Beyond Mechanical Recycling: Giving New Life to Plastic Waste

Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re‐extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment vi...

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Vydáno v:	Angewandte Chemie International Edition Ročník 59; číslo 36; s. 15402 - 15423
Hlavní autoři:	Vollmer, Ina, Jenks, Michael J. F., Roelands, Mark C. P., White, Robin J., Harmelen, Toon, Wild, Paul, Laan, Gerard P., Meirer, Florian, Keurentjes, Jos T. F., Weckhuysen, Bert M.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Germany Wiley Subscription Services, Inc 01.09.2020 John Wiley and Sons Inc
Vydání:	International ed. in English
Témata:	catalysis Chemical recycling Circular economy circularity Economics Extrusion Garbage collection Life cycle analysis Plastic debris plastic waste Plastics recycling Recycled materials Recycling Review Reviews solvolysis Waste management Waste streams circularity catalysis chemical recycling solvolysis plastic waste
ISSN:	1433-7851, 1521-3773, 1521-3773
On-line přístup:	Získat plný text
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Abstract	Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re‐extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment via life‐cycle analysis is complemented by an extensive list of processes developed by companies active in chemical recycling. We show that each of the currently available processes is applicable for specific plastic waste streams. Thus, only a combination of different technologies can address the plastic waste problem. Research should focus on more realistic, more contaminated and mixed waste streams, while collection and sorting infrastructure will need to be improved, that is, by stricter regulation. This Review aims to inspire both science and innovation for the production of higher value and quality products from plastic recycling suitable for reuse or valorization to create the necessary economic and environmental push for a circular economy. Plastic fantastic: Plastic can rise again and again as a new product. Researchers now know methods with which new plastics can be produced from 100 % recycled material, products that can even be used for food applications. This development is possible thanks to chemical recycling, through which polymer chains are first broken to then be reformed into new molecules, such as plastics but also other chemicals.
AbstractList	Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re-extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment via life-cycle analysis is complemented by an extensive list of processes developed by companies active in chemical recycling. We show that each of the currently available processes is applicable for specific plastic waste streams. Thus, only a combination of different technologies can address the plastic waste problem. Research should focus on more realistic, more contaminated and mixed waste streams, while collection and sorting infrastructure will need to be improved, that is, by stricter regulation. This Review aims to inspire both science and innovation for the production of higher value and quality products from plastic recycling suitable for reuse or valorization to create the necessary economic and environmental push for a circular economy. Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re‐extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment via life‐cycle analysis is complemented by an extensive list of processes developed by companies active in chemical recycling. We show that each of the currently available processes is applicable for specific plastic waste streams. Thus, only a combination of different technologies can address the plastic waste problem. Research should focus on more realistic, more contaminated and mixed waste streams, while collection and sorting infrastructure will need to be improved, that is, by stricter regulation. This Review aims to inspire both science and innovation for the production of higher value and quality products from plastic recycling suitable for reuse or valorization to create the necessary economic and environmental push for a circular economy. Plastic fantastic: Plastic can rise again and again as a new product. Researchers now know methods with which new plastics can be produced from 100 % recycled material, products that can even be used for food applications. This development is possible thanks to chemical recycling, through which polymer chains are first broken to then be reformed into new molecules, such as plastics but also other chemicals. Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re-extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment via life-cycle analysis is complemented by an extensive list of processes developed by companies active in chemical recycling. We show that each of the currently available processes is applicable for specific plastic waste streams. Thus, only a combination of different technologies can address the plastic waste problem. Research should focus on more realistic, more contaminated and mixed waste streams, while collection and sorting infrastructure will need to be improved, that is, by stricter regulation. This Review aims to inspire both science and innovation for the production of higher value and quality products from plastic recycling suitable for reuse or valorization to create the necessary economic and environmental push for a circular economy.Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re-extrusion. Various chemical recycling processes have great potential to enhance recycling rates. In this Review, a summary of the various chemical recycling routes and assessment via life-cycle analysis is complemented by an extensive list of processes developed by companies active in chemical recycling. We show that each of the currently available processes is applicable for specific plastic waste streams. Thus, only a combination of different technologies can address the plastic waste problem. Research should focus on more realistic, more contaminated and mixed waste streams, while collection and sorting infrastructure will need to be improved, that is, by stricter regulation. This Review aims to inspire both science and innovation for the production of higher value and quality products from plastic recycling suitable for reuse or valorization to create the necessary economic and environmental push for a circular economy.
Author	Keurentjes, Jos T. F. Wild, Paul Jenks, Michael J. F. Weckhuysen, Bert M. Meirer, Florian Roelands, Mark C. P. Vollmer, Ina Harmelen, Toon White, Robin J. Laan, Gerard P.
AuthorAffiliation	2 The Netherlands Organisation for Applied Scientific Research (TNO) Delft The Netherlands 5 Energieonderzoek Centrum Nederland (ECN)- part of TNO, Biomass & Energy Efficiency Petten The Netherlands 1 Inorganic Chemistry and Catalysis Debye Institute for Nanomaterials Science, Utrecht University Universiteitsweg 99 3584 CG Utrecht The Netherlands 4 The Netherlands Organisation for Applied Scientific Research (TNO) Climate, Air & Sustainability Department Utrecht The Netherlands 6 University of Twente Department of Energy Innovation Enschede The Netherlands 3 The Netherlands Organisation for Applied Scientific Research (TNO) Materials Solutions Department Eindhoven The Netherlands
AuthorAffiliation_xml	– name: 2 The Netherlands Organisation for Applied Scientific Research (TNO) Delft The Netherlands – name: 4 The Netherlands Organisation for Applied Scientific Research (TNO) Climate, Air & Sustainability Department Utrecht The Netherlands – name: 5 Energieonderzoek Centrum Nederland (ECN)- part of TNO, Biomass & Energy Efficiency Petten The Netherlands – name: 3 The Netherlands Organisation for Applied Scientific Research (TNO) Materials Solutions Department Eindhoven The Netherlands – name: 1 Inorganic Chemistry and Catalysis Debye Institute for Nanomaterials Science, Utrecht University Universiteitsweg 99 3584 CG Utrecht The Netherlands – name: 6 University of Twente Department of Energy Innovation Enschede The Netherlands
Author_xml	– sequence: 1 givenname: Ina surname: Vollmer fullname: Vollmer, Ina organization: Debye Institute for Nanomaterials Science, Utrecht University – sequence: 2 givenname: Michael J. F. surname: Jenks fullname: Jenks, Michael J. F. organization: Debye Institute for Nanomaterials Science, Utrecht University – sequence: 3 givenname: Mark C. P. surname: Roelands fullname: Roelands, Mark C. P. organization: The Netherlands Organisation for Applied Scientific Research (TNO) – sequence: 4 givenname: Robin J. surname: White fullname: White, Robin J. organization: The Netherlands Organisation for Applied Scientific Research (TNO) – sequence: 5 givenname: Toon surname: Harmelen fullname: Harmelen, Toon organization: The Netherlands Organisation for Applied Scientific Research (TNO) – sequence: 6 givenname: Paul surname: Wild fullname: Wild, Paul organization: Energieonderzoek Centrum Nederland (ECN)- part of TNO, Biomass & Energy Efficiency – sequence: 7 givenname: Gerard P. surname: Laan fullname: Laan, Gerard P. organization: The Netherlands Organisation for Applied Scientific Research (TNO) – sequence: 8 givenname: Florian surname: Meirer fullname: Meirer, Florian organization: Debye Institute for Nanomaterials Science, Utrecht University – sequence: 9 givenname: Jos T. F. surname: Keurentjes fullname: Keurentjes, Jos T. F. organization: University of Twente – sequence: 10 givenname: Bert M. orcidid: 0000-0001-5245-1426 surname: Weckhuysen fullname: Weckhuysen, Bert M. email: b.m.weckhuysen@uu.nl organization: Debye Institute for Nanomaterials Science, Utrecht University
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/32160372$$D View this record in MEDLINE/PubMed
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Snippet	Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re‐extrusion. Various chemical recycling... Increasing the stream of recycled plastic necessitates an approach beyond the traditional recycling via melting and re-extrusion. Various chemical recycling...
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SubjectTerms	catalysis Chemical recycling Circular economy circularity Economics Extrusion Garbage collection Life cycle analysis Plastic debris plastic waste Plastics recycling Recycled materials Recycling Review Reviews solvolysis Waste management Waste streams
Title	Beyond Mechanical Recycling: Giving New Life to Plastic Waste
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