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Manfred Hackl, CEO der EREMA Group Copyright: Erema Group
Manfred Hackl, CEO der EREMA Group
03.08.2023

Lindner & Erema gründen gemeinsame Holding

Erema Group und die Lindner Holding gründen gemeinsam die Holding BLUEONE Solutions, um die Expertise aus beiden Unternehmen zu bündeln und durch gemeinsame Forschungsprojekte Branchenstandards im Kunststoffrecycling zu schaffen.

Vom Abfall bis hin zum recycelten Granulat durchlaufen potentielle neue Rohstoffe mehrere unterschiedliche Recyclingprozesse. Diese reichen vom Sortieren, dem Zerkleinern, Waschen und Trocknen bis hin zur Extrusion inkl. Filtrierung, Compoundierung sowie Geruchsoptimierung.

In der optimalen Feinabstimmung der einzelnen Recyclingschritte liegt die Herausforderung der Branche – insbesondere, wenn Energieeffizienz und hohe Rezyklatqualitäten erreicht werden sollen. Mit der Gründung von BLUEONE Solutions, einem Unternehmen an dem die Erema Group und die Lindner Holding jeweils 50 % halten und in die Anteile der Lindner Washtech eingebracht wurden, soll da angesetzt werden. Durch Abstimmungs- und Optimierungsprozesse sowie durch neue gemeinsame Forschungsprojekte, wird die Wertschöpfungstiefe deutlich erhöht und neue Branchenstandards gesetzt.

Erema Group und die Lindner Holding gründen gemeinsam die Holding BLUEONE Solutions, um die Expertise aus beiden Unternehmen zu bündeln und durch gemeinsame Forschungsprojekte Branchenstandards im Kunststoffrecycling zu schaffen.

Vom Abfall bis hin zum recycelten Granulat durchlaufen potentielle neue Rohstoffe mehrere unterschiedliche Recyclingprozesse. Diese reichen vom Sortieren, dem Zerkleinern, Waschen und Trocknen bis hin zur Extrusion inkl. Filtrierung, Compoundierung sowie Geruchsoptimierung.

In der optimalen Feinabstimmung der einzelnen Recyclingschritte liegt die Herausforderung der Branche – insbesondere, wenn Energieeffizienz und hohe Rezyklatqualitäten erreicht werden sollen. Mit der Gründung von BLUEONE Solutions, einem Unternehmen an dem die Erema Group und die Lindner Holding jeweils 50 % halten und in die Anteile der Lindner Washtech eingebracht wurden, soll da angesetzt werden. Durch Abstimmungs- und Optimierungsprozesse sowie durch neue gemeinsame Forschungsprojekte, wird die Wertschöpfungstiefe deutlich erhöht und neue Branchenstandards gesetzt.

Die Erema Group ist seit 40 Jahren im Kunststoffrecycling tätig und gilt als der Marktführer im Bereich der Extrusion. Lindner, seit 75 Jahren Qualitätshersteller von Schreddern und Recyclinganlagen für die Abfallwirtschaft, ist mit der Marke Lindner Washtech seit 10 Jahren als Waschanlagen-Spezialist weltweit präsent. Gemeinsame Forschungsprojekte, wie beispielsweise die Versuchsanlagen in der LIT Factory an der Johannes-Kepler-Universität (JKU) Linz, haben die Firmen bereits vor Jahren in einen intensiven fachlichen Austausch treten lassen.

Optimierung der Recyclingprozesse
Mit der Gründung von BLUEONE Solutions liegt der Fokus auf der Weiterentwicklung des Kunststoffrecyclings. Lindner bringt die Erfahrung im Aufbereiten von Abfallströmen und die Expertise im Waschen und Erema das Know-how im Bereich Extrudieren und Filtrieren mit ein. Synergien sollen genutzt und die Optimierungen des Gesamtkreislaufes ermöglicht werden.
„Essenziell für eine funktionierende Recyclingwirtschaft wird sein, dass die gesamte Prozess- bzw. Wertschöpfungskette – von der Abfallsammlung und Aufbereitung über das Recycling bis hin zum Kunststoff-Endprodukt – im Fokus der agierenden Unternehmen steht. Durch diesen Firmenzusammenschluss schaffen Erema und Lindner ein besseres Gesamtverständnis, um dadurch speziell im Polyolefinebereich die erforderliche Weiterentwicklung gemeinsam zu prägen“, erklärt Manfred Hackl, CEO der EREMA Group. „Im Detail betrachtet, können der Recyclingextruder, die vorgeschaltete Waschanlage sowie Materialhandling optimal aufeinander abgestimmt werden, so dass Qualitätsstandards bestmöglich erfüllt und Energiekosten optimiert werden können – dank prozessübergreifender Steuerung & Monitoring, gestützt durch digitale Lösungen. In Zukunft werden wir perfekt abgestimmte All-in-one-Lösungen anbieten, die es unseren Kunden ermöglichen, ein Gesamtpaket zu kaufen, das exakt auf ihre Anwendungen abgestimmt ist.“

More information:
EREMA EREMA Group Lindner Recycling
Source:

EREMA Group GmbH

(c) Mittelstand-Digital Zentrum Smarte Kreisläufe
02.08.2023

Mittelstand-Digital Zentrum: Innovative Lösungen für textile Unternehmen

Am 17. und 18. Juli 2023 informierten sich Teilnehmerinnen und Teilnehmer der Veranstaltung „Textil Innovativ – Technologien für Mobilität und Schutz“ über Trends, Herausforderungen und Lösungen für moderne Mobilität sowie Persönliche Schutzausrüstung (PSA) in Verbindung mit Digitalisierung und Recycling. Zudem wurde zur „Datenbasierten Wertschöpfung in der Textilindustrie“ diskutiert.

Mobilität in der Zukunft ist digital, komfortabel und natürlich nachhaltig. Der Schalter für die Sitzheizung ist in die textile Oberfläche der Mittelkonsole integriert. Das Gewebe der Sitzfläche heizt oder kühlt – je nach Bedarf. Der Dachhimmel leuchtet. Die Karosserie ist leicht und stabil, um Sprit zu sparen und trotzdem bei Unfällen zu schützen. Referenten und Aussteller zeigten, wie sie den besonderen Anforderungen an Maschinen, Produktionsprozesse sowie die neuen Materialien selbst gerecht werden.

Am 17. und 18. Juli 2023 informierten sich Teilnehmerinnen und Teilnehmer der Veranstaltung „Textil Innovativ – Technologien für Mobilität und Schutz“ über Trends, Herausforderungen und Lösungen für moderne Mobilität sowie Persönliche Schutzausrüstung (PSA) in Verbindung mit Digitalisierung und Recycling. Zudem wurde zur „Datenbasierten Wertschöpfung in der Textilindustrie“ diskutiert.

Mobilität in der Zukunft ist digital, komfortabel und natürlich nachhaltig. Der Schalter für die Sitzheizung ist in die textile Oberfläche der Mittelkonsole integriert. Das Gewebe der Sitzfläche heizt oder kühlt – je nach Bedarf. Der Dachhimmel leuchtet. Die Karosserie ist leicht und stabil, um Sprit zu sparen und trotzdem bei Unfällen zu schützen. Referenten und Aussteller zeigten, wie sie den besonderen Anforderungen an Maschinen, Produktionsprozesse sowie die neuen Materialien selbst gerecht werden.

Auch das Thema Persönliche Schutzausrüstung (PSA) birgt für Unternehmen Herausforderungen. Viele Funktionen, wie beispielsweise Hitzeschutz, erfordern eine spezielle chemische Ausrüstung der Textilien. Diese unterliegt jedoch häufig umweltschutzrechtlichen Einschränkungen und Verboten. Worauf Unternehmen bei der Produktion von PSA achten müssen, wurde ebenfalls erörtert.

Welche Potenziale die Digitalisierung für genau diese Anforderungen bietet, wurde in der Veranstaltung ebenfalls deutlich. Der Digitale Produktpass kommt. Er ist Teil eines EU-weiten Maßnahmenpakets zur Förderung von Ökodesign und Ressourceneffizienz und soll den Verbraucher informieren, wo das Produkt herkommt, woraus es besteht oder wie man es reparieren kann. Die Umsetzung betrifft alle Branchen und Dienstleistungen, mit weitreichenden Auswirkungen auf die unternehmerischen Geschäftsprozesse. Das setzt eine gewaltige Datenmenge voraus. Wie datenbasierte Wertschöpfung in der Textilindustrie funktioniert, war Thema in der abschließenden Diskussionsrunde.  

An welchen Stellen das Mittelstand-Digital Zentrum Smarte Kreisläufe kleine und mittlere Unternehmen unterstützen kann, erläuterte die Geschäftsführerin Anja Merker in einem Pitch-Beitrag sowie an einem Informationsstand vor Ort. Das Angebot des Zentrums umfasst nicht nur reine Wissensvermittlung zum Unternehmen der Zukunft in Verbindung mit Digitalisierung und Künstliche Intelligenz. Die Partner geben Orientierung und bilden Ihre Mitarbeiter weiter, entwickeln gemeinsam Ideen in Workshops und erarbeiten mit Ihnen Konzepte, die Sie im Unternehmen umsetzen können.

Source:

Gesamtverband der deutschen Textil- und Modeindustrie e. V. / Mittelstand-Digital Zentrum Smarte Kreisläufe

28.07.2023

RadiciGroup: Bibs made from recyclable materials for UCI Cycling World Championships

On the occasion of the 2023 UCI Cycling World Championships, the Union Cycliste Internationale chose Santini to make the bibs from recyclable materials. The UCI's partner brought together a pool of companies, all in the Bergamo area (Italy): RadiciGroup, Sitip, EFI Reggiani and Acerbis.

In 2022, the Union Cycliste Internationale released the UCI Climate Action Charter, which lays out an action plan to advance the environmental sustainability of the sport with a specific principle to reduce waste and accelerate the transition to a circular economy. This year, the UCI Cycling World Championships, which will be held from 3 to 13 August, are bringing together most of the cycling disciplines in a single location: Glasgow and across Scotland.

On the occasion of the 2023 UCI Cycling World Championships, the Union Cycliste Internationale chose Santini to make the bibs from recyclable materials. The UCI's partner brought together a pool of companies, all in the Bergamo area (Italy): RadiciGroup, Sitip, EFI Reggiani and Acerbis.

In 2022, the Union Cycliste Internationale released the UCI Climate Action Charter, which lays out an action plan to advance the environmental sustainability of the sport with a specific principle to reduce waste and accelerate the transition to a circular economy. This year, the UCI Cycling World Championships, which will be held from 3 to 13 August, are bringing together most of the cycling disciplines in a single location: Glasgow and across Scotland.

To mark the occasion, the UCI turned to its Official Partner, Santini, to make the bibs that the staff (judges, volunteers, commissaires etc.) and accredited photographers wear throughout the event. The bibs are "eco-designed", which means they are specifically created to have a second life after use. Once the event is over, the bibs could be collected and sent to RadiciGroup and transformed into new material, to be then processed by Acerbis to create X-Elite handguards for mountain bikes. This project is a concrete example of the circular economy at work, allowing 100% of the materials used to be recovered.

To optimise the production cycle of the bibs for the 2023 UCI Cycling World Championships, the products must be eco-friendly from the very first phase. The fabrics were therefore made from Italian nylon yarn produced by RadiciGroup. The choice of nylon – an infinitely recyclable thermoplastic material – is intertwined with UCI's sustainability goals for "limited-use" garments: RadiciGroup was able to channel its know-how and expertise in the field of chemistry to create "circular" bibs, working alongside the other partners. As the innovative yarn selected by RadiciGroup allows for easy and high-quality printing, the fabric is also customisable. The yarn is then provided to Sitip to create the "ARAS NG" warp-knitted fabric (95 g/100 m2): a recyclable single-fibre material made from 100% polyamide. The resulting fabric is the first nylon of its kind, designed to meet the transfer printing needs of the third project partner, EFI Reggiani, as well as the recyclability standards requested by RadiciGroup. The choice of fabric was born from extensive applied research, in which EFI Reggiani tested a wide range of fabrics to find the best colour results and the best resistance to rubbing and perspiration, which is vital for the bibs' intended use. In addition to using the new GOTS-certified EFI Reggiani IRIS Plus water-based inks, EFI Reggiani opted for a printing solution on transfer paper that does not consume water and requires a minimal amount of energy per square metre. Finally, the white fabric from Sitip and the transfer paper printed by EFI Reggiani arrived at Santini, who were responsible for transferring all the graphics for the 2023 UCI Cycling World Championships bibs from the paper onto the fabric. Santini also took care to assemble the garments using only thread and components made from nylon or chemically similar materials, allowing the bibs to enter the recycling process at the end of their lives without any further processing.                   

Source:

RadiciGroup

26.07.2023

Design for Recycling: Mindeststandards berücksichtigen Anliegen der Recycler

Der Entwurf „Mindeststandards für die Bemessung der Recyclingfähigkeit von systembeteiligungspflichtigen Verpackungen“ findet die Zustimmung des bvse-Bundesverband Sekundärrohstoffe und Entsorgung.

Design4Recycling 500x500pxIn einem Schreiben an die Zentrale Stelle Verpackungsregister machen bvse-Geschäftsführer Thomas Braun und bvse-Referent Dr. habil. Thomas Probst deutlich, dass der nunmehr zum fünften Male weiter entwickelte Mindeststandard aus Sicht des bvse sorgfältig erstellt wurde und die Anliegen der Recycler berücksichtigt.

Der bvse hebt hervor, dass die Mindeststandards inzwischen so ausgestaltet sind, dass die praktische Recycelbarkeit der Verpackungen immer mehr Berücksichtigung findet. So werden Verpackungen nicht nur daran gemessen, dass die verwendeten Materialien grundsätzlich für das Recycling geeignet sind, sondern es findet auch Berücksichtigung, ob die Verpackung nach bestimmungsgemäßer Entleerung noch einen Füllgutrest enthält, der die Recyclingfähigkeit beeinträchtigt. Außerdem muss beispielsweise die Trennbarkeit der Verpackungskomponenten sichergestellt sein, sofern das für ein hochwertiges werkstoffliches Recycling erforderlich ist.

Der Entwurf „Mindeststandards für die Bemessung der Recyclingfähigkeit von systembeteiligungspflichtigen Verpackungen“ findet die Zustimmung des bvse-Bundesverband Sekundärrohstoffe und Entsorgung.

Design4Recycling 500x500pxIn einem Schreiben an die Zentrale Stelle Verpackungsregister machen bvse-Geschäftsführer Thomas Braun und bvse-Referent Dr. habil. Thomas Probst deutlich, dass der nunmehr zum fünften Male weiter entwickelte Mindeststandard aus Sicht des bvse sorgfältig erstellt wurde und die Anliegen der Recycler berücksichtigt.

Der bvse hebt hervor, dass die Mindeststandards inzwischen so ausgestaltet sind, dass die praktische Recycelbarkeit der Verpackungen immer mehr Berücksichtigung findet. So werden Verpackungen nicht nur daran gemessen, dass die verwendeten Materialien grundsätzlich für das Recycling geeignet sind, sondern es findet auch Berücksichtigung, ob die Verpackung nach bestimmungsgemäßer Entleerung noch einen Füllgutrest enthält, der die Recyclingfähigkeit beeinträchtigt. Außerdem muss beispielsweise die Trennbarkeit der Verpackungskomponenten sichergestellt sein, sofern das für ein hochwertiges werkstoffliches Recycling erforderlich ist.

"Wir begrüßen die im vorliegenden Entwurf enthaltenen Änderungen und Ergänzungen bei den systembeteiligungspflichtigen Verpackungen, dies umfasst insbesondere die Fraktionen PPK, Kunststoffe und Glas. Durch diese Vorgaben wird deren Recyclingfähigkeit voran gebracht. Änderungen oder Ergänzungen am Mindeststandard sind in der vorliegenden Entwurfsfassung daher nicht notwendig", betonen Thomas Braun und Thomas Probst.

In der Stellungnahme weist der bvse jedoch darauf hin, dass eine stringente Umsetzung der im Mindeststandard definierten Kriterien durch die Systeme zwingend erforderlich ist, um die anspruchsvollen Quotenvorgaben aus dem VerpackG, die zum 1. Januar 2022 nochmals deutlich erhöht wurden, zu erfüllen.

Abschließend mahnen die bvse-Vertreter jedoch an, dass ein Weg gefunden und umgesetzt werden müsse, wie recyclinggerechte Verpackungen bei der Lizensierung gefördert werden können. Denn das würde die Lenkungswirkung beim Design for Recycling noch weiter verbessern.

Source:

bvse-Bundesverband Sekundärrohstoffe und Entsorgung

26.07.2023

Fashion for Good partners join forces with fastfeetgrinded for circular footwear

Fashion for Good launches new pilot with brand partners adidas, Inditex, Target and Zalando, and footwear recycling innovator FastFeetGrinded to test and validate the innovative footwear recycling process to support the uptake of recycled content in footwear, driving the change towards a more circular footwear industry.

Globally, 24 billion shoes are added to the market each year*, and a staggering 90% of shoes are either landfilled or incinerated*. To tackle this challenge, Fashion for Good has launched a new pilot with partners adidas, Inditex, Target and Zalando, in collaboration with innovator FastFeetGrinded, aiming to test and validate the footwear recycling process and support the uptake of recycled materials in footwear. FastFeetGrinded possesses the unique capability to deconstruct any type of pre- and post-consumer shoe, breaking it down into its macro-components. These macro-components are then subsequently grinded down into smaller high purity granulates which FastFeetGrinded may use to create material streams for repurposed use.

Fashion for Good launches new pilot with brand partners adidas, Inditex, Target and Zalando, and footwear recycling innovator FastFeetGrinded to test and validate the innovative footwear recycling process to support the uptake of recycled content in footwear, driving the change towards a more circular footwear industry.

Globally, 24 billion shoes are added to the market each year*, and a staggering 90% of shoes are either landfilled or incinerated*. To tackle this challenge, Fashion for Good has launched a new pilot with partners adidas, Inditex, Target and Zalando, in collaboration with innovator FastFeetGrinded, aiming to test and validate the footwear recycling process and support the uptake of recycled materials in footwear. FastFeetGrinded possesses the unique capability to deconstruct any type of pre- and post-consumer shoe, breaking it down into its macro-components. These macro-components are then subsequently grinded down into smaller high purity granulates which FastFeetGrinded may use to create material streams for repurposed use.

Through this collaborative pilot, the partners will divert pre- and post-consumer footwear to FastFeetGrinded, who will transform them into various new material granulates. The next step involves FastFeetGrinded’s network of supply chain partners, who will produce output products, such as outsoles, midsoles, and flip flops. The brands will closely evaluate the products’ quality and purity, aiming to showcase the potential of FastFeetGrinded's footwear recycling technology and pave the way for scalable solutions.

*World Footwear Yearbook (2020). Footwear production with a new record of 24.3 billion pairs.
*Vivobarefoot. 22 billion pairs of shoes are dumped into landfill each year. It’s time for change.
*WRAP (2019) Valuing our Clothes.
*Material Innovation Initiative (2021). 2021 State of the Industry Report: Next-Gen Materials.

Source:

Fashion for Good

(c) gr3n
26.07.2023

gr3n: First manufacturing plant for depolymerization of PET in Spain

To reach its goal of being the world’s leading supplier of enhanced recycled polyethylene terephthalate (PET), gr3n is signing a binding Memorandum of Understanding (MOU) with its shareholder Intecsa Industrial to set up a Joint Venture.

gr3n together with Intecsa Industrial will join forces and build a “First-of-a-Kind” manufacturing facility able to produce 40.000 tons of virgin-like PET, commencing EPC phase in Q4-2024 and aiming to be operational in 2027. gr3n’s chemical recycling technology is capable of processing PET from various industries including textile waste, closing the loop for hard-to-recycle PET applications.

To reach its goal of being the world’s leading supplier of enhanced recycled polyethylene terephthalate (PET), gr3n is signing a binding Memorandum of Understanding (MOU) with its shareholder Intecsa Industrial to set up a Joint Venture.

gr3n together with Intecsa Industrial will join forces and build a “First-of-a-Kind” manufacturing facility able to produce 40.000 tons of virgin-like PET, commencing EPC phase in Q4-2024 and aiming to be operational in 2027. gr3n’s chemical recycling technology is capable of processing PET from various industries including textile waste, closing the loop for hard-to-recycle PET applications.

The world’s first industrial-scale MADE PET recycling plant will have the capability to process post-industrial and post-consumer PET waste including hard-to-recycle waste, to produce approximately 40.000 tons of virgin PET chips from the recycled monomers saving nearly 2 million tons of CO2 during its operating life. The post-consumer and/or post-industrial polyesters will be both from bottles (colored, colorless, transparent, opaque) and textiles (100% polyester but also mixtures of other materials like PU, cotton, polyether, polyurea, etc. with up to 30% of presence in the raw textile).

The technical concept of the MADE plant is to break down PET into its main components (monomers) so they can potentially be re-polymerized endlessly to provide brand new virgin PET or any other polymer using one of the monomers. Polymers obtained can be used to produce new bottles/trays and/or new garments, essentially completely displacing feedstock material from fossil fuels, as the recycled product has the same functionality as that derived traditionally. This means that gr3n can potentially achieve bottle-to-textile, textile-to-textile, or even textile-to-bottle recycling, moving from a linear to a circular system.

gr3n’s process has the potential to change the way PET is recycled worldwide, enabling huge benefits for both the recycling industry and the entire polyester value chain. Many efforts have been made in the past to transfer enhanced recycling from research laboratories to the manufacturing industry, but the economics and skepticism of the first adopters have constantly blocked the progress of the proposed solutions. Thanks to the MADE technology developed by gr3n, this approach is now feasible and makes gr3n one of the few companies with the potential to provide a reliable enhanced recycling solution that closes the life cycle of PET, and also offers food grade polymer material, processes a large variety of waste and reduces the carbon footprint of these materials usually destined for incineration or landfill.

More information:
gr3n PET Intecsa
Source:

gr3n

24.07.2023

Indorama Ventures and SMBC: Thailand’s first sustainability-linked Trade Finance facility

Indorama Ventures Public Company Limited and Sumitomo Mitsui Banking Corporation (SMBC) signed Thailand’s first sustainability-linked Trade Finance facility of US$50 million to support Indorama Ventures’ contributions to its ambitious sustainability commitment. This new facility reflects Indorama Ventures’ leadership in leveraging sustainable financing in Thailand.

The new facility is short-term working capital finance linked to the company’s sustainability performance targets, including reducing greenhouse gas (GHG) emissions intensity by 10% by 2025 (from a 2020 base), increasing post-consumer PET bale input for recycling to 750,000 tons by 2025, and boosting renewable electricity consumption to 25% by 2030.

Indorama Ventures Public Company Limited and Sumitomo Mitsui Banking Corporation (SMBC) signed Thailand’s first sustainability-linked Trade Finance facility of US$50 million to support Indorama Ventures’ contributions to its ambitious sustainability commitment. This new facility reflects Indorama Ventures’ leadership in leveraging sustainable financing in Thailand.

The new facility is short-term working capital finance linked to the company’s sustainability performance targets, including reducing greenhouse gas (GHG) emissions intensity by 10% by 2025 (from a 2020 base), increasing post-consumer PET bale input for recycling to 750,000 tons by 2025, and boosting renewable electricity consumption to 25% by 2030.

Indorama Ventures has secured a total US$2.4 billion in long-term sustainable financing from various national and international financial institutions between 2018–2022. The funds are supporting the company’s expansion and sustainability projects in line with its strategy under Vision 2030 as a purposeful company with ESG at its core.

Source:

Indorama Ventures Public Company Limited 

TEXAID x PUMA partnership for Swiss RE:FIBRE take back program Photo: TEXAID / Puma
19.07.2023

TEXAID x PUMA partnership for Swiss RE:FIBRE take back program

As a leading company in the collecting, sorting, reselling, and recycling of post-consumer textile waste, TEXAID has enabled the recycling of post-consumer textile waste into new textiles and clothing. Working together with brands and retailers, TEXAID and their partners are continuing to take action to shift from a linear to a circular system.

Today’s linear system of «take – make – waste» needs to change. New textiles are produced used and discarded instead of putting them to a second use. The production of new textiles requires natural resources that are limited, and the current system has a significant negative impact on our planet. The transition to a circular system, where garments are kept in use for longer, is an opportunity to harness untapped potential around customer loyalty, economic growth, and ecological sustainability. To move away from the linear system and enable products to be made out of post-consumer textile waste, TEXAID continues to expand its offering for in-store collection programs throughout Europe and the USA

As a leading company in the collecting, sorting, reselling, and recycling of post-consumer textile waste, TEXAID has enabled the recycling of post-consumer textile waste into new textiles and clothing. Working together with brands and retailers, TEXAID and their partners are continuing to take action to shift from a linear to a circular system.

Today’s linear system of «take – make – waste» needs to change. New textiles are produced used and discarded instead of putting them to a second use. The production of new textiles requires natural resources that are limited, and the current system has a significant negative impact on our planet. The transition to a circular system, where garments are kept in use for longer, is an opportunity to harness untapped potential around customer loyalty, economic growth, and ecological sustainability. To move away from the linear system and enable products to be made out of post-consumer textile waste, TEXAID continues to expand its offering for in-store collection programs throughout Europe and the USA

Aligned with the launch of the PUMA Switzerland 23/24 Women’s World Cup home jersey, PUMA and TEXAID have partnered for the Swiss division of their RE:FIBRE Program. PUMA is working to have a more sustainable, long-term solution for recycling polyester jerseys. To achieve this goal, they have developed their RE:FIBRE Program, which transforms textile waste, along with other used materials, into new textiles.

To enable this textile to textile program in Switzerland, specific feedstocks are requires, which is TEXAID’s role as the operator of the collection and sorting. Newly launched in the PUMA Zurich location at Jelmoli, customers can bring garments of all brands and deposit them in-store. TEXAID collects and sorts all deposited items, sending eligible polyester garments into the PUMA RE:FIBRE program, to be recycled into new garments. All other garments are channeled by TEXAID to their next life cycle.

Source:

TEXAID Textilverwertungs-AG

Freudenberg: Sustainable microfiber solution for artificial leather applications (c) Freudenberg Performance Materials Holding GmbH
Evolon® sustainable microfiber coating substrate for artificial leather
19.07.2023

Freudenberg: Sustainable microfiber solution for artificial leather applications

Freudenberg Performance Materials (Freudenberg) will be presenting new applications for its European environmentally-friendly Evolon® microfiber technology for Fall/Winter 24/25 fashion and leather goods collections at Lineapelle, from September 19-21. These include solutions for artificial leather applications suitable for the shoe, furniture and automotive industries.

Freudenberg Performance Materials (Freudenberg) will be presenting new applications for its European environmentally-friendly Evolon® microfiber technology for Fall/Winter 24/25 fashion and leather goods collections at Lineapelle, from September 19-21. These include solutions for artificial leather applications suitable for the shoe, furniture and automotive industries.

Evolon® sustainable microfiber coating substrates
Evolon® microfiber fabrics are ideal coating substrates for artificial leather applications in the shoe, furniture and car industries. They are particularly suitable as a carrier material for PU and PVC coatings. Evolon® microfiber materials have non-fraying edges, which makes converting easier and quicker. They contain 80% recycled PET from Freudenberg’s in-house bottle recycling plant. Furthermore, they are manufactured with no solvent and no chemical binder in the company’s Evolon® plant located in Colmar, France. The plant is accredited according to OEKO-TEX STeP sustainability manufacturing certification and the DETOX TO ZERO criteria. European manufacturing offers logistic benefits to European customers through shorter supply chain and transport routes.

Reinforcement material for leather goods
Manufacturers of leather goods also benefit from Evolon® microfiber when they use it as a reinforcement material for original leather. It is drapable and soft and provides optimal shaping support for leather. In addition, Evolon® materials offer important sustainability advantages for the manufacturing of luxury leather bags, such as being 100% made in Europe, eco-friendly and socially-responsible production, and the use of recycled raw materials.

Source:

Freudenberg Performance Materials Holding GmbH

RadiciGroup at Phygital Sustainability Expo photo: Phygital Sustainability Expo/RadiciGroup
07.07.2023

RadiciGroup at Phygital Sustainability Expo presenting Biofeel® eleven

RadiciGroup took part in the Phygital Sustainability Expo, this year in its fourth edition, which was held in Rome on 5 and 6 July. This event is entirely dedicated to the ecological transition of fashion and design brands through technological innovation. The show is an important platform for discussion on sustainable transition issues, involving Italian and international brands, fashion tech start-ups, representatives from the institutional, business and educational fields, and consumers.

RadiciGroup took part in the Phygital Sustainability Expo, this year in its fourth edition, which was held in Rome on 5 and 6 July. This event is entirely dedicated to the ecological transition of fashion and design brands through technological innovation. The show is an important platform for discussion on sustainable transition issues, involving Italian and international brands, fashion tech start-ups, representatives from the institutional, business and educational fields, and consumers.

RadiciGroup's participation in the event was further evidence of the Group's commitment to making a contribution to sustainability and circularity in the fashion and textile industry, in collaboration with all the other players in the supply chain. During the narrated fashion show, held on the evening of Wednesday, 5 July, in the evocative archaeological complex of the Imperial Forum Museum, RadiciGroup presented a maxi dress made of Biofeel® eleven, a yarn of completely natural origin featuring high technical, aesthetic and environmental performance. This yarn is produced starting from a small bean cultivated in India on semi-arid land and thus does not compete with human food production. These beans yield a special oil ideal for obtaining biopolymers, such as the one produced by Arkema and spun into yarn at RadiciGroup in Italy.

The dress is not only made from a low environmental impact raw material, but is also an example of ecodesign: the garment was realized on a Shima Seiki WholeGarment knitting machine, where the entire item was knit directly from spools of Biofeel® eleven yarn, bypassing the traditional stages of weaving and tailoring. It is a zero-waste process, as only the quantity of yarn strictly needed for the garment is used.

Biofeel® eleven yarn endows the dress with unique characteristics, including low moisture absorption, greater lightness and high resistance and durability. Besides being 100% biobased, the yarn is also 100% recyclable because it is made of a mono-material polymer, which facilitates its end-of-life recycling and processing into new materials suitable for any application requiring high performance.

ADVANSA and Asia Pacific Fibers (APF) launch fibre made from recycled ocean-bound plastic bottles (c) ADVANSA
05.07.2023

ADVANSA and Asia Pacific Fibers (APF) launch fibre made from recycled ocean-bound plastic bottles

ADVANSA and Asia Pacific Fibers (APF) join forces to launch REMOTION®, a premium fibre for sports and activewear, made from recycled ocean-bound plastic bottles with full end-to-end traceability from Prevented Ocean Plastic™. REMOTION® offers a solution for textiles that merges ocean protection with built-in biodegradability. The fibres break-down in marine environments to prevent microplastic pollution of the oceans, a problem which can be the consequence of fibre-shedding from apparel laundry waste-water.

Remotion® offers a solution with various sustainable features such as biodegradability and recyclability, with customized performance features such as anti-bacterial properties and moisture management built-in to the fibre. Moreover, the fibre is also offered in customer curated colours that guarantee very good colour fastness. Thus, this “all-in-one” fibre contributes to a sustainable and healthy environment with savings in water, energy, chemicals, and CO2. The fibre is available in a range of filament and staple options with two variants: REMOTION® Blue made from ocean-bound plastic bottles, REMOTION® Green made from domestic recycled plastic bottles.

ADVANSA and Asia Pacific Fibers (APF) join forces to launch REMOTION®, a premium fibre for sports and activewear, made from recycled ocean-bound plastic bottles with full end-to-end traceability from Prevented Ocean Plastic™. REMOTION® offers a solution for textiles that merges ocean protection with built-in biodegradability. The fibres break-down in marine environments to prevent microplastic pollution of the oceans, a problem which can be the consequence of fibre-shedding from apparel laundry waste-water.

Remotion® offers a solution with various sustainable features such as biodegradability and recyclability, with customized performance features such as anti-bacterial properties and moisture management built-in to the fibre. Moreover, the fibre is also offered in customer curated colours that guarantee very good colour fastness. Thus, this “all-in-one” fibre contributes to a sustainable and healthy environment with savings in water, energy, chemicals, and CO2. The fibre is available in a range of filament and staple options with two variants: REMOTION® Blue made from ocean-bound plastic bottles, REMOTION® Green made from domestic recycled plastic bottles.

REMOTION® Blue is a specially engineered polyester fibre made from ocean-bound plastic as a premium raw material with a social aspect. ADVANSA and APF are cooperating with Prevented Ocean Plastic™, a global recycling initiative that helps tens of thousands of people around the world to clean their coastlines, prevent ocean plastic pollution and earn additional income. Discarded plastic bottles are picked up by plastic collectors from coastal areas at risk of ocean plastic pollution and are taken to collection centres. The plastic bottles are then sorted out, cleaned and processed into raw material flakes which are used as a premium ingredient for REMOTION® Blue range of products.

ADVANSA and Asia Pacific Fibers are launching REMOTION® at the Performance Days in Munich from 3-5 October 2023.

Source:

ADVANSA

30.06.2023

17th World Pultrusion Conference - CALL FOR PAPERS

The EPTA – European Pultrusion Technology Association organizes in cooperation with the ACMA – American Composites Manufacturers Association - the 17th World Pultrusion Conference on 29th February – 1st March 2024 in Hamburg, Germany. The conference is one of the leading pultrusion events in the world. The event takes place just before the JEC World 2024 in Paris (5th – 7th March 2024).

The presentations are to document innovations in the following subject areas of
pultruded reinforced plastics:

  • Market development in Europe, USA, Asia
  • Innovative applications
  • New Markets: Ideas for potential new applications with pultruded shapes or
  • systems
  • Sustainability: Technical possibilities, recycling, etc.
  • Raw materials
    ○ Development of fibres
    ○ Development of resins
  • Construction / Testing / Calculation
  • Processes

The presentation language will be English. Deadline for paper submission (title, short abstract, speaker name and address) until 15th September 2023 to info@pultruders.com.

The EPTA – European Pultrusion Technology Association organizes in cooperation with the ACMA – American Composites Manufacturers Association - the 17th World Pultrusion Conference on 29th February – 1st March 2024 in Hamburg, Germany. The conference is one of the leading pultrusion events in the world. The event takes place just before the JEC World 2024 in Paris (5th – 7th March 2024).

The presentations are to document innovations in the following subject areas of
pultruded reinforced plastics:

  • Market development in Europe, USA, Asia
  • Innovative applications
  • New Markets: Ideas for potential new applications with pultruded shapes or
  • systems
  • Sustainability: Technical possibilities, recycling, etc.
  • Raw materials
    ○ Development of fibres
    ○ Development of resins
  • Construction / Testing / Calculation
  • Processes

The presentation language will be English. Deadline for paper submission (title, short abstract, speaker name and address) until 15th September 2023 to info@pultruders.com.

Sicherheitsschuhe Foto Pixabay
29.06.2023

SOEX und Mercedes-Benz AG retten Sicherheitsschuhe vor der Verbrennung

Bisher gab es bei Mercedes-Benz AG nur eine Lösung für aussortierte Sicherheitsschuhe: die Verbrennungsanlage. Rund 25 Tonnen Schuhe wurden bisher jährlich in einem Werk des Automobilunternehmens vernichtet. Das will die SOEX-Gruppe nun ändern und die getragenen Schuhe für Mercedes-Benz recyceln. Im Mai startete ein Pilotprojekt. Die ausgemusterten Sicherheitsschuhe werden auf dem Mercedes-Benz Werksgelände in Sindelfingen in insgesamt sechs Containern gesammelt und anschließend im SOEX-Werk in Wolfen recycelt.

Als zertifiziertes Recyclingunternehmen betreibt SOEX die weltweit erste Schuhrecycling-Anlage. So können wertvolle Ressourcen wie Gummi, Leder und Metall gerettet und Schuhe für die Wiederverwendung aufbereitet werden. Die Mitarbeitenden in Sindelfingen fordert Mereceds-Benz AG seit Mai daher auf: „Gib Deinen ausgemusterten Sicherheitsschuhen nun die Chance der Verbrennung zu entgehen und stofflich für neue Produkte wiederverwertet zu werden – mach den richtigen Wurf!“

Bisher gab es bei Mercedes-Benz AG nur eine Lösung für aussortierte Sicherheitsschuhe: die Verbrennungsanlage. Rund 25 Tonnen Schuhe wurden bisher jährlich in einem Werk des Automobilunternehmens vernichtet. Das will die SOEX-Gruppe nun ändern und die getragenen Schuhe für Mercedes-Benz recyceln. Im Mai startete ein Pilotprojekt. Die ausgemusterten Sicherheitsschuhe werden auf dem Mercedes-Benz Werksgelände in Sindelfingen in insgesamt sechs Containern gesammelt und anschließend im SOEX-Werk in Wolfen recycelt.

Als zertifiziertes Recyclingunternehmen betreibt SOEX die weltweit erste Schuhrecycling-Anlage. So können wertvolle Ressourcen wie Gummi, Leder und Metall gerettet und Schuhe für die Wiederverwendung aufbereitet werden. Die Mitarbeitenden in Sindelfingen fordert Mereceds-Benz AG seit Mai daher auf: „Gib Deinen ausgemusterten Sicherheitsschuhen nun die Chance der Verbrennung zu entgehen und stofflich für neue Produkte wiederverwertet zu werden – mach den richtigen Wurf!“

22 Milliarden Paar Schuhe werden Jahr für Jahr weltweit produziert. Laut Hochrechnungen sorgt die globale Schuhindustrie jährlich für so viel CO2 wie ganz Deutschland. Das liegt auch daran, dass für die Produktion von Schuhen sehr viele Ressourcen eingesetzt werden, die nach der Nutzung nicht wieder in den Kreislauf zurückgeführt werden: Der Großteil wird nach dem Tragen im Restmüll entsorgt und landet in der Verbrennung, nicht mal fünf Prozent werden gesammelt und recycelt. Bevor SOEX die weltweit erste Schuhrecycling-Anlage in Betrieb nahm, galt das Recycling von Schuhen weltweit als unmöglich. Meist sind über 40 Materialien in Schuhen so fest miteinander verklebt, dass sie kaum voneinander zu trennen sind.

Die SOEX-Gruppe entwickelte gemeinsam mit dem englischen Partner In-Cycle und der französischen Firma Eco TLC die passende Anlage für das Vorhaben. In der Anlage werden Reißverschlussreste, Metallteile, Leder, Gummi und Stoffresten voneinander getrennt, um anschließend als Rohmaterial zur Herstellung anderer Produkte wiederverwendet zu werden.
Nun profitieret auch der Automobilhersteller Mercedes-Benz AG vom fortschrittlichen Schuhrecycling der SOEX-Gruppe. Der Vorteil beim Recycling von Sicherheitsschuhen liegt außerdem darin, dass ein Sicherheitsschuh aus lediglich vier Komponenten besteht und der Aufwand bei der Auftrennung dadurch sehr gering ist. Somit haben SOEX und Mercedes-Benz AG eine einfache, aber nachhaltige Lösung gefunden, um Arbeitsschuhe sinnvoll zu entsorgen und ihnen ein zweites Leben zu schenken. Das Resultat: Ein wertvoller Beitrag zur Reduktion von Leder- und Gummiabfällen und die Entlastung der Umwelt, in dem aus Altem neue Ressourcen gewonnen werden.
Mit ihrem gemeinsamen Pilotprojekt geben SOEX und Mercedes-Benz AG ein Beispiel, dem weitere Mercedes-Benz Werke folgen könnten und das über die Automobilbranche hinaus ein Zeichen für die nachhaltige Verwertung von Arbeitssicherheitsschuhen setzt.

More information:
Schuhe SOEX Mercedes Benz Recycling
Source:

SOEX

23.06.2023

DOMO Chemicals publishes sustainability report

DOMO Chemicals, a global leader in polyamide-based engineered material solutions and services, has published its latest annual Sustainability Report, detailing progress on its sustainability journey, including notable reductions in greenhouse gas emissions. DOMO’s mission is to engineer polyamide solutions that contribute to a better, more sustainable world. In publishing its second annual Sustainability Report, DOMO enters a new phase in its decarbonization quest, with confidence in its long-term aspiration to set the standard for sustainability in the industry by 2030.

Notably, the Sustainability Report details DOMO’s achievements in 2022 toward realizing its 2030 sustainability goals. In terms of decarbonization and broader environmental achievements, against a 2019 baseline, the company:

DOMO Chemicals, a global leader in polyamide-based engineered material solutions and services, has published its latest annual Sustainability Report, detailing progress on its sustainability journey, including notable reductions in greenhouse gas emissions. DOMO’s mission is to engineer polyamide solutions that contribute to a better, more sustainable world. In publishing its second annual Sustainability Report, DOMO enters a new phase in its decarbonization quest, with confidence in its long-term aspiration to set the standard for sustainability in the industry by 2030.

Notably, the Sustainability Report details DOMO’s achievements in 2022 toward realizing its 2030 sustainability goals. In terms of decarbonization and broader environmental achievements, against a 2019 baseline, the company:

  • Reduced scope 1 and 2 greenhouse gas emissions by 27%, making significant progress toward its target of 40% reduction by 2030 and carbon neutrality by 2050
  • Increased renewable electricity throughout operations to 12%
  • Reduced waste by 24%
  • Lowered water intake by 4.5%

In addition, as a provider of polyamide-based sustainable and circular solutions, DOMO:

  • Achieved more than 11% of engineered materials sales based on sustainable feedstock, making excellent progress toward its 2030 target of 20%
  • Allocated 25% of research and development resources to enhanced recycling

Moreover, fostering talent and ensuring the well-being of its workforce as a responsible employer is essential for sustainable growth, and 2022 highlights include:

  • Increased share of women in senior positions from 22% in 2021 to 30% in 2022
  • Providing a safe and inclusive working environment that encourages personal and professional development as well as a global safety culture
Source:

DOMO Chemicals

21.06.2023

Renewcell achieves Recycled Claim Standard certification

CIRCULOSE® production at Renewcell 1, Ortviken has been certified to Recycled Claim Standard (RCS) version 2.0. The RCS is an international, voluntary standard that sets requirements for third-party certification of recycled input and chain of custody. The primary goal of the RCS is to increase the use of recycled materials.

Building off previous RCS certification of the CIRCULOSE® pulp at the Kristinehamn recycling plant, this achievement further solidifies Renewcell’s mission to change the global textile industry and make it circular and sustainable.

The CIRCULOSE® pulp process conforms to the RCS 100 standard developed by Textile Exchange, a global non-profit organization advancing preferred fibers and materials.

A recycled content claim can only be made for materials that have been recovered or otherwise diverted from the solid waste stream. The certification process requires partners to comply with standards at every step of the supply chain, starting with the raw material (or recycling) suppliers and ending with the end seller in a business-to-consumer transaction.

CIRCULOSE® production at Renewcell 1, Ortviken has been certified to Recycled Claim Standard (RCS) version 2.0. The RCS is an international, voluntary standard that sets requirements for third-party certification of recycled input and chain of custody. The primary goal of the RCS is to increase the use of recycled materials.

Building off previous RCS certification of the CIRCULOSE® pulp at the Kristinehamn recycling plant, this achievement further solidifies Renewcell’s mission to change the global textile industry and make it circular and sustainable.

The CIRCULOSE® pulp process conforms to the RCS 100 standard developed by Textile Exchange, a global non-profit organization advancing preferred fibers and materials.

A recycled content claim can only be made for materials that have been recovered or otherwise diverted from the solid waste stream. The certification process requires partners to comply with standards at every step of the supply chain, starting with the raw material (or recycling) suppliers and ending with the end seller in a business-to-consumer transaction.

Source:

Re:NewCell AB

21.06.2023

Fashion for Good welcomes new partners to its Sorting for Circularity USA Project

The Sorting for Circularity USA consortium project welcomes new partners and expands its North American geographical scope. Fashion for Good is pleased to announce the addition of lululemon as an external brand partner, joining the existing seven brand partners. They also welcome their new implementation partners Helpsy, United Southern Waste Material, Goodwill Industries International Inc., and its members Goodwill of Colorado, Goodwill Industries-Suncoast, Inc., Goodwill of the Finger Lakes, and Goodwill of San Francisco Bay. Additionally, Fashion for Good is pleased to recognise adidas as the project's lead sponsor, facilitating the complete realisation of the project scope.

The Sorting for Circularity USA consortium project welcomes new partners and expands its North American geographical scope. Fashion for Good is pleased to announce the addition of lululemon as an external brand partner, joining the existing seven brand partners. They also welcome their new implementation partners Helpsy, United Southern Waste Material, Goodwill Industries International Inc., and its members Goodwill of Colorado, Goodwill Industries-Suncoast, Inc., Goodwill of the Finger Lakes, and Goodwill of San Francisco Bay. Additionally, Fashion for Good is pleased to recognise adidas as the project's lead sponsor, facilitating the complete realisation of the project scope.

Fashion for Good, together with Resource Recycling Systems, launched the Sorting for Circularity USA consortium project in January 2023. The project will conduct an extensive consumer survey to map the journey of a garment from closet to end of use, and present a comprehensive snapshot of textile waste composition generated in the United States. The insights gained from this 18-month project will help to scale collection, sorting, and recycling innovations and inform decisions on necessary investments and actions.

Within the first 6 months, the project has expanded to cover 6 key states: California, Texas, Florida, New York, New Jersey and Colorado. Additional implementation partners have also signed on to support the fibre composition data analysis: Secondary Materials and Recycled Textiles (SMART) Association, Helpsy, United Southern Waste Material, and Goodwill Industries International Inc., with its members Goodwill of Colorado, Goodwill Industries-Suncoast, Inc., Goodwill of the Finger Lakes, and Goodwill of San Francisco Bay. Resource Recycling Systems will drive the dissemination and analysis of the consumer survey together with New York State Center for Sustainable Materials Management and Syracuse University Center for Sustainable Community Solutions, and execute the textile composition analysis using Matoha’s near infrared devices with advisory support from Circle Economy.

Demonstrating the importance of pre-competitive collaboration in tackling the industry’s biggest challenges, lululemon joins Eastman, H&M and Nordstrom as key project partners, together with Fashion for Good corporate partners adidas, Inditex, Levi Strauss & Co., and Target. Adidas' lead sponsorship ensures a deeper analysis of USA textile waste infrastructure and the identification of valuable opportunities for advancement.

In the USA, textile waste is the fastest-growing segment of the country's waste stream, with 85% of discarded textiles ending up in landfills*. Understanding the composition of material, volume and location of used textiles is crucial for capturing them and sorting them for the best and highest quality end use. Moreover, the range of national and regional geographies within the Sorting for Circularity project series enables for nuanced cross-country comparisons - revealing differences in the textile waste generated and infrastructure required.

Sorting for Circularity, a framework co-developed by Fashion for Good and Circle Economy, aims to (re)capture textile waste by unlocking the feedstock potential for recycling, expedite the implementation of game changing automated sorting technologies such as near-infrared spectroscopy and advanced textile-to-textile recycling, and drive circularity within the fashion value chain. The project builds on the success of Sorting for Circularity Europe and India, which revealed insights on material composition, volume, and location of used textiles and provided a solid foundation to accelerate textile recycling in those respective geographical locations.

*United States Environmental Protection Agency (2019). National Overview: Facts and Figures on Materials, Wastes and Recycling.

Source:

Fashion for Good 

12.06.2023

Circular Polymers by Ascend launches Cerene™

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

“Customers around the globe are seeking consistent and reliable post-consumer recycled materials,” said Maria Field, business director of Circular Polymers by Ascend. “Cerene is mechanically recycled using a process that minimizes our carbon footprint and environmental impact.”

Circular Polymers by Ascend converts post-consumer carpet into fiber and pellets. The company uses a proprietary process in its California-based facilities to achieve high efficiency in recycling, successfully providing a new life for virtually every component of the carpet and backing. The company has redirected 85 million pounds of carpet from landfills into new goods since 2018.

Source:

Circular Polymers by Ascend

05.06.2023

Resource-efficient dyeing solutions for sustainable PA fibers

CHT and Fulgar have collaborated to support the goal of reducing the carbon footprint with an effective and sustainable solution for the textile market.

Combining FULGAR’s circular economy ready yarns with CHT’s resource-saving dyeing techniques significantly reduces the usage of natural resources and leads to lower environmental impact and ultimately a lower carbon footprint. The combined process needs less water, uses less energy, and saves time while meeting the color fastness standards for finished textile products.

The combination of 100 % biobased polyamide EVO® by FULGAR yarns with CHT sustainable dyeing application can save water up to 64 %, energy use up to 50 % and process time up to 50 %, when compared to standard dyeing processes. Sustainable dyeing of EVO® is promoted using CHT’s soy-based dyeing auxiliary SARABID TS 300. SARABID TS 300 has accredited a C2C Certified Material Health Certificate at Gold level and USDA Certified Biobased Product Certification.

CHT and Fulgar have collaborated to support the goal of reducing the carbon footprint with an effective and sustainable solution for the textile market.

Combining FULGAR’s circular economy ready yarns with CHT’s resource-saving dyeing techniques significantly reduces the usage of natural resources and leads to lower environmental impact and ultimately a lower carbon footprint. The combined process needs less water, uses less energy, and saves time while meeting the color fastness standards for finished textile products.

The combination of 100 % biobased polyamide EVO® by FULGAR yarns with CHT sustainable dyeing application can save water up to 64 %, energy use up to 50 % and process time up to 50 %, when compared to standard dyeing processes. Sustainable dyeing of EVO® is promoted using CHT’s soy-based dyeing auxiliary SARABID TS 300. SARABID TS 300 has accredited a C2C Certified Material Health Certificate at Gold level and USDA Certified Biobased Product Certification.

EVO® by FULGAR, the totally renewable yarn based on castor plants, does not require high amounts of water - 4 times less compared to cotton. In addition to the sustainable aspect, EVO® by FULGAR offers characteristics like lower fiber weight, particular moisture management and higher stretch often without the need for elastomer fiber. This helps to avoid material mixes for better recycling opportunities. EVO® provides greater user comfort, mainly for performance and casual apparel.

More information:
CHT Evo by Fulgar Fulgar
Source:

CHT Germany GmbH

02.06.2023

Carbios receives funding for PET biorecycling plant and R&D activities

Carbios will receive grants totaling €54 million from French State via France 2030 and Grand-Est Region to finance construction of world’s first PET biorecycling plant and accelerate R&D activities

Carbios announces that its project has been selected by the French State for funding of €30 million from the French State as part of the investment plan France 2030, and €12.5 million from the Grand-Est Region.  The implementation of this funding is conditional to the European Commission’s approval of the corresponding state aid scheme, followed by the conclusion of national aid agreements. As part of the national call for projects on “Plastics Recycling” operated by ADEME[1], Carbios’ project to finalize the industrialization of its unique PET biorecycling process has been selected. The reference plant in Longlaville in the Grand-Est region will be the world’s first PET biorecycling plant and is due for commissioning in 2025. This plant will make it possible to relocate to France the production of the two basic components of PET, PTA and MEG[2], both derived from the Carbios process.

Carbios will receive grants totaling €54 million from French State via France 2030 and Grand-Est Region to finance construction of world’s first PET biorecycling plant and accelerate R&D activities

Carbios announces that its project has been selected by the French State for funding of €30 million from the French State as part of the investment plan France 2030, and €12.5 million from the Grand-Est Region.  The implementation of this funding is conditional to the European Commission’s approval of the corresponding state aid scheme, followed by the conclusion of national aid agreements. As part of the national call for projects on “Plastics Recycling” operated by ADEME[1], Carbios’ project to finalize the industrialization of its unique PET biorecycling process has been selected. The reference plant in Longlaville in the Grand-Est region will be the world’s first PET biorecycling plant and is due for commissioning in 2025. This plant will make it possible to relocate to France the production of the two basic components of PET, PTA and MEG[2], both derived from the Carbios process.

Carbios also announces that it has been granted total funding of €11.4 million from the French State as part of France 2030, of which €8.2 million directly for Carbios (€5 million in repayable advances) and €3.2 million for its academic partners INRAE[3], INSA[4] and CNRS[5] via the TWB[6] and TBI[7] joint service and research units. This funding will enable to continue its research into the optimization and continuous improvement of Carbios’ enzymatic technologies.

The plant will secure the sales of the first volumes of recycled PET produced with Carbios’ technology, and to offer its partners recycled PET of the same quality as virgin PET. Once the necessary permits have been obtained, which should be granted by the end of 2023, in line with the announced start of construction before the end of the year, the plant is scheduled to be commissioned in 2025. This will be followed by a period of ramp-up to full capacity. The plant will have a nominal processing capacity of 50,000 tonnes of PET waste per year, equivalent to 2 billion bottles or 2.5 billion food trays.

Selection for funding by the French State through France 2030 and the Grand-Est Region complements the recent announcement of an exclusive, long-term partnership with Novozymes[8], a leader in enzyme production, one of the main aims is to ensure the supply of enzymes to Carbios’ Longlaville plant and future licensed plants. In addition, Carbios recently secured a first supply source for its future plant by winning part of the CITEO tender for the biorecycling of multilayer trays[9].


[1] The French Agency for Ecological Transition
[2] PTA = purified terephthalic acid; MEG = monoethylene glycol
[3] French National Research Institute for Agriculture, Food and the Environment
[4] French National Institute of Applied Sciences
[5] French National Center for Scientific Research
[6] Toulouse White Biotechnology – UMS INRAE 1337 / UAR CNRS 3582
[7] Toulouse Biotechnology Institute – UMR INSA/CNRS 5504 / UMR INSA/INRAE 792
[8] Cf. press release dated 12 January 2023
[9] Cf. press release published by Citeo dated 26 April 2023

More information:
Carbios biorecycling plastics France
Source:

Carbios

(c) TNO/Fraunhofer UMSICHT
02.06.2023

Fraunhofer: New guide to the future of plastics

How does a future-proof, circular and sustainable plastics economy look like? The answer is a balance ranging from plastics reduction to a sustainable use of recyclable plastics. After all, the increasing demand for plastics in high-value applications such as food packaging, car parts or synthetic textiles requires a holistic change. With four strategic approaches, researchers from the German institute Fraunhofer UMSICHT and the Dutch institute TNO now provide insights into how this future scenario could look like in their recently published white paper "From #plasticfree to future-proof plastics". Both organizations also start a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP aimed at removing existing barriers and sharing of promising solutions.

How does a future-proof, circular and sustainable plastics economy look like? The answer is a balance ranging from plastics reduction to a sustainable use of recyclable plastics. After all, the increasing demand for plastics in high-value applications such as food packaging, car parts or synthetic textiles requires a holistic change. With four strategic approaches, researchers from the German institute Fraunhofer UMSICHT and the Dutch institute TNO now provide insights into how this future scenario could look like in their recently published white paper "From #plasticfree to future-proof plastics". Both organizations also start a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP aimed at removing existing barriers and sharing of promising solutions.

Versatile and inexpensive materials with low weight and very good barrier properties: That's what plastics are. In addition to their practical benefits, however, the materials are also associated with a significant share of mankind's greenhouse gas emissions. The production and use of plastics cause environmental pollution and microplastics, deplete fossil resources and lead to import dependencies. At the same time, alternatives - such as glass packaging - could cause even more environmental burden or have poorer product properties.

Researchers from TNO and Fraunhofer UMSICHT have elaborated a white paper that provides a basis for the transformation of plastics production and use. They consider the integration of the perspectives of all stakeholders and their values and the potential of current and future technologies. In addition, the functional properties of the target product, the comparison with alternative products without plastics, and their impact in a variety of environmental, social and economic categories over the entire life cycle are crucial. In this way, a systematic assessment and ultimately a systematic decision as to where we can use, reject or replace plastics can be realized.

Strategies for the Circular Economy
As a result, the researchers describe four strategic approaches for transforming today's largely linear plastics economy into a fully circular future: Narrowing the Loop, Operating the Loop, Slowing the Loop, and Closing the Loop. By Narrowing the Loop, the researchers recommend, as a first step, to reduce the amount of materials mobilized in a circular economy. Operating the Loop refers to using renewable energy, minimizing material losses, and sourcing raw materials sustainably. For Slowing the Loop, measures are needed to extend the useful lifetime of materials and products. Finally, for Closing the Loop, plastics must be collected, sorted and recycled to high standards.

Individual strategies fall under each of the four approaches. While the ones under Operating the Loop (O strategies) should be applied in parallel and as completely as possible. According to the researchers, the decision for the strategies in the other fields (R strategies) requires a complex process: “Usually, more than one R-strategy can be considered for a given product or service. These must be carefully compared in terms of their feasibility and impact in the context of the status quo and expected changes”, explains Jürgen Bertling from Fraunhofer UMSICHT. The project partners have therefore developed a guiding principle for prioritization based on the idea of the waste hierarchy.

A holistic change, as we envision it, can only succeed if science, industry, politics and citizens work together across sectors. “This implies several, partly quite drastic changes at 4 levels: legislation and policy, circular chain collaboration, design and development, and education and information. For instance, innovations in design and development include redesign of polymers to more oxygen rich ones based on biomass and CO2 utilisation. Current recycling technologies have to be improved for high quantity and quality recycling,” explains Jan Harm Urbanus from TNO.

Hands-on platform for cross-sector collaboration
“Therefore, in a next step, TNO and Fraunhofer UMSICHT are building a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP," explains Esther van den Beuken, Principal Consultant from TNO. It will give companies, associations and non-governmental organizations the opportunity to work together on existing barriers and promising solutions for a Circular Plastics Economy. The platform will also offer its members regular hands-on workshops on plastics topics, roundtable discussions on current issues, and participation in multi-client studies on pressing technical challenges. Regular meetings will be held in the cross-border region of Germany and the Netherlands as well as online. The goal is to bring change to the public and industry.

Source:

Fraunhofer UMSICHT