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09.08.2022

Carbios joined WhiteCycle to process and recycle plastic textile waste

  • An innovative European project to process and recycle plastic textile waste
  • A partnership to reach the objectives set by the European Union in reducing CO2 emissions by 2030
  • A unique consortium rallying 16 public and private European organizations working together for more circular economy

Carbios joined WhiteCycle, a project coordinated by Michelin, which was launched in July 2022. Its main goal is to develop a circular solution to convert complex[1] waste containing textile made of plastic into products with high added value. Co-funded by Horizon Europe, the European Union’s research and innovation program, this unprecedented public/private European partnership includes 16 organizations and will run for four years.
 

  • An innovative European project to process and recycle plastic textile waste
  • A partnership to reach the objectives set by the European Union in reducing CO2 emissions by 2030
  • A unique consortium rallying 16 public and private European organizations working together for more circular economy

Carbios joined WhiteCycle, a project coordinated by Michelin, which was launched in July 2022. Its main goal is to develop a circular solution to convert complex[1] waste containing textile made of plastic into products with high added value. Co-funded by Horizon Europe, the European Union’s research and innovation program, this unprecedented public/private European partnership includes 16 organizations and will run for four years.
 
WhiteCycle envisions that by 2030 the uptake and deployment of its circular solution will lead to the annual recycling of more than 2 million tons of the third most widely used plastic in the world, PET[2]. This project should prevent landfilling or incineration of more than 1.8 million tons of that plastic each year. Also, it should enable reduction of CO2 emissions by around 2 million tons.
 
Complex waste containing textile (PET) from end-of-life tyres, hoses and multilayer clothes are currently difficult to recycle, but could soon become recyclable thanks to the project outcomes. Raw material from PET plastic waste could go back into creation of high-performance products, through a circular and viable value chain.
 
Public and private European organizations are combining their scientific and industrial expertises:

  • industrial partners (Michelin, Mandals, KORDSA);
  • cross-sector partnership (Inditex)
  • waste management companies (Synergies TLC, ESTATO);
  • intelligent monitoring systems for sorting (IRIS);
  • biological recycling SME (Carbios);
  • product life cycle analysis company (IPOINT);
  • university, expert in FAIR data management (HVL);
  • universities, research and technology organizations (PPRIME – Université de Poitiers/CNRS, DITF, IFTH, ERASME);
  • industry cluster (Axelera);
  • project management consulting company (Dynergie).

 
The consortium will develop new processes required throughout the industrial value chain:

  • Innovative sorting technologies, to enable significant increase of the PET plastic content of complex waste streams in order to better process them;
  • A pre-treatment for recuperated PET plastic content, followed by a breakthrough recycling enzyme-based process to decompose it into pure monomers in a sustainable way;
  • Repolymerization of the recycled monomers into like new plastic;
  • Fabrication and quality verification of the new products made of recycled plastic materials

 
WhiteCycle has a global budget of nearly 9.6 million euros and receives European funding in the amount of nearly 7.1 million euros. The consortium’s partners are based in five countries (France, Spain, Germany, Norway and Turkey). Coordinated by Michelin, it has an effective governance system involving a steering committee, an advisory board and a technical support committee.

[1] Complex waste: multi materials waste (Rubber goods composites and multi-layer textile)
[2] PET: Polyethylene terephthalate

Source:

Carbios

25.07.2022

Carbios: Strengthening its leadership in the biorecycling of plastics and textiles

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

Prof. Alain Marty, Chief Scientific Officer of Carbios and co-author of the article, explains: “ Nearly 25 researchers are currently working on our unique enzymatic technology. It is based on academic collaborations with the world's leading experts in their fields..”

Dr. Guy Lippens, CNRS Research Director and co-author of the artcle, adds: “Nuclear Magnetic Resonance (NMR) is an extraordinary biophysical technique for visualizing an enzyme directly in solution. Our study is the first to use NMR as a complementary technique to crystallography and molecular modeling to observe a PETase. This gives new perspectives to better understand the functioning of these enzymes and it makes it possible to imagine new ways of improving these enzymes. ”

More information:
Carbios de-polymerization
Source:

Carbios

(c) Sappi Europe
25.07.2022

Sappi showcases its solutions at FACHPACK 2022

The FACHPACK in Nuremberg ranks among the most important packaging industry gatherings. From 27 to 29 September 2022, Sappi will be presenting its latest products and solutions for functional paper packaging, flexible packaging papers, label papers, containerboard and paperboard. The company is focusing its efforts on sustainable, recyclable and innovative solutions.

The FACHPACK in Nuremberg ranks among the most important packaging industry gatherings. From 27 to 29 September 2022, Sappi will be presenting its latest products and solutions for functional paper packaging, flexible packaging papers, label papers, containerboard and paperboard. The company is focusing its efforts on sustainable, recyclable and innovative solutions.

  • Wide range of barrier papers in the market for sustainable and recyclable packaging solutions
  • High-impact brand presence in corrugated board packaging thanks to Fusion Nature Plus in combination with Fusion Topliner
  • Parade Label Pro wet-glue label paper for an efficient operation and an excellent visual impression

Wide range of barrier papers
Sappi’s ultimate goal as a specialist in barrier papers is to replace non-recyclable aluminium and plastic multi-layer laminates through the introduction of truly sustainable alternatives that meet all market requirements in terms of performance and recycling. Sappi is continuously expanding its portfolio of barrier papers. At the show, Sappi will be showcasing several examples of food and non-food applications using these barrier papers.

A smooth surface and a high degree of whiteness: Parade Label Pro
Sappi will also be presenting its new, non-wet-strength wet-glue label paper Parade Label Pro – featuring samples from all over the world. This glossy, double-coated quality paper offers a smooth surface plus a high degree of whiteness. It’s suitable for numerous label and flexible packaging applications, such as labels for disposable bottles, food and non-food containers as well as wrappers for a variety of products. It can be printed in offset, flexo and gravure, and finished with hot foil and blind embossing, for example.

Brand presentation that appeals to the senses
“For manufacturers of branded goods, it is becoming increasingly important to convey brand values and product characteristics in a way that is emotionally appealing and that really sets the stage,” explains Luis Mata, Sales Director Packaging of Sappi Europe. At the FACHPACK, Sappi will also be presenting its containerboard products for corrugated board applications, which, with their brilliant colour reproduction, enhance on-shelf product impact and ensure real brand differentiation.

Sappi’s popular Algro Design paperboard portfolio also allows the design scope and leeway to communicate brand values in an emotionally appealing way.

Source:

Sappi Europe

15.07.2022

ANDRITZ at CINTE 2022 in China

ANDRITZ will be presenting its innovative nonwovens production solutions at CINTE 2022 in Shanghai, China (September 6–8). ANDRITZ will show its broad product portfolio covering state-of-the-art nonwovens and textile production technologies such as air-through bonding, airlay, needlepunch, spunlace, spunbond, wetlaid/WetlaceTM, converting, textile finishing, recycling, and natural fiber processing.

SUSTAINABILITY IS KEY
ANDRITZ supports nonwovens producers in the move to sustainability with the aim of reducing or eliminating plastic components while maintaining the high quality of the desired product properties. This applies to all types of sustainable wipes, such as flushable, biodegradable, bio-sourced, carded pulp or standard carded wipes. The latest development in this field is the ANDRITZ neXline wetlace CP line, which integrates the carded-pulp (CP) process. This is a fully engineered production line combining the benefits of drylaid and wetlaid technologies to produce a new generation of biodegradable wipes.

ANDRITZ will be presenting its innovative nonwovens production solutions at CINTE 2022 in Shanghai, China (September 6–8). ANDRITZ will show its broad product portfolio covering state-of-the-art nonwovens and textile production technologies such as air-through bonding, airlay, needlepunch, spunlace, spunbond, wetlaid/WetlaceTM, converting, textile finishing, recycling, and natural fiber processing.

SUSTAINABILITY IS KEY
ANDRITZ supports nonwovens producers in the move to sustainability with the aim of reducing or eliminating plastic components while maintaining the high quality of the desired product properties. This applies to all types of sustainable wipes, such as flushable, biodegradable, bio-sourced, carded pulp or standard carded wipes. The latest development in this field is the ANDRITZ neXline wetlace CP line, which integrates the carded-pulp (CP) process. This is a fully engineered production line combining the benefits of drylaid and wetlaid technologies to produce a new generation of biodegradable wipes.

NEXLINE WETLAID AXCESS TARGETS SMALLER AND MEDIUM PRODUCTION VOLUMES
The neXline wetlaid aXcess targets smaller and medium production volumes and has been devised for new and existing lines. The compact line provides an entrance to the growing wetlaid market, with a variety of final applications and options.

ANDRITZ AXCESS DEVELOPED FOR MEDIUM CAPACITIES IN WUXI, CHINA
The aXcess range was specially developed at ANDRITZ (China) Ltd. Wuxi Branch to handle medium capacities. The facility in Wuxi has an experienced platform for production and service specially geared to serve the Asian nonwovens industry. It designs and manufactures cutting-edge lines to complement the ANDRITZ aXcess product range, which includes complete lines and individual machines for air-through bonding, needlepunch and spunlace processes. With the aXcess range, ANDRITZ has developed a hybrid line combining European and Chinese machines, which is the ideal combination to obtain the best added value from each component in the line and be very flexible to accommodate different business cases.

The service organization was set up to provide prompt delivery and excellent customer support, even during the COVID-19 pandemic. A team of technicians and process experts can be deployed quickly to customer sites requiring full-range assistance. The ANDRITZ facilities include a roll service center with state of-the-art grinding equipment and a test stand for various types of rolls.

In addition, our aXcess range manufactured in Europe also offers technologies for spunlaid and wetlaid processes. Increasing production speeds and widths, compact and reliable design, and affordable investment costs are what customers look for in a competitive market environment. To meet these requirements ideally, we recently enhanced our nonwoven calender and dryer ranges.

(c) adidas AG
15.07.2022

adidas launches its first product in collaboration with Spinnova

The adidas TERREX HS1 is one of the first knitted products to be made in part with Spinnova technology. At least 30% of the fabric in this mid-layer hiking hoodie comes from wood-based SPINNOVA® fibres (other fibres)* and 70% from cotton (organic).

Adidas is committed to helping End Plastic Waste via a three-loop strategy that consists of using recycled materials, materials that can be made to be remade and in the case of Made with Nature, products created in part with natural ingredients, such as the adidas TERREX HS1.  

The first product to emerge from this partnership, the adidas TERREX HS1 mid-layer is a piece of multi-functional gear that works on the trails and then rolls up into its hood for easy storage or to create a pillow on longer adventures. It was designed using UNITEFIT – an all-gender fit system created with a spectrum of sizes, genders, and forms in mind.

The adidas TERREX HS1 is one of the first knitted products to be made in part with Spinnova technology. At least 30% of the fabric in this mid-layer hiking hoodie comes from wood-based SPINNOVA® fibres (other fibres)* and 70% from cotton (organic).

Adidas is committed to helping End Plastic Waste via a three-loop strategy that consists of using recycled materials, materials that can be made to be remade and in the case of Made with Nature, products created in part with natural ingredients, such as the adidas TERREX HS1.  

The first product to emerge from this partnership, the adidas TERREX HS1 mid-layer is a piece of multi-functional gear that works on the trails and then rolls up into its hood for easy storage or to create a pillow on longer adventures. It was designed using UNITEFIT – an all-gender fit system created with a spectrum of sizes, genders, and forms in mind.

Made in part with Spinnova technology , a minimum of 30% of the fabric in the adidas TERREX HS1 comes from wood-based SPINNOVA® fibres (other fibres)* that are made by grinding wood pulp with water into a paste and then spun into a textile fibre.

The product also works with the material’s natural color. Since no dyeing or bleaching is applied, in turn this uses less water compared to the standard dyeing process.

* (Rayon) in US, (New type of cellulose fibre) in China

More information:
adidas Spinnova Fibers fibres Recycling
Source:

adidas AG

13.07.2022

Texaid: Neue Textilien aus recycelten Fasern

Seit mehr als sieben Jahren forscht Texaid, das seinen Deutschland-Sitz im hessischen Darmstadt hat, daran, wie textile Altfasern und Abfälle vor dem Verbrennen bewahrt und weiterverwendet werden können. Deswegen arbeitet das Unternehmen unter anderem mit Partnern aus der Industrie, dem Recyclingatelier ITA Augsburg von der RWTH Aachen, vertreten von Prof. Dr. Stefan Schlichter, und der Hochschule Augsburg, vertreten von Prof. Dr. Nadine Warkotsch, unter anderem Vizepräsidentin für Forschung und Nachhaltigkeit, an Verfahren, mit denen auch textile Abfälle länger im Verwertungskreislauf gehalten werden können.

Die Basis für diese Forschungen bildet auch das Werk in Apolda. Dort werden täglich rund 350.000 Kleidungsstücke und andere Textilien sortiert. Bei vielen Textilien ist es nicht möglich, sie als Ganzes im Verwertungskreislauf zu halten. Sie werden deswegen sortenrein sortiert, um ein Recycling ihrer Fasern zu ermöglichen.

Seit mehr als sieben Jahren forscht Texaid, das seinen Deutschland-Sitz im hessischen Darmstadt hat, daran, wie textile Altfasern und Abfälle vor dem Verbrennen bewahrt und weiterverwendet werden können. Deswegen arbeitet das Unternehmen unter anderem mit Partnern aus der Industrie, dem Recyclingatelier ITA Augsburg von der RWTH Aachen, vertreten von Prof. Dr. Stefan Schlichter, und der Hochschule Augsburg, vertreten von Prof. Dr. Nadine Warkotsch, unter anderem Vizepräsidentin für Forschung und Nachhaltigkeit, an Verfahren, mit denen auch textile Abfälle länger im Verwertungskreislauf gehalten werden können.

Die Basis für diese Forschungen bildet auch das Werk in Apolda. Dort werden täglich rund 350.000 Kleidungsstücke und andere Textilien sortiert. Bei vielen Textilien ist es nicht möglich, sie als Ganzes im Verwertungskreislauf zu halten. Sie werden deswegen sortenrein sortiert, um ein Recycling ihrer Fasern zu ermöglichen.

Seit einigen Monaten wird dies durch innovative Technik unterstützt. So wurden zu Testzwecken einzelne Arbeitsplätze hochtechnisiert. Neben Nah-Infrarot-Scannern zur Analyse der stofflichen Zusammensetzungen der Textilien ist ein Arbeitsplatz mit einem NFC-Lesegerät ausgestattet. „So können wir bereits heute digitale Produktpässe von Textilien auslesen“, so Texaid-Geschäftsführer Thomas Böschen. Um die Recycling-Quote zu erhöhen, plant die EU, künftig jedes Textil mit Chips auszustatten, die Informationen über Herstellung, Zusammensetzung und Möglichkeit der Weiterverwertung geben.

Texaid hat eine Shoppingtasche als erstes eigenes Produkt mit einem solchen Chip ausgestattet. Die Tasche besteht zu 50 Prozent aus Garnen von recycelten Alttextilien und zu 50 Prozent aus Polyesterfasern, die aus Ozeanplastik hergestellt wurden.

 

More information:
Texaid Recycling Recyclingfasern
Source:

Texaid

07.07.2022

Carbios, On, Patagonia, PUMA and Salomon team up to advance circularity

Carbios has signed an agreement with On, Patagonia, PUMA, and Salomon, to develop solutions that will enhance the recyclability and circularity of their products.
 
An important element of the two-year deal will be to speed up the introduction of Carbios’ biorecycling technology, which constitutes a breakthrough for the textile industry. Carbios and the four companies will also research how products can be recycled, develop solutions to take-back worn polyester items, including sorting and dismantling technologies, and gather data on fiber-to-fiber recycling as well as circularity models.
 
The challenge the four brands share, is that their ambitious sustainable development goals can only partially be met by conventional recycling technologies which mostly target bottle-to-fiber recycling. Future regulations will require more circularity in packaging and textile. Yet the market consensus is that there will soon be a shortage of PET bottles, as they will be used for circular production methods in the Food & Beverage Industry.   
 

Carbios has signed an agreement with On, Patagonia, PUMA, and Salomon, to develop solutions that will enhance the recyclability and circularity of their products.
 
An important element of the two-year deal will be to speed up the introduction of Carbios’ biorecycling technology, which constitutes a breakthrough for the textile industry. Carbios and the four companies will also research how products can be recycled, develop solutions to take-back worn polyester items, including sorting and dismantling technologies, and gather data on fiber-to-fiber recycling as well as circularity models.
 
The challenge the four brands share, is that their ambitious sustainable development goals can only partially be met by conventional recycling technologies which mostly target bottle-to-fiber recycling. Future regulations will require more circularity in packaging and textile. Yet the market consensus is that there will soon be a shortage of PET bottles, as they will be used for circular production methods in the Food & Beverage Industry.   
 
Carbios’ innovative process constitutes a technological breakthrough for the recycling of polyester (PET) fibers, which are widely used in apparel, footwear and sportswear, on their own or together with other fibers. PET polyester is the most important fiber for the textile industry with 52 MT produced, even surpassing cotton at 23MT. The biorecycling process uses an enzyme capable of selectively extracting the polyester, recovering it to recreate a virgin fiber. This revolutionary technology makes it possible to recover the PET polyester present in all textile waste that cannot be recycled using traditional technologies.
 
PET plastics and fibers are used to make everyday consumer goods such as bottles, packaging and textiles. Today, most PET is produced from fossil resources, then used and discarded according to a wasteful linear model. By creating a circular economy from used plastics and fibers, Carbios’ biorecycling technology offers a sustainable and more responsible solution.

More information:
Carbios PET circularity
Source:

Carbios

04.07.2022

Call for Papers »BIO-raffiniert XII« 2023

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

Source:

Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT

(c) Borealis
28.06.2022

Borealis introduces portfolio of circular base chemicals

  • The Borvida™ portfolio introduces sustainable base chemicals to Borealis’ range of product offering
  • The range will initially be based on non-food waste biomass, and chemically-recycled waste; in the future it will also draw from atmospheric carbon capture
  • The traceability of the content will be based on Mass Balance, which is ISCC PLUS certified
  • This is the next step in an ambitious sustainability journey, which will see Borealis move away from traditional fossil-based feed

Borealis is strengthening its EverMinds™ circular product offering with Borvida™, a range of sustainable base chemicals.

The Borvida portfolio will offer base chemicals or cracker products (such as ethylene, propylene, butene and phenol) with ISCC Plus-certified sustainable content from Borealis sites in Finland, Sweden and Belgium. The move is part of Borealis’ broader commitment to a Future-Positive Revolution, in which the unrivalled benefits of base chemicals and polymers can be enjoyed at minimal impact to the planet.   

  • The Borvida™ portfolio introduces sustainable base chemicals to Borealis’ range of product offering
  • The range will initially be based on non-food waste biomass, and chemically-recycled waste; in the future it will also draw from atmospheric carbon capture
  • The traceability of the content will be based on Mass Balance, which is ISCC PLUS certified
  • This is the next step in an ambitious sustainability journey, which will see Borealis move away from traditional fossil-based feed

Borealis is strengthening its EverMinds™ circular product offering with Borvida™, a range of sustainable base chemicals.

The Borvida portfolio will offer base chemicals or cracker products (such as ethylene, propylene, butene and phenol) with ISCC Plus-certified sustainable content from Borealis sites in Finland, Sweden and Belgium. The move is part of Borealis’ broader commitment to a Future-Positive Revolution, in which the unrivalled benefits of base chemicals and polymers can be enjoyed at minimal impact to the planet.   

The portfolio will initially comprise Borvida B, from non-food waste biomass, and Borvida C, from chemically-recycled waste. In the future, the range will evolve to include Borvida A, sourced from atmospheric carbon capture. Borvida is complementary and is the building block to Bornewables™, a portfolio of polyolefins based on renewably-sourced second generation feedstocks, and Borcycle™, which offers circular polyolefins produced from mechanically- and chemically-recycled plastic waste.

Borealis produces a wide range of base chemicals for use in numerous industries based on various feedstock, such as naphtha, butane, propane and ethane. Through its olefin units (steam cracker and propane dehydrogenation), it converts these into the building blocks of the chemical industry: ethylene, propylene and C4 hydrocarbons (butylenes, ethyl tertiary-butyl ether (ETBE) and butadiene), and C5-6 hydrocarbons (pygas, phenol) among others.

The basis of the Borvida portfolio is Mass Balance, a Chain of Custody model that enables sustainable content to be tracked, traced, and verified through the entire value chain, offering sustainability-assured products from feedstock to end product. Using this model, circular alternatives can be offered in a cost-effective and environmentally-conscious way, which can be scaled up quickly without compromising on quality or efficiency.

Borvida can be used for a wide range of different polymer and chemical applications, also beyond polyolefins (PO). Non-PO polymers, such as polycarbonates, acrylonitrile butadiene styrene (ABS), super absorbant polymer (SAP) and other chemicals, are utilised for various end applications including coatings, plasticizers, adhesives, automotive, electronics, lubricants, detergents, appliances and sports equipment.

Together with key strategic partners, including Neste and Covestro, Borealis strives to provide a long-term solution in order to allow value-chain partners to meet their sustainability goals. Borvida will enable our customers to increase the sustainability of their products, keeping them ahead of forthcoming legislative changes, and meeting their customers’ demands for climate-conscious products.

Introduced on a smaller scale in early 2020, early renewable base chemicals customers include Covestro. “The use of alternative sustainable raw materials is one important pillar of our strategic ambition to become fully circular”, comments Frank Dörner, Managing Director Covestro Procurement Services GmbH & Co. KG. “The new product line is a good example for joint solutions, another strategic pillar, in order to establish new and reliable supply chains creating benefits for our customers.”

Source:

Borealis

Euratex
24.06.2022

EURATEX’s ReHubs initiative: Fiber-to-fiber recycling

The ReHubs initiative brings together key European and world players to solve the European textile waste problem by transforming “waste” into a resource, and to boost textile circular business model at large scale.

This collaboration is set to turn the societal textile waste issue into a business opportunity and to fulfil the EU ambitions of the Green Deal, of the mandatory texile waste collection by end 2024 and the transition into Circular Economy.

In 2020 EURATEX launched the ReHubs initiative to promote collaboration across the extended textile value chain and considering all perspectives on chemicals, fibers making, textiles making, garments production, retail and distribution, textiles waste collection, sorting and recycling.

In June 2022 ReHubs completes a Techno Economic master Study (TES) which researches critical information on the feedstock (textile waste) data, on technology, organizational and financial needs to recycle 2.5 million tons of textile waste by 2030 and to effectively launch the ReHubs.

The ReHubs initiative brings together key European and world players to solve the European textile waste problem by transforming “waste” into a resource, and to boost textile circular business model at large scale.

This collaboration is set to turn the societal textile waste issue into a business opportunity and to fulfil the EU ambitions of the Green Deal, of the mandatory texile waste collection by end 2024 and the transition into Circular Economy.

In 2020 EURATEX launched the ReHubs initiative to promote collaboration across the extended textile value chain and considering all perspectives on chemicals, fibers making, textiles making, garments production, retail and distribution, textiles waste collection, sorting and recycling.

In June 2022 ReHubs completes a Techno Economic master Study (TES) which researches critical information on the feedstock (textile waste) data, on technology, organizational and financial needs to recycle 2.5 million tons of textile waste by 2030 and to effectively launch the ReHubs.

EURATEX’s ReHubs initiative plans to pursue fiber-to-fiber recycling for 2.5 million tons of textile waste by 2030
According ReHubs Techno Economic Master Study (TES), the textile recycling industry could generate in Europe around 15,000 direct new jobs by 2030, and increase need for nearshoring and reshoring of textile manufacturing.

The textile recycling industry in Europe could reach economic, social and environmental benefits for €3.5 billion to €4.5 billion by 2030
“Transform Waste into Feedstock” announced as first project supported by the ReHubs, and aiming at building up a first 50,000 tons capacity facility by 2024.

Europe has a 7-7.5 million tons textile waste problem, of which only 30-35% is collected today.  

Based on the ambitious European Waste law, all EU Member States must separately collect the textile waste in 2 years and half. While some countries are designing schemes to face the waste collection challenge, currently no large-scale plan exist to process the waste.

The largest source of textile waste (85%) comes from private households and approximately 99% of the textile waste was made using virgin fibers.

Euratex  assesses that to reach a fiber-to-fiber recycling rate of around 18 to 26 percent by 2030, a capital expenditure investment in the range of 6 billion € to 7 billion € will be needed, particularly to scale up sufficient sorting and processing infrastructure. The economic, social, and environmental value which could be realized, potentially total an annual impact of €3.5-4.5 billion by 2030.

Once matured and scaled, the textile recycling industry could become a profitable industry with a total market size of 6-8 billion € and around 15,000 direct new jobs by 2030.

Next steps of the ReHubs initiative

  • A European textile recycling roadmap proposing Objectives and Key Results to recycle fiber-to-fiber 2.5 million of textile waste by 2030
  • A leading collaboration hub with large players and SMEs from across an extended European textile recycling value chain
  • A first concrete portfolio of 4 launching projects:
    - Transform textile waste into feedstock
    - Increase the adoption of mechanically recycled fibers in the value chain
    - Expand capacity by solving technical challenges for thermo-mechanical textiles recycling
    - Create capsule collection with post-consumer recycled products

The 1st project addresses current sorting technologies which have limits to identify materials with sufficient accuracy for the subsequent circular recycling processes. The “Transform Waste into Feedstock” project will focus on further developing and scaling such sorting technologies. The project group led by Texaid AG aims on building up a first 50,000 tons facility by the end 2024.

Source:

Euratex

22.06.2022

EREMA: POWERFIL presents new laserfilter

POWERFIL, a business unit of recycling machine manufacturer EREMA GmbH, presents its 2/406 laserfilter.

"For applications with a focus on melt quality and filtration fineness, this increase in screen area ensures lower pressure and temperature at the same throughput rate, allowing even finer screens to be used for even better results in quality-intensive plastics applications," explains Robert Obermayr, Head of Business Unit POWERFIL, EREMA GmbH. If the throughput capacity of the recycling plant needs to be increased, a significantly higher rate of plastic melt can be filtered while maintaining the other parameters thanks to the larger surface area of the screen. Up to 9,000 kilogrammes of melt can be filtered per hour with the Quattro version of the new LF 406 laserfilter.

POWERFIL, a business unit of recycling machine manufacturer EREMA GmbH, presents its 2/406 laserfilter.

"For applications with a focus on melt quality and filtration fineness, this increase in screen area ensures lower pressure and temperature at the same throughput rate, allowing even finer screens to be used for even better results in quality-intensive plastics applications," explains Robert Obermayr, Head of Business Unit POWERFIL, EREMA GmbH. If the throughput capacity of the recycling plant needs to be increased, a significantly higher rate of plastic melt can be filtered while maintaining the other parameters thanks to the larger surface area of the screen. Up to 9,000 kilogrammes of melt can be filtered per hour with the Quattro version of the new LF 406 laserfilter.

"Plastic recycling has become a must-have, even for input streams with higher levels of contamination. Efficient filtration systems are therefore indispensable for achieving the specified melt quality using existing extrusion systems," says Obermayr. That is why POWERFIL also offers the proven EREMA melt filters as individual components for existing EREMA machines and third-party extrusion systems. The product range includes the SW RTF partial area backflush system and the laserfilter. The range is aimed at manufacturers as well as recyclers, because the high-performance filters can be used to process post consumer plastics as well as post industrial films with paper labels and clean PET material. Both types of filter are particularly easy to integrate into an existing recycling plant and both are available in numerous sizes and variations. Whether the customer uses the robust backflush filter or the continuous high-performance laserfilter depends on the throughput and level of contamination of the material. The Laserfilter is ideal for heavy contamination. It handles impurity levels up to 5 percent and filtration as fine as 70 μm while continuously cleaning the screen with a scraper.

POWERFIL will also present the new 2/406 laserfilter and the full range of filters at the K 2022 trade fair stand for the EREMA Group.

More information:
EREMA Recycling plastics
Source:

EREMA Group GmbH

(c) Freudenberg Performance Materials Holding SE & Co. KG
21.06.2022

Freudenberg endorses further products with ECO-CHECK label

Freudenberg Performance Materials (Freudenberg) is endorsing further sustainable products with its ECO-CHECK label introduced last year. These products comply with various environmental criteria. With immediate effect, five more solutions bear the label making the company’s commitment to sustainability visible.

Leather goods
The newly-endorsed ECO-CHECK products include one Evolon® microfilament textile application. This is a reinforcement material for leather goods that is manufactured with no solvent and no binder. It contains up to 80 percent recycled PET and is suitable for a broad range of applications. The material is produced at Freudenberg’s facility in Colmar, France, where the manufacturing process is highly sustainable: it is certified to STeP by OEKO-TEX® and fully complies with the DETOX TO ZERO by OEKO-TEX® criteria.

Freudenberg Performance Materials (Freudenberg) is endorsing further sustainable products with its ECO-CHECK label introduced last year. These products comply with various environmental criteria. With immediate effect, five more solutions bear the label making the company’s commitment to sustainability visible.

Leather goods
The newly-endorsed ECO-CHECK products include one Evolon® microfilament textile application. This is a reinforcement material for leather goods that is manufactured with no solvent and no binder. It contains up to 80 percent recycled PET and is suitable for a broad range of applications. The material is produced at Freudenberg’s facility in Colmar, France, where the manufacturing process is highly sustainable: it is certified to STeP by OEKO-TEX® and fully complies with the DETOX TO ZERO by OEKO-TEX® criteria.

Healthcare applications
In the field of healthcare, the bio-based M 1714 wound pad with superior absorption for more challenging wounds has now been endorsed with the ECO-CHECK label. The dressing consists of a mix of bio-based fibers derived from natural sources and exhibits a smooth wound contact layer. The product has been evaluated for industrial compostability and conforms to ISO 13432.

Architectural applications
The sustainable TF 400 Eco F mesh fabric for textile architecture from Mehler Texnologies® now also bears the ECO-CHECK label. Its yarn is made of 100% recycled PET bottles and its characteristics are very similar to those of conventional mesh fabrics. In 2021, it was awarded first place by the Architectural Membrane Association (AMA) in the “product” category in recognition of its properties.

Shoes
In the shoe industry, the binder-free strobel insoles have been endorsed as particularly sustainable. They contain a high percentage of recycled green bottle flakes. Moreover, the insoles themselves are fully recyclable.

Filtration applications
The two layered, needle-punched nonwoven filter medium that has just been endorsed with the ECO-CHECK label has impressive sustainability characteristics. Made entirely of polyester, more than half the fibers consist of recycled material.

Source:

Freudenberg Performance Materials Holding SE & Co. KG

Texaid
15.06.2022

TEXAID supports the Swiss textile recycling ecosystem with professional collecting and sorting of textiles

TEXAID as a professional collector and sorter with roots in Switzerland contributes to this ecosystem to enable the textile-to-textile recycling.  The creation of Swiss Textile Recycling Ecosystem marks a key milestone in the upscaling of Worn Again Technologies’ recycling process technology with technology scale-up partner Sulzer Chemtech in Winterthur. It also supports its ambition to create a circular economy where non-reusable, hard-to-recycle textiles can be reintroduced into supply chains to become new fibers.

To cause a paradigm shift in the fashion industry and realize true circularity requires all members of the value chain to be on the same page and working towards the same goals. The Swiss Textile Recycling Ecosystem is a network comprising fabric and textile manufacturers, waste collectors and sorters, as well as retailers, brand owners and technology providers – all coordinated by Swiss Textiles. All these parties will cooperate to make their shared vision of a more sustainable fashion industry a reality, where used textiles can be recycled into new textiles.

TEXAID as a professional collector and sorter with roots in Switzerland contributes to this ecosystem to enable the textile-to-textile recycling.  The creation of Swiss Textile Recycling Ecosystem marks a key milestone in the upscaling of Worn Again Technologies’ recycling process technology with technology scale-up partner Sulzer Chemtech in Winterthur. It also supports its ambition to create a circular economy where non-reusable, hard-to-recycle textiles can be reintroduced into supply chains to become new fibers.

To cause a paradigm shift in the fashion industry and realize true circularity requires all members of the value chain to be on the same page and working towards the same goals. The Swiss Textile Recycling Ecosystem is a network comprising fabric and textile manufacturers, waste collectors and sorters, as well as retailers, brand owners and technology providers – all coordinated by Swiss Textiles. All these parties will cooperate to make their shared vision of a more sustainable fashion industry a reality, where used textiles can be recycled into new textiles.

TEXAID as a stakeholder in the Swiss Textile Recycling Ecosystem and as leading textile recycling company with over 40 years of experience will support the initiative through collecting, sorting, pre-processing and providing pre- and post-consumer feedstock to the Demonstration Plant. At its headquarters in Schattdorf (CH), TEXAID will investigate possibilities to automate the sorting and pre-processing of textile feedstock for recycling. Currently, TEXAID processes more than 80,000 tons of end-of-use textiles and footwear every year all over Europe and the US.

More information:
Texaid Sulzer textile recycling
Source:

Texaid

(c) ISKO
10.06.2022

ISKO™ purchased new weaving machines by Itema

With the purchase of the latest technology, iSAVER® by Itema, in weaving machines, ISKO pushes the envelope of technological performance and sustainability, making further progress in product and process efficiency.

This decision is an additional, important asset in ISKO’s journey towards a genuine Responsible Innovation™. It is part of other crucial investments made by the company, aimed at further reducing its environmental impact, among which stand out R-TWO™50+ – a new denim generation made with a minimum of 50% pre- and post-consumer recycled blend – and the Green Machine – a pioneering technology providing a 100% post-consumer recycling solution that fully separates and recycles cotton and polyester blends at scale.

After an intensive process, a selection was made where ISKO focuses on the development of technical solutions that enable greater resource savings and more sustainable production methods, always with the protection of workers at heart.

With the purchase of the latest technology, iSAVER® by Itema, in weaving machines, ISKO pushes the envelope of technological performance and sustainability, making further progress in product and process efficiency.

This decision is an additional, important asset in ISKO’s journey towards a genuine Responsible Innovation™. It is part of other crucial investments made by the company, aimed at further reducing its environmental impact, among which stand out R-TWO™50+ – a new denim generation made with a minimum of 50% pre- and post-consumer recycled blend – and the Green Machine – a pioneering technology providing a 100% post-consumer recycling solution that fully separates and recycles cotton and polyester blends at scale.

After an intensive process, a selection was made where ISKO focuses on the development of technical solutions that enable greater resource savings and more sustainable production methods, always with the protection of workers at heart.

As a result, ISKO’s Headquarters extend the company's long-term relationship with Itema,
strengthening the company’s position as the mill with one of the world’s largest denim capacities. The new rapier machines are enhanced by the iSAVER® technology, a breakthrough mechatronic innovation that eliminates the waste selvedge on the left side of the fabric, allowing for saving in energy and raw materials, cutting in half the cotton waste that typically results from the weft yarn. All types of ISKO’s innovative fabrics, with a multitude of different constructions and fiber mixtures, can now be produced using these advanced weaving technologies, with a special focus given to the R-TWO™ technology in terms of its sustainable credentials.

More information:
Isko Itema weaving machine
Source:

ISKO / Menabò Group srl

Thermore launches EVOdown® made of recycled fibers (c) Thermore
09.06.2022

Thermore launches EVOdown® made of recycled fibers

Thermore launches its new product EVOdown®, made of 100% recycled fibers from PET bottles. Thermore EVOdown® bridges the gap between free fibers and traditional padding, delivering the ultra-soft hand and drape of blow-in fibers in a rolled form.

EVOdown® consists of millions of free fibers encapsulated by two containing outer layers. It is light-weighted and has a silky touch.

EVOdown® is another step towards sustainability for the Milan-based company, which has now converted over 97% of its turnover into insulations made of either fully or partially recycled fibers (based on actual sales figures). This brings Thermore closer to an exclusively sustainable product offer. Sustainability has always been part of Thermore’s DNA, as the Group pioneered the use of recycled fibers in the early 80s and mastered it thereafter.

Thermore launches its new product EVOdown®, made of 100% recycled fibers from PET bottles. Thermore EVOdown® bridges the gap between free fibers and traditional padding, delivering the ultra-soft hand and drape of blow-in fibers in a rolled form.

EVOdown® consists of millions of free fibers encapsulated by two containing outer layers. It is light-weighted and has a silky touch.

EVOdown® is another step towards sustainability for the Milan-based company, which has now converted over 97% of its turnover into insulations made of either fully or partially recycled fibers (based on actual sales figures). This brings Thermore closer to an exclusively sustainable product offer. Sustainability has always been part of Thermore’s DNA, as the Group pioneered the use of recycled fibers in the early 80s and mastered it thereafter.

More information:
Thermore Down Fibers plastics Recycling
Source:

Thermore

Photo: Texaid
07.06.2022

TEXAID enables Textile-to-Textile Recycling

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. After two years of development, the company has developed a fabric including 50 % of post-consumer textile waste from used clothing, collected and prepared for recycling by TEXAID.

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 invested in the textile-to-textile recycling and product development.

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. After two years of development, the company has developed a fabric including 50 % of post-consumer textile waste from used clothing, collected and prepared for recycling by TEXAID.

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 invested in the textile-to-textile recycling and product development.

Collaboration enables recycling
After two years of research, product development, and most important, building partnerships in the value chain, TEXAID has been able to develop a fabric made of 100 % recycled fiber in close collaboration with our value chain partners.

The fabric is a blend of 50 % post-consumer textile waste that TEXAID has collected in Germany and Switzerland. White cotton textiles which cannot be worn, have been sorted out in a sorting facility in Apolda, Germany. The other 50% is made from ocean-bound plastic waste which is plastic with a high risk of entering the ocean which has been saved and recycled by Unifi. The fabric and bag have been produced in Italy. The cotton material has been shredded by Marchi & Fildi in Biella, IT, who then spun the recycled cotton and recycled polyester fibers into a yarn. This yarn has been woven into a fabric by Tessitura Casoni.T.F.C.

Through this proof of concept, it has been showcased that making fabrics of 100 % recycled content and with 50 % of post-consumer textiles is possible. TEXAID is looking for strong industry partners to push high-value textile to textile recycling technologies in joint projects like these.

More information:
Texaid Recycling
Source:

Texaid

07.06.2022

EPTA World Pultrusion Conference 2022 explores composites sustainability

The European Pultrusion Technology Association (EPTA) has published a report from its latest conference, which focuses on advances in sustainability and recycling.

More than 130 professionals from the global pultrusion community gathered at the 16th World Pultrusion Conference in Paris on 5-6 May 2022. Organised by EPTA in collaboration with the American Composites Manufacturers Association (ACMA), the event featured 25 international speakers sharing insight on market trends, developments in materials, processing and simulation technologies, and innovative pultruded applications in key markets such as building and infrastructure, transportation and wind energy.

The European Pultrusion Technology Association (EPTA) has published a report from its latest conference, which focuses on advances in sustainability and recycling.

More than 130 professionals from the global pultrusion community gathered at the 16th World Pultrusion Conference in Paris on 5-6 May 2022. Organised by EPTA in collaboration with the American Composites Manufacturers Association (ACMA), the event featured 25 international speakers sharing insight on market trends, developments in materials, processing and simulation technologies, and innovative pultruded applications in key markets such as building and infrastructure, transportation and wind energy.

‘Bio-pultrusion’:  
Composites based on natural fibres offer a number of benefits, including low density and high specific strength, vibration damping, and heat insulation. The German Institutes for Textile and Fiber Research Denkendorf (DITF) are developing pultrusion processes using bio-based resins and natural fibres. Projects include the BioMat Pavilion at the University of Stuttgart, a lightweight structure which combines ‘bamboo-like’ natural fibre-based pultruded profiles with a tensile membrane.

Applications for recycled carbon fibre (rCF):
The use of rCF in composite components has the potential to reduce their cost and carbon footprint. However, it is currently used to a limited extent since manufacturers are uncertain about the technical performance of available rCF products, how to process them, and the actual benefits achievable. Fraunhofer IGCV is partnering with the Institute for Textile Technology (ITA) in the MAI ÖkoCaP project to investigate the technical, ecological and economic benefits of using rCF in different industrial applications. The results will be made available in a web-based app.

Circularity and recycling:
The European Composites Industry Association (EuCIA) is drafting a circularity roadmap for the composites industry. It has collaborated with the European Cement Association (CEMBUREAU) on a position paper for the EU Commission’s Joint Research Centre (JRC) which outlines the benefits of co-processing end-of-life composites in cement manufacturing, a recycling solution that is compliant with the EU’s Waste Framework Directive and in commercial operation in Germany. Initial studies have indicated that co-processing with composites has the potential to reduce the global warming impact of cement manufacture by up to 16%. Technologies to allow recovery of fibre and/or resin from composites are in development but a better understanding of the life cycle assessment (LCA) impact of these processes is essential. EuCIA’s ‘circularity waterfall,’ a proposed priority system for composites circularity, highlights the continued need for co-processing.

Sustainability along the value chain:
Sustainability is essential for the long-term viability of businesses. Resin manufacturer AOC’s actions to improve sustainability include programmes to reduce energy, waste and greenhouse gas emissions from operations, the development of ‘greener’ and low VOC emission resins, ensuring compliance with chemicals legislation such as REACH, and involvement in EuCIA’s waste management initiatives. Its sustainable resins portfolio includes styrene-free and low-styrene formulations and products manufactured using bio-based raw materials and recycled PET.

Source:

European Pultrusion Technology Association EPTA

(c) Mario Stumpf/Sascha Priesters
01.06.2022

Neonyt zeigt progressive Looks unter dem Motto „Biosphere-Technosphere“

Mode inspiriert von Natur und Technologie: In einer exklusiven Fashion Show am 23. Juni 2022 zeigt die Neonyt gemeinsam mit Presenting Partner Dr. Hauschka progressive und trendweisende Looks unter dem Motto „Biosphere-Technosphere“ im Atelier Lihotzky im Frankfurter Ostend.

Der Fokus liegt damit auf der Verbindung der Natur mit den Elementen Wasser, Luft und Erde mit allem, was die Menschen erschaffen – von Infrastruktur über Architektur, die industrielle Landwirtschaft und die digitale Welt. Die Kombination dieser scheinbar kontroversen Themen spannt den Bogen zu unserem gegenwärtigen Erdzeitalter, dem Anthropozän, in dem der Mensch zu einem der wichtigsten Einflussfaktoren auf die biologischen, geologischen und atmosphärischen Vorgänge auf der Erde geworden ist.

Mode inspiriert von Natur und Technologie: In einer exklusiven Fashion Show am 23. Juni 2022 zeigt die Neonyt gemeinsam mit Presenting Partner Dr. Hauschka progressive und trendweisende Looks unter dem Motto „Biosphere-Technosphere“ im Atelier Lihotzky im Frankfurter Ostend.

Der Fokus liegt damit auf der Verbindung der Natur mit den Elementen Wasser, Luft und Erde mit allem, was die Menschen erschaffen – von Infrastruktur über Architektur, die industrielle Landwirtschaft und die digitale Welt. Die Kombination dieser scheinbar kontroversen Themen spannt den Bogen zu unserem gegenwärtigen Erdzeitalter, dem Anthropozän, in dem der Mensch zu einem der wichtigsten Einflussfaktoren auf die biologischen, geologischen und atmosphärischen Vorgänge auf der Erde geworden ist.

Natur vs. Technik
Bei der Neonyt Fashion Show werden verschiedene Multibrand-Looks inszeniert – von kleinen unabhängigen Brands und Newcomer-Labeln über international etablierte Marken bis hin zu Designerstücken, kuratiert von der Stylistin Claudia Hofmann. Der Themenkomplex Biosphere präsentiert Mode und Textilien in Anlehnung an die Natur und ihre Elemente, Technosphere spiegelt die Themen Kreislaufwirtschaft und Recycling.

Das Beste aus beiden Welten
Unter dem Titel „Biosphere-Technosphere“ werden in der Neonyt Fashion Show Themen verbunden, die auf den ersten Blick gegensätzlich scheinen und damit Fragen aufwerfen. Das Publikum wird dazu eingeladen, sich auf eine Reise zu begeben, in der die Natur der Erde, ihre Elemente und die daraus resultierenden regenerativen Ansätze mit Ideen der digitalen Welt kombiniert werden, sodass daraus neue Dimensionen und vernetzte Systeme entstehen – für eine Revolution der Modebranche. Das Event wird gemeinsam mit Naturkosmetik-Brand und Presenting Partner Dr. Hauschka umgesetzt. Die Creative Direction liegt bei studio MM04.

Frankfurt Fashion Week – shows sustainable Fashion, Design & Art
In der Woche vom 20. bis 26. Juni 2022 steht die Stadt Frankfurt am Main ganz unter dem Zeichen von sustainable Fashion, Design & Art. Im gesamten Stadtgebiet finden unter der Dachmarke Frankfurt Fashion Week zahlreiche Veranstaltungen statt. Ausstellungen, Fashion Shows, Talks, Präsentationen und Open Studios laden alle interessierten Bürger*innen ein, Mode und alle Themen rund um nachhaltiges Design zu erkunden und zu erleben. Die Dachmarke Frankfurt Fashion Week bietet damit gleichzeitig eine Marketingplattform für die regionale Fashion- & Designszene sowie Kultur- und Kreativwirtschaft. Parallel zur Frankfurt Fashion Week organisiert die Messe Frankfurt das Neonyt Lab vom 24. bis 26. Juni 2022 in der Union Halle, das sich an Nachhaltigkeit interessierte Konsument*innen und Modeprofis richtet. Darüber hinaus bündelt die Messe Frankfurt vom 21. bis 24.Juni 2022 die global ausgerichteten B2B-Veranstaltungen Techtextil, Texprocess und Heimtextil Summer Special, die für die internationale Fashion- und Livingbranche relevante Themen besonders herausstellt.

Das Neonyt Lab findet vom 24. bis 26. Juni 2022 in der Union Halle in Frankfurt am Main statt.

Source:

Messe Frankfurt Exhibition GmbH

(c) adidas AG
Felix Auger-Aliassime
30.05.2022

adidas commitment to end plastic waste with SS22 Tennis Collection

adidas launches its SS22 Tennis Collection, a high-performance tennis apparel line featuring graphics inspired by Paris’ botanical gardens and green spaces, garments in the collection were made either in part with Parley Ocean Plastic or in part with recycled content.

Launching ahead of the most prominent clay court tournament of the summer, the SS22 Tennis Collection is being premiered on court by adidas next-gen athletes, Elena Rybakina and Felix Auger-Aliassime, alongside Maria Sakkari, Dominic Thiem and Stefanos Tsitsipas who all share a passion for championing sustainability and working together towards a better future for our planet.

From Insight to Action
The SS22 Tennis Collection is another step adidas is taking on its journey to help end plastic waste, and its athletes are sharing this commitment. For adidas athletes, what they wear on the court is not only performance attire but an expression of their personal style and beliefs.

adidas launches its SS22 Tennis Collection, a high-performance tennis apparel line featuring graphics inspired by Paris’ botanical gardens and green spaces, garments in the collection were made either in part with Parley Ocean Plastic or in part with recycled content.

Launching ahead of the most prominent clay court tournament of the summer, the SS22 Tennis Collection is being premiered on court by adidas next-gen athletes, Elena Rybakina and Felix Auger-Aliassime, alongside Maria Sakkari, Dominic Thiem and Stefanos Tsitsipas who all share a passion for championing sustainability and working together towards a better future for our planet.

From Insight to Action
The SS22 Tennis Collection is another step adidas is taking on its journey to help end plastic waste, and its athletes are sharing this commitment. For adidas athletes, what they wear on the court is not only performance attire but an expression of their personal style and beliefs.

Felix Auger-Aliassime, elite tennis player, commented: "I'm part of a generation of players who care about having an impact on and off the court. When I think about the future, it's not just about my future as a tennis player, but also about the future of the planet. . That's why I wear the new adidas SS22 collection made in part with Parley Ocean Plastic or in part with recycled materials – to send a message that we can all do our part by helping to end plastic waste.“

Fashion-foward Performance
The SS22 Tennis Collection is designed to be bold yet fully functional on court. Each garment features HEAT.RDY technology which is designed to keep players feeling cool, dry and confident as they take on their next challenge.

The Collection features two dresses, tank tops, long sleeve tees and a match skirt for female players. For male players, the collection consists of two tees, a sleeveless tee, a polo tee, a TECHFIT long sleeve top and two different types of shorts.

It is available in a number of different bold graphic prints, all inspired by the Serres d'Auteuil botanical garden. The prominent colors of the collection are black and white.

Source:

adidas AG

20.05.2022

SOEX: Sortierstation mit Materialerkennung für Faser-zu-Faser-Recycling

SOEX hat eine Infrarot-Sortierstation mit Material- und Farberkennung im Werk in Wolfen in Betrieb genommen. Durch das exakte Sortieren nach Materialien will SOEX weiterhin einen Schwerpunkt auf das Sortieren für Recycling setzen und die Recyclingquote gemeinsam mit der Modebranche erhöhen.

Eine künstliche Intelligenz erkennt die einzelnen Kleidungsstücke und kann sie nach Materialien oder Farben sortieren, um sie für das chemische Recycling vorzusortieren. Mittels dieser Technologie können Materialien genauer als zuvor bestimmt werden, sodass die sortierte Kleidung recycelt und wieder zu Garn verarbeitet werden kann.

Diese Art der vollautomatischen exakten Sortierung sei bisher noch keinem geglückt, so SOEX-Geschäftsführer Walter J. Thomsen. Mittels der automatischen Sortierstation kann SOEX die Sortierung an alle kundenspezifischen Anfragen der Recycler anpassen, die meist Recyclingverfahren für bestimmte Materialien oder Materialzusammensetzungen entwickelt haben. 1.600 Teile schafft die Sortierstation pro Stunde, das sind ca. 600 kg Kleidung.

SOEX hat eine Infrarot-Sortierstation mit Material- und Farberkennung im Werk in Wolfen in Betrieb genommen. Durch das exakte Sortieren nach Materialien will SOEX weiterhin einen Schwerpunkt auf das Sortieren für Recycling setzen und die Recyclingquote gemeinsam mit der Modebranche erhöhen.

Eine künstliche Intelligenz erkennt die einzelnen Kleidungsstücke und kann sie nach Materialien oder Farben sortieren, um sie für das chemische Recycling vorzusortieren. Mittels dieser Technologie können Materialien genauer als zuvor bestimmt werden, sodass die sortierte Kleidung recycelt und wieder zu Garn verarbeitet werden kann.

Diese Art der vollautomatischen exakten Sortierung sei bisher noch keinem geglückt, so SOEX-Geschäftsführer Walter J. Thomsen. Mittels der automatischen Sortierstation kann SOEX die Sortierung an alle kundenspezifischen Anfragen der Recycler anpassen, die meist Recyclingverfahren für bestimmte Materialien oder Materialzusammensetzungen entwickelt haben. 1.600 Teile schafft die Sortierstation pro Stunde, das sind ca. 600 kg Kleidung.

Aktuell werden noch weniger als 1 Prozent aller Kleidungsstücke weltweit zu neuer Kleidung recycelt. Für das Faser-zu-Faser-Recycling müssen die Textilien sehr genau sortiert werden, nur so kann aus den aussortierten Kleidern wieder neue Mode entstehen. Denn unterschiedliche Fasern erfordern unterschiedliche Recyclingverfahren. Die Sortierung nach Materialien stellte die Branche bisher vor besondere Herausforderungen.

„Wir haben viele großartige Kollegen, die sehen und fühlen können, aus welchem Material die Kleidung besteht, die sie sortieren. Aber nicht zu 100 Prozent“, sagt Thomsen. Die Pflegeetiketten mit Angaben über die Materialzusammensetzung sind meist ungenau: 15 Prozent unbekannte Fasern dürfen angegeben werden und erst bei einem Anteil von 5 Prozent müssen die Materialien auf dem Etikett stehen. Häufig sind sie ausgewaschen oder abgeschnitten, all das erschwert die Arbeit der Sortierer im Werk, die nun durch die neue Sortierstation erleichtert werden soll.

78 Materialien und Materialkombinationen können von der KI erkannt werden. Die Messgenauigkeit liegt bei über 95 Prozent. Die Materialauswahl kann daher aus einer komplexen Anzahl verschiedener Mischungen bestehen – bisher gab es noch keine skalierbaren Technologien, mit denen sich diese erkennen und für das Recycling sortieren lassen. Das soll sich nun durch die neue Infrarot-Sortierstation im SOEX Werk ändern. Bis Ende des Jahres soll die Maschinenleistung verdoppelt werden, so könnten pro Stunde 3.000 Kleidungsstücke nach 15 Kriterien sortiert werden. Erste Gespräche mit internationalen Bekleidungsherstellern, die die Sortierstation in Wolfen nutzen wollen, finden bereits statt.

Source:

Soex