 publications

References 124 publications

Electrochemical methods for materials recycling

Electrochemical methods for materials recycling

Polietilen Tereftalatoaren (PET) birziklapen kimikoa hidrolisiaren bidez

Recent Studies on Recycled PET Fibers: Production and Applications: a Review

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