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Online session “Redefining Textile Waste Sorting: Impulses and findings for the future of next-gen sorting facilities” Graphic Texaid
27.11.2023

Redefining textile waste sorting

To meet future demands on the amount of textile waste which needs to be collected and sorted, as well as the demand on recycling feedstock, it is necessary to match the demand and need for sorting of waste in Europe and create cost efficiency sorting capacities with larger scale and automation are necessary.

In an online session “Redefining Textile Waste Sorting: Impulses and findings for the future of next-gen sorting facilities” Texaid and partners talk about the current state of development and the challenges for the future.  Anna Pehrsson (Texaid), Gesine Köppe (ITA Augsburg GmbH) and partners present the results of a Technology Assessment conducted within The Transform Textile Waste into Feedstock Project (initiated by TEXAID within the ReHubs initiative) to assess the best available sorting techniques and process.

Details:  
December 4th 2023
12:30-13:30pm   
Online
For registration follow the link.

To meet future demands on the amount of textile waste which needs to be collected and sorted, as well as the demand on recycling feedstock, it is necessary to match the demand and need for sorting of waste in Europe and create cost efficiency sorting capacities with larger scale and automation are necessary.

In an online session “Redefining Textile Waste Sorting: Impulses and findings for the future of next-gen sorting facilities” Texaid and partners talk about the current state of development and the challenges for the future.  Anna Pehrsson (Texaid), Gesine Köppe (ITA Augsburg GmbH) and partners present the results of a Technology Assessment conducted within The Transform Textile Waste into Feedstock Project (initiated by TEXAID within the ReHubs initiative) to assess the best available sorting techniques and process.

Details:  
December 4th 2023
12:30-13:30pm   
Online
For registration follow the link.

Source:

Texaid

22.11.2023

Re:NewCell initiates a strategic review

Re:NewCell AB (publ) has created a patented process for 100% textile-to-textile recycling and has invested over SEK 1,300 million to establish an innovative and efficient textile recycling plant. The industrial scale plant in Ortviken currently has a capacity to produce up to 60,000 tonnes on an annual basis.

As communicated on 12 October, the Company has experienced lower than anticipated sales volumes to fiber producers in the third quarter and as communicated on 1 November and 7 November, the Company had low sales volumes in October. In addition, sales volumes in November are now expected to be lower than previously anticipated and in line with October sales volume. Discussions are ongoing with a number of customers to secure orders, but it is uncertain when they will materialise.

Re:NewCell AB (publ) has created a patented process for 100% textile-to-textile recycling and has invested over SEK 1,300 million to establish an innovative and efficient textile recycling plant. The industrial scale plant in Ortviken currently has a capacity to produce up to 60,000 tonnes on an annual basis.

As communicated on 12 October, the Company has experienced lower than anticipated sales volumes to fiber producers in the third quarter and as communicated on 1 November and 7 November, the Company had low sales volumes in October. In addition, sales volumes in November are now expected to be lower than previously anticipated and in line with October sales volume. Discussions are ongoing with a number of customers to secure orders, but it is uncertain when they will materialise.

Therefore, Re:NewCell hereby announces that its Board of Directors has decided to immediately initiate a strategic review to explore and evaluate various funding alternatives. As part of this process, the Board of Directors will consider all potential alternatives to secure funding and optimise shareholder value. Such alternatives may include additional debt funding, equity injection through the form of a rights issue, equity injection through a directed issue targeted to a financial or strategic investor or other possible strategic transactions.
The Board of Directors has retained ABG Sundal Collier as financial advisor to assist in its review of alternatives. Vinge has been appointed as legal advisor in connection with the review process.

The Board of Directors has not set a timetable for completion of its review, but the process will be initiated immediately. Subject to compliance with its ongoing disclosure obligations pursuant to applicable laws and regulations, Re:NewCell undertakes no obligation to make any further announcements regarding the strategic review until a final decision is made by the Company’s Board of Directors.

Source:

Re:NewCell AB (publ)

Fußballstadion Bild von Pexels auf Pixabay
20.11.2023

University of Manchester academics criticising UK government

Sustainable fashion and sportswear must be high on the political agenda:
Three University of Manchester academics who specialise in fashion and textiles have criticised the Government for failing to take action to boost sustainability in the UK fashion and sportswear industries.

In an article published by the University’s policy engagement unit Policy@Manchester to coincide with the 20th annual Recycle Week, Lindsay Pressdee, Dr Amy Benstead and Dr Jo Conlon highlight that, of the one million tonnes of textiles disposed of every year in this country, 300,000 tonnes end up in landfill or incineration with figures suggesting 10 per cent of global CO2 emissions may come from the fashion industry.

And they warn that the damage inflicted by discarded sportswear is often overlooked, “despite an over-reliance on polyester garments, which are harmful to the environment as the fabric releases microfibres and takes hundreds of years to fully biodegrade.”

Sustainable fashion and sportswear must be high on the political agenda:
Three University of Manchester academics who specialise in fashion and textiles have criticised the Government for failing to take action to boost sustainability in the UK fashion and sportswear industries.

In an article published by the University’s policy engagement unit Policy@Manchester to coincide with the 20th annual Recycle Week, Lindsay Pressdee, Dr Amy Benstead and Dr Jo Conlon highlight that, of the one million tonnes of textiles disposed of every year in this country, 300,000 tonnes end up in landfill or incineration with figures suggesting 10 per cent of global CO2 emissions may come from the fashion industry.

And they warn that the damage inflicted by discarded sportswear is often overlooked, “despite an over-reliance on polyester garments, which are harmful to the environment as the fabric releases microfibres and takes hundreds of years to fully biodegrade.”

Pressdee, Benstead and Conlon stress the importance of establishing “sustainable behaviour throughout the supply chain” and praise the European Commission for proposing an “extended producer responsibility (EPR)” for textiles in the EU which “aims to create appropriate incentives to encourage producers to design products that have a reduced environmental impact at the end of their life.”

This contrasts with the UK where, they argue, “tackling sustainability in the fashion industry has lost its place on the political agenda.”

"We are calling on the Government to reintroduce textiles as part of the school curriculum to engage young people in sustainable materials and equip them with the basic skills required to repair clothes.”
Lindsay Pressdee, Dr Amy Benstead and Dr Jo Conlon

The University of Manchester academics contend that there has been “disappointing lack of progress from the UK Government” following the House of Commons Environmental Audit Committee’s Fixing Fashion report in 2019.

They continue: “This report included a call for the use of EPR as well as other important recommendations such as a ban on incinerating or landfilling unsold stock that can be reused or recycled and a tax system that shifts the balance of incentives in favour of reuse, repair and recycling to support responsible companies. We urge the Government to think again and drive forward the Committee’s recommendations in order to put sustainable fashion back on the political agenda.”

Pressdee, Benstead and Conlon also criticise Ministers for abolishing the standalone GCSE in textiles which provided many young people with the ability to mend clothing such as football kits instead of throwing them away.

They write: “We are therefore calling on the Government to reintroduce textiles as part of the school curriculum to engage young people in sustainable materials and equip them with the basic skills required to repair clothes.”

The University of Manchester has launched a new project dedicated to tackling the impact of textile waste in the football industry through the provision of workshops tasked with transforming surplus football shirts into unique reusable tote bags, whilst educating local communities on the environmental impacts of textile waste and how to extend the life of garments. The initiative aims to provide a fun, responsible way to keep kits in circulation while shining a light on the problem.

More information:
United Kingdom politics
Source:

University of Manchester

Dibella: Product launch at two London trade fairs (c) Dibella
17.11.2023

Dibella: Product launch at two London trade fairs

Dibella will present its circular bed linen “Versailles” at the Sustainable Design Summit and the Cruise Ship Interiors Design Expo in London. Dibella is thus once again underpinning its reputation as a pioneer in the field of sustainability.

The Bocholt-based company is presenting its new innovation for the first time at the Sustainable Design Summit on 28 November 2023 at the Museum of London Docklands. International visitors from the cruise, hotel and aviation sectors will have the opportunity to find out more about the first circular bed linen "Versailles".

At the subsequent Cruise Ship Interiors Design Expo from 29 to 30 November 2023 at ExCeL in London, Dibella will be exhibiting for the second time after a successful start in 2022. Under the motto "Almost too good to get out of bed", Dibella will be presenting its new innovation "Versailles", its multi-certified products, the company and its customised services and benefits.

Dibella will present its circular bed linen “Versailles” at the Sustainable Design Summit and the Cruise Ship Interiors Design Expo in London. Dibella is thus once again underpinning its reputation as a pioneer in the field of sustainability.

The Bocholt-based company is presenting its new innovation for the first time at the Sustainable Design Summit on 28 November 2023 at the Museum of London Docklands. International visitors from the cruise, hotel and aviation sectors will have the opportunity to find out more about the first circular bed linen "Versailles".

At the subsequent Cruise Ship Interiors Design Expo from 29 to 30 November 2023 at ExCeL in London, Dibella will be exhibiting for the second time after a successful start in 2022. Under the motto "Almost too good to get out of bed", Dibella will be presenting its new innovation "Versailles", its multi-certified products, the company and its customised services and benefits.

With "Versailles", Dibella is realising its vision of a closed-loop economy. The specialist for sustainable contract textiles has succeeded in recycling old, no longer usable bed linen into new fibres and weaving them into new bed linen.

Source:

Dibella GmbH

Carbios and L’Oréal win Pioneer Award for PET recycling solution Photo: Carbios
Emmanuel Ladent (CEO Carbios, on the left) and Jacques Playe (Packaging and Development Director at L’Oréal, on the right)
15.11.2023

Carbios and L’Oréal win Pioneer Award for PET recycling solution

Carbios and L’Oréal have won the “Pioneer Awards” in the Industry category, presented by the Solar Impulse Foundation at the first World Alliance Summit. This prize was awarded to Carbios for its enzymatic PET recycling solution, labeled “Efficient Solution” by the Solar Impulse Foundation since 2019, and to L’Oréal for using this technology for the first time in a cosmetics bottle prototype. Carbios’ solution offers brands an alternative to petro-sourced plastic that helps them meet their sustainability commitments. This advancement paves the way for future applications in other sectors such as packaging, food and beverage, and textiles.

Carbios and L’Oréal have won the “Pioneer Awards” in the Industry category, presented by the Solar Impulse Foundation at the first World Alliance Summit. This prize was awarded to Carbios for its enzymatic PET recycling solution, labeled “Efficient Solution” by the Solar Impulse Foundation since 2019, and to L’Oréal for using this technology for the first time in a cosmetics bottle prototype. Carbios’ solution offers brands an alternative to petro-sourced plastic that helps them meet their sustainability commitments. This advancement paves the way for future applications in other sectors such as packaging, food and beverage, and textiles.

Carbios and L’Oréal: a long-term collaboration
Since 2017, Carbios and L’Oréal have been working together with a shared vision of accelerating the transition to a circular economy for plastic. In 2017, both companies created a Consortium to improve the recyclability and circularity of PET packaging.  Nestlé Waters, PepsiCo and Suntory Beverage & Food Europe joined this Consortium in 2019 to scale up Carbios’ innovation. The world’s first enzymatically recycled PET packaging was made in 2021 using Carbios’ biorecycling process. The world’s first PET biorecycling plant is scheduled to be commissioned in 2025. In parallel, Carbios is rolling out its technology internationally through licensing agreements.

The environmental benefits of biorecycling developed by Carbios
Recent life-cycle analyses[1] show a 57% reduction in CO2 emissions compared with the production of virgin plastic[2], and for every tonne of recycled PET produced, 1.3 tonnes of petrol are avoided. Compared with conventional recycling, enzymatic recycling is 4 times more circular (calculated according to the Ellen MacArthur Foundation’s Material Circularity Indicator). Thanks to its highly selective enzyme, optimized for efficient PET degradation, Carbios’ depolymerization process can process all types of PET waste, including colored, multilayer or textile waste that cannot be recycled using current technologies. Furthermore, the two monomers produced (PTA and MEG) make it possible to recreate recycled PET products of identical quality to virgin ones, and suitable for food contact.
 
 
[1] Database ecoinvent 3.8
[2] French scenario, taking into account the detour of 50% of PET waste from conventional end-of-life. Virgin PET: 2.53 kg CO2/kg (cradle to gate)

Source:

Carbios

H&M and Coloreel: Personalized embroidery in Berlin store Photo: Coloreel
10.11.2023

H&M and Coloreel: Personalized embroidery in Berlin store

The global fashion retailer H&M has joined forces with Coloreel to introduce a pioneering approach to customized embroidery. This new partnership allows customers at the H&M Alexa store in Berlin to personalize their apparel with a myriad of expressive designs.

The program marks the start of a new and innovative in-store pilot developed by H&Mbeyond. Customers can select from a diverse library of designs that will be updated on a weekly basis.

Coloreel redefines the art of embroidery, offering an unlimited spectrum of colors at the touch of a button. The technology reduces wastewater by 97% and utilizes recycled thread, marking a significant step towards more sustainable production.

“Our partnership with Coloreel reflects our commitment to enhance the shopping experience through innovative solutions,” states Oliver Lange, Head of H&Mbeyond. “By embracing this advanced technology, we can offer our customers a unique and engaging store visit."

The global fashion retailer H&M has joined forces with Coloreel to introduce a pioneering approach to customized embroidery. This new partnership allows customers at the H&M Alexa store in Berlin to personalize their apparel with a myriad of expressive designs.

The program marks the start of a new and innovative in-store pilot developed by H&Mbeyond. Customers can select from a diverse library of designs that will be updated on a weekly basis.

Coloreel redefines the art of embroidery, offering an unlimited spectrum of colors at the touch of a button. The technology reduces wastewater by 97% and utilizes recycled thread, marking a significant step towards more sustainable production.

“Our partnership with Coloreel reflects our commitment to enhance the shopping experience through innovative solutions,” states Oliver Lange, Head of H&Mbeyond. “By embracing this advanced technology, we can offer our customers a unique and engaging store visit."

With the collaboration, H&M and Coloreel want to explore ways to create brick-and-mortar shopping experiences and analyze the influence that a technology like Coloreel’s has on in-store purchases.

The service is offered at the H&M Alexa store in Berlin during Q4 2023. While the service currently extends to products within the store, plans for embroidering customers’ own garments might be added later. This approach would extend the lifespan of garments, creating a positive environmental impact.

Source:

Coloreel

Lenzing and Södra win ITMF Award for cooperation in textile recycling (c) Lenzing AG/Leopold
Lenzing x Södra Project team
06.11.2023

Lenzing and Södra: ITMF Award for cooperation in textile recycling

  • Lenzing and Södra – a long-standing partnership for systemic change
  • International Textile Manufacturers Federation (ITMF) honored the two companies in the "International Cooperation" category
  • EU co-funded recycling project for textiles on an industrial scale

The Lenzing Group, the world’s leading supplier of specialty fibers for the textile and nonwovens industries, and the Swedish pulp producer Södra have received the ITMF Award 2023 in the category “International Cooperation” for their joint achievements in textile recycling and circular economy. The award was presented at the ITMF Annual Conference in Keqiao, China, on November 06, 2023.

  • Lenzing and Södra – a long-standing partnership for systemic change
  • International Textile Manufacturers Federation (ITMF) honored the two companies in the "International Cooperation" category
  • EU co-funded recycling project for textiles on an industrial scale

The Lenzing Group, the world’s leading supplier of specialty fibers for the textile and nonwovens industries, and the Swedish pulp producer Södra have received the ITMF Award 2023 in the category “International Cooperation” for their joint achievements in textile recycling and circular economy. The award was presented at the ITMF Annual Conference in Keqiao, China, on November 06, 2023.

The ITMF Award 2023 is given by the International Textile Manufacturers Federation (ITMF) to recognize outstanding achievements and merits in the textile sector in two categories: ”Sustainability & Innovation“ and ”International Cooperation“. Since 2021, the two pioneers have been joining forces in textile recycling, making a decisive contribution to promoting the circular economy in the fashion industry. As part of the cooperation, the companies intend to share their knowledge with each other and jointly develop processes to enable the wider use of cellulose-based used textiles on a commercial scale.

The OnceMore® pulp from Södra, which was jointly developed further by Södra and Lenzing, is subsequently used, among other things, as a raw material for the production of Lenzing fibers with REFIBRA™ technology. The OnceMore® process makes it possible to process and recycle a blend of cotton and polyester.

ITMF paid particular tribute to the joint LIFE TREATS project (Textile Recycling in Europe AT Scale)1,which was supported by an EU grant of EUR 10m under the LIFE 20222 program and aims to build a large-scale plant at Södra's Mörrum site in Sweden.

For more information on the ITMF Awards 2023, visit the ITMF website.

1 Project 101113614 — LIFE22-ENV-SE-TREATS
2 https://cinea.ec.europa.eu/programmes/life_en

Source:

Lenzing AG

Photo Carbios
26.10.2023

Carbios: Building and operating permits for world’s first PET biorecycling plant

Carbios  has been granted the building permit and operating authorization for the world’s first PET[1] biorecycling plant, allowing construction to start. The plant will be built in Longlaville in the Grand-Est Region on a 13.7-hectare site adjacent to the existing PET production plant of Indorama Ventures, its strategic partner.

Carbios  has been granted the building permit and operating authorization for the world’s first PET[1] biorecycling plant, allowing construction to start. The plant will be built in Longlaville in the Grand-Est Region on a 13.7-hectare site adjacent to the existing PET production plant of Indorama Ventures, its strategic partner.

This state-of-the-art facility, scheduled for commissioning in 2025, will play a crucial role in the fight against plastic pollution by providing an industrial-scale enzymatic recycling solution for PET waste. Carbios’ technology enables PET circularity and offers an alternative raw material to virgin fossil-based monomers, allowing PET producers, chemical companies, waste management firms, public entities, and brands to have an effective solution to meet regulatory requirements and fulfill their sustainability commitments. The plant will have a processing capacity of 50,000 tons of post-consumer PET waste per year (mostly waste that is non-recyclable mechanically, equivalent to 2 billion colored PET bottles or 2.5 billion PET food trays) and will generate 150 direct and indirect jobs in the region.
 
The plant will be built on a 13.7-hectare site acquired by Carbios on Indorama Ventures’ existing PET plant site without suspensive conditions. The land area gives the possibility to double the facility’s capacity.
 
A plant designed to minimize its carbon footprint
The plant is designed to maximize circularity, with high-quality output products, and minimize its environmental footprint, especially with regards to energy consumption. Optimizations are underway to further increase the recycling of water required for the process.

Located near the borders with Belgium, Germany, and Luxembourg, the plant’s location is strategic for nearby waste supply. Moreover, Carbios’ biorecycling technology can process complex waste that conventional technologies cannot recycle and produce food-grade products, enhancing the plant’s flexibility for waste supply. Carbios and Indorama Ventures will collaborate to ensure the feedstock supply of the Longlaville plant, located in a geographical area where the supply potential could reach 400,000 tons in 2023, and up to 500,000 tons in 2030 with improved selective collection.

Carbios has already secured an initial supply source by winning part of the CITEO tender for the biorecycling of multilayer food trays. The consortium composed of Carbios, Wellman (a subsidiary of Indorama Ventures), and Valorplast has been selected to handle 30% of the tonnage proposed by CITEO. Carbios will handle the portion of the flow consisting of multilayer food trays at its Longlaville plant starting in 2025.
 
Plant funding secured
In July 2023, Carbios successfully completed its capital increase for approximately €141 million, the largest capital increase on Euronext Growth since 2015. This amount is mainly intended to finance the construction of this plant, for which the total investment is estimated at around €230 million. The portion of the investment not funded by the proceeds from the July 2023 capital increase is expected to be covered by Indorama Ventures, which plans to mobilize approximately €110 million for this project, French state subsidies of €30 million, and €12.5 million from the Grand-Est Region, as well as a portion of Carbios Group’s available cash, which amounted to €78 million as of 30 June 2023.

Source:

Carbios

CEO of Jet Technology Howard Ju with Alfred Deakin Professor and Deakin Chair in Biotechnology Colin Barrow. Photo: Deakin University
CEO of Jet Technology Howard Ju with Alfred Deakin Professor and Deakin Chair in Biotechnology Colin Barrow.
11.10.2023

New Deakin REACH partnership: Textiles made from organic waste?

Australia is one of the highest waste generators in the world, with over 7.6 million tonnes of food ending up in landfill each year, costing over $36.6 billion and producing 17.5 million tonnes of greenhouse gas.

Deakin’s partnership with Jet Technology through REACH will explore ways to transform industry-generated organic waste into new products like organic textiles and stock feed using a rapid composting system.

Jet Technology’s Environmental Recycling System (ERS) will build a circular economy by creating valuable products for a range of industry sectors.

Australia is continuing to generate more landfill each year. A new partnership between Deakin’s Recycling and Clean Energy Commercialisation Hub (REACH) and Japanese-based company Jet Technology aims to turn this around by repurposing organic waste and transforming it into new products.

Australia contributes more than 7.6 million tonnes of food to landfill annually, costing over $36.6 billion and producing 17.5 million tonnes of CO2.

Australia is one of the highest waste generators in the world, with over 7.6 million tonnes of food ending up in landfill each year, costing over $36.6 billion and producing 17.5 million tonnes of greenhouse gas.

Deakin’s partnership with Jet Technology through REACH will explore ways to transform industry-generated organic waste into new products like organic textiles and stock feed using a rapid composting system.

Jet Technology’s Environmental Recycling System (ERS) will build a circular economy by creating valuable products for a range of industry sectors.

Australia is continuing to generate more landfill each year. A new partnership between Deakin’s Recycling and Clean Energy Commercialisation Hub (REACH) and Japanese-based company Jet Technology aims to turn this around by repurposing organic waste and transforming it into new products.

Australia contributes more than 7.6 million tonnes of food to landfill annually, costing over $36.6 billion and producing 17.5 million tonnes of CO2.

Deakin University scientist Alfred Deakin Professor and Chair in Biotechnology Colin Barrow and his team from the Centre for Sustainable Bioproducts will work with Jet Technology to explore the possible reuses of organic waste using Jet Technology’s Environmental Recycling System (ERS). The project will focus on converting organic waste from the agriculture, dairy and fishery sectors by drastically shortening composting time so it can be used to make new products.

The four-year research project will be undertaken at the BioFactory at Deakin’s Waurn Ponds campus. It will initially focus on processing agricultural waste, converting apple pomace into a bioproduct for the textile industry. Apple pomace consists of the apple skin, pulp, seeds and stems left over from apple juice manufacturing. Its disposal in landfill can lead to greenhouse gas emissions and potential contamination of soil and groundwater.

If successful, it could lead to the establishment of a local multi-million-dollar bioeconomy where organisations such as councils, supermarkets and food and beverage businesses could cut costs while generating new revenue streams and job opportunities.

Deakin’s REACH initiative collaborates with progressive industry, government, and education partners to establish a multi-billion-dollar bioeconomy in Victoria and push the limits of technological innovation to deliver energy and recycling solutions that reduce landfill, fossil fuel emissions, and the devastating costs of global warming.

A Carbios employee loads textile onto the preparation line Photo Carbios
09.10.2023

Carbios: New textile preparation line for polyester recycling

Carbios, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand.

To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process.  

The patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling.

Carbios, a pioneer in the development and industrialization of biological technologies to reinvent the life cycle of plastic and textiles, inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand.

To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process.  

The patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling.

More information:
Carbios enzymatic textile recycling
Source:

Carbios

06.10.2023

Accelerating Circularity launches Alliance of Chemical Textile Recycling (ACTR) with key members

The mission of Accelerating Circularity is to create new supply chains and business models to turn textile waste into mainstream raw materials. Accelerating Circularity has created a working group, the Alliance of Textile Chemical Recyclers (ACTR), to meet and address the textile industry with a common voice to facilitate accurate information on textile chemical recycling.

“We formed this collective to move chemical recycling technology forward, share common definitions, and address policies in a collaborative way to maximize the elimination of textile waste to landfills and incineration” explained Karla Magruder, Founder and President of Accelerating Circularity. “Chemical recycling technology has many benefits, including quality more similar to virgin fiber and the ability to recycle multiple times.”

ACTR plans to provide the industry with information on how textile chemical recycling can:

The mission of Accelerating Circularity is to create new supply chains and business models to turn textile waste into mainstream raw materials. Accelerating Circularity has created a working group, the Alliance of Textile Chemical Recyclers (ACTR), to meet and address the textile industry with a common voice to facilitate accurate information on textile chemical recycling.

“We formed this collective to move chemical recycling technology forward, share common definitions, and address policies in a collaborative way to maximize the elimination of textile waste to landfills and incineration” explained Karla Magruder, Founder and President of Accelerating Circularity. “Chemical recycling technology has many benefits, including quality more similar to virgin fiber and the ability to recycle multiple times.”

ACTR plans to provide the industry with information on how textile chemical recycling can:

  • offer solutions for diverting textile waste to landfill
  • enable textile to textile recycling versus incineration/landfill
  • provide sustainably sourced/circular materials
  • support brand/retailers/producers in achieving their CO2 reduction targets
  • provide long term price stability and consistent supply of raw materials versus virgin

Members of the Alliance include founding members Eastman, Lenzing, and The LYCRA Company, as well as key innovators Circ®, Sappi, Renewcell, Infinited fiber, Worn Again Technologies, Gr3n, CuRe Technology, and OnceMore® from Sodra.

As a first step, the ACTR (Alliance of Chemical Textile Recycling) is introducing a dictionary of common terms developed to educate the industry on the chemical recycling of textiles.

TEXAID x Triumph: Expansion of international in-store collection program (c) TEXAID Textilverwertungs-AG
06.10.2023

TEXAID x Triumph: Expansion of international in-store collection 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 our partners are continuing to take action to shift from a linear to a circular system.

Since 2022, TEXAID has partnered with Triumph International, operating their in-store collection program, “Together We Grow”, for 160 stores across Austria, Denmark, France, Germany, the Netherlands and Switzerland. Given the success of the program, starting April 2023, in-store take back has been expanded to an additional 108 stores across Belgium, Czech Republic, Hungary, Luxembourg, Poland, Portugal, Sweden and Spain. Customers bring in their worn garments and TEXAID manages the collected clothing in alignment with the EU waste hierarchy, sending each item to its next most sustainable lifecycle. TEXAID is pleased to be partnering with Triumph International to offer in-store take back, at scale, across Europe. For every 5 kg collected, Triumph plants a tree in partnership with Treedom.

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 our partners are continuing to take action to shift from a linear to a circular system.

Since 2022, TEXAID has partnered with Triumph International, operating their in-store collection program, “Together We Grow”, for 160 stores across Austria, Denmark, France, Germany, the Netherlands and Switzerland. Given the success of the program, starting April 2023, in-store take back has been expanded to an additional 108 stores across Belgium, Czech Republic, Hungary, Luxembourg, Poland, Portugal, Sweden and Spain. Customers bring in their worn garments and TEXAID manages the collected clothing in alignment with the EU waste hierarchy, sending each item to its next most sustainable lifecycle. TEXAID is pleased to be partnering with Triumph International to offer in-store take back, at scale, across Europe. For every 5 kg collected, Triumph plants a tree in partnership with Treedom.

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.

Source:

TEXAID Textilverwertungs-AG

Carbios: Polyester recycling with new textile preparation line (c) Carbios
04.10.2023

Carbios: Polyester recycling with new textile preparation line

Carbios inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand, in the presence of Mr. Lescure, French Minister for Industry. To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process. This patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling. This expertise will also be invaluable to brands in the eco-design of their products.

Carbios inaugurated its textile preparation line at its demonstration plant in Clermont-Ferrand, in the presence of Mr. Lescure, French Minister for Industry. To streamline the textile preparation phase, which is currently carried out by hand or on several lines, Carbios has developed a fully integrated and automated line that transforms textile waste from used garments or cutting scraps into raw material suitable for depolymerization with its enzymatic biorecycling process. This patented line integrates all preparation stages (shredding and extraction of hard points such as buttons or fasteners), and provides Carbios with a high-performance, scalable development tool. The platform will help validate the biorecycling technology for textiles at demonstration plant scale (by 2024), and provides Carbios with expertise in working with collection and sorting operators to specify the quality of textiles and the preparation steps needed to make them suitable for enzymatic recycling. This expertise will also be invaluable to brands in the eco-design of their products.

Current collection, sorting and preparation infrastructures limit the amount of textile waste available for “fiber-to-fiber” recycling. Collection rates average around 15-25% worldwide[1], and much of the waste collected is exported to Africa, Asia or Latin America for sorting.

Moreover, textiles are highly complex materials, with yarns of different composition (or nature) that are difficult, if not impossible, to physically separate. However, the highly selective enzyme developed by Carbios can specifically depolymerize the PET (polyester) present in textile material.

At present, textiles are sorted and prepared mainly by hand, with low yields, particularly for disruptors to recycling processes such as “hard points” (zips, buttons, etc.). To optimize this crucial phase, Carbios is contributing a textile preparation solution to accelerate the development of biorecycling in the textile industry. Enzymatic recycling, or biorecycling, therefore contributes to the construction of a textile recycling chain and the acceleration of textile circularity, also enabling brands to do away with used bottles.

[1] Ellen MacArthur Foundation, 2017

Source:

Carbios

04.10.2023

Official launch of ReHubs Europe

At a kick off meeting hosted by Mango, EURATEX and 20 incoming members presented ReHubs Europe, a new international non-profit organisation poised to give a boost to the textile recycling. The launch follows three years of intense preparation, and the publication of a Techno-Economic Study, which analysed the business case, cost and environmental benefits for upscaling textile waste recycling in Europe.

ReHubs Europe will gather key players from the textile value chain - textile manufacturers, fashion brands, collectors and recyclers, chemical industry, technology providers - who welcome the ReHubs joint ambition to recycle 2.5 million tons of textile waste by 2030. This requires up to 250 industrial projects across Europe, covering different types of fibre-to-fibre recycling.

ReHubs Europe is the industry’s response to the upcoming EU legislation, which sets compulsory collection and sorting of textile waste, by 2025. To manage this, an upscale of recycling capacity is needed as well as a collaboration of different players from the value chain.

At a kick off meeting hosted by Mango, EURATEX and 20 incoming members presented ReHubs Europe, a new international non-profit organisation poised to give a boost to the textile recycling. The launch follows three years of intense preparation, and the publication of a Techno-Economic Study, which analysed the business case, cost and environmental benefits for upscaling textile waste recycling in Europe.

ReHubs Europe will gather key players from the textile value chain - textile manufacturers, fashion brands, collectors and recyclers, chemical industry, technology providers - who welcome the ReHubs joint ambition to recycle 2.5 million tons of textile waste by 2030. This requires up to 250 industrial projects across Europe, covering different types of fibre-to-fibre recycling.

ReHubs Europe is the industry’s response to the upcoming EU legislation, which sets compulsory collection and sorting of textile waste, by 2025. To manage this, an upscale of recycling capacity is needed as well as a collaboration of different players from the value chain.

Chris Deloof will lead ReHubs Europe as Executive Director. Chris has a long-standing experience in the textile sector and is a passionate advocate for cross-industry collaboration. Moreover, Chris is deeply committed to driving the transition towards a circular economy, which aligns seamlessly with ReHubs Europe's mission.

ReHubs Europe will operate from Brussels, in close partnership with EURATEX. Membership is open to any companies who wish to invest in textile waste recycling in Europe.

Source:

Euratex

25.09.2023

Indorama Ventures recycles 100 billion PET bottles

Indorama Ventures Public Company Limited, a global sustainable chemical company, announced that it has recycled 100 billion post-consumer PET bottles since February 2011. This has diverted 2.1 million tons of waste from the environment and saved 2.9 million tons of carbon footprint from the product lifecycles. Demonstrating its commitment to support the establishment of a circular economy for PET, in the last ten years Indorama Ventures has spent more than $1 billion towards waste collection of used PET bottles.

Indorama Ventures Public Company Limited, a global sustainable chemical company, announced that it has recycled 100 billion post-consumer PET bottles since February 2011. This has diverted 2.1 million tons of waste from the environment and saved 2.9 million tons of carbon footprint from the product lifecycles. Demonstrating its commitment to support the establishment of a circular economy for PET, in the last ten years Indorama Ventures has spent more than $1 billion towards waste collection of used PET bottles.

The company has also committed a further $1.5 billion to expand its recycling business. To support increased recycling rates globally, Indorama Ventures has expanded its recycling facilities, infrastructure, and public education programs. The unique PET plastic used in soft drinks and water bottles is fully recyclable and is collected in practice and at scale. As a result, PET is the most recycled plastic in the world, and the company’s recycling achievements support that. Building on its position as the world’s largest producer of recycled resin used in plastic beverage bottles, Indorama Ventures is also seeking advanced technologies to deliver more recycling infrastructure globally and reduce lifecycle carbon emissions.

The company now has 20 recycling sites in Asia, the Americas, and Europe. Recent developments include doubling the capacity of a recycling site in Brazil; and the opening of PETValue, the largest bottle-to-bottle recycling facility in the Philippines, in partnership with Coca-Cola. Both part of a $300 million ‘Blue Loan’ Indorama Ventures received in 2020 from the International Finance Corporation (IFC), part of the World Bank, and Asian Development Bank. The loan has the objective of increasing recycling capacity and diverting plastic waste from landfills and oceans in Thailand, Indonesia, Philippines, India, and Brazil - countries seeking support in managing environmental waste. Indorama Ventures has also partnered with the Yunus Foundation, a leading non-profit organization promoting sustainable development with a global network, with the goal of educating one million consumers globally about recycling by 2030 with 200,000 reached so far.

Source:

Indorama

25.09.2023

ARC Research Hub to support sustainable manufacturing of fibre materials

In August 2023, Australian Research Council (ARC) Chief Research Officer Professor Christina Twomey officially launched the ARC Research Hub for Functional and Sustainable Fibres.

Through collaboration with 16 domestic and international Partner Organisations, the team at the ARC Research Hub will be conducting research across three core themes – Sustainability, Circular Economies, and Extraordinary Functionality.

Led by Deakin University, the ARC Research Hub aims to harness Australia’s research capacity in fibre, textiles, and composite materials to develop materials with enhanced functionality, meeting Australian consumer and industrial demand for advanced fibre capabilities including recycling and re-purposing textile waste.
 
Professor Twomey said that the ARC Research Hub is fundamental to increasing collaboration between Australia’s most innovative researchers and vital industries.

In August 2023, Australian Research Council (ARC) Chief Research Officer Professor Christina Twomey officially launched the ARC Research Hub for Functional and Sustainable Fibres.

Through collaboration with 16 domestic and international Partner Organisations, the team at the ARC Research Hub will be conducting research across three core themes – Sustainability, Circular Economies, and Extraordinary Functionality.

Led by Deakin University, the ARC Research Hub aims to harness Australia’s research capacity in fibre, textiles, and composite materials to develop materials with enhanced functionality, meeting Australian consumer and industrial demand for advanced fibre capabilities including recycling and re-purposing textile waste.
 
Professor Twomey said that the ARC Research Hub is fundamental to increasing collaboration between Australia’s most innovative researchers and vital industries.

“The ARC has a proud history of supporting outstanding research that benefits the Australian community, and the ARC Research Hub for Functional and Sustainable Fibres is a great example of this,” Professor Twomey said.
 
“In collaboration with industry partners, the research team are building on the work undertaken by the ARC Research Hub for a World-class Future Fibre Industry which ended in 2021 – this continued success is no easy feat.

“This new ARC Research Hub will strengthen productivity and competitiveness of the advanced manufacturing sector and will place Australia at the forefront of a global shift towards functional and sustainable materials.”
 
The ARC is investing $5 million over 5 years under the ARC Industrial Transformation Research Program.

It is expected that the ARC Research Hub will address the immediate need to reduce industry’s reliance on petroleum-derived materials and to reduce the environmental impact of supply chains.

Source:

Australian Research Council

Flachs-Koeper-Band (c) vombaur
Flachs-Koeper-Band
20.09.2023

Technical textiles made of natural fibres: Sustainable textiles for lightweight design

The combination of high strength and rigidity with sustainability and a neutral carbon footprint makes flax the ideal raw material for natural fibre-reinforced plastics. vombaur offers composite textiles made of this natural fibre for the automotive, wind power, construction or sports industries and many other sectors.

Flax fibres are rigid and tear-proof. They have natural bactericidal properties, are virtually antistatic, stain resistant and easy to spin. Humans have taken advantage of these properties to manufacture robust, stain-resistant and lint-free textiles. Between the late 19th and late 20th centuries, cotton largely replaced natural fibres. Because flax can be grown in Europe and consumes less energy and water than cotton production, the material's importance is currently growing again, for both clothing and composites. Regional textile value added chains in Europe – flax makes them possible.

The combination of high strength and rigidity with sustainability and a neutral carbon footprint makes flax the ideal raw material for natural fibre-reinforced plastics. vombaur offers composite textiles made of this natural fibre for the automotive, wind power, construction or sports industries and many other sectors.

Flax fibres are rigid and tear-proof. They have natural bactericidal properties, are virtually antistatic, stain resistant and easy to spin. Humans have taken advantage of these properties to manufacture robust, stain-resistant and lint-free textiles. Between the late 19th and late 20th centuries, cotton largely replaced natural fibres. Because flax can be grown in Europe and consumes less energy and water than cotton production, the material's importance is currently growing again, for both clothing and composites. Regional textile value added chains in Europe – flax makes them possible.

Ideal mechanical properties
vombaur makes the mechanical properties of flax usable for lightweight design. Because flax fibres are particularly rigid and tear-resistant, they ensure great stability in natural fibre-reinforced plastics (NFRPs). And thanks to their low density of 1.50 g/cm3, the fibres weigh virtually nothing. On top of this, fibre-reinforced plastics are less prone to splintering than glass fibre-reinforced plastics.

Excellent carbon footprint
The cultivation of flax binds CO2 and the production of natural fibre-reinforced plastics (NFRPs) generates approximately one third less CO2 emissions compared with conventional fibre-reinforced plastics. Energy consumption is substantially lower. This saves resources. The use of flax fibre tapes by vombaur in lightweight design applications also improves the product's carbon footprint and contributes to a secure, regional supply chain.

Recycling without impacting on quality
Flax offers another sustainability benefit: more recycling cycles than glass- or carbon fibre-reinforced plastics – without impacting on quality. Thermoplastic fibre-matrix prepregs are melted and reused in the recycling process. The natural fibres can be used in other products such as natural fibre-reinforced injection moulded parts.

Sustainable product developments for many industries
"Orthoses for high-performance sports, high-tech skis, wind turbines, components for the automotive industry or aerospace, but also modern window profiles – the application scope for our lightweight design flax tapes is amazingly diverse", as Carl Mrusek, Chief Sales Officer at vombaur explains. "After all, wherever flax tapes are used, three key properties come together: light weight, strength and sustainability".

More information:
CO2
Source:

vombaur

IFM researchers Research Fellow Frank Chen, Research Fellow Marzieh Parhizkar, Research Engineer Amol Patil and Associate Professor Alessandra Sutti. Photo Deakin University
IFM researchers Research Fellow Frank Chen, Research Fellow Marzieh Parhizkar, Research Engineer Amol Patil and Associate Professor Alessandra Sutti.
20.09.2023

Deakin/Xefco: Dyeing jeans without a drop of water

Deakin University has signed a partnership agreement with Geelong-based company Xefco as part of its Recycling and Clean Energy Commercialisation Hub (REACH) to conduct new research to transform how our clothing, including jeans, get their colour.

Jeans are one of the most worn garments in the world, but they are also one of the least environmentally friendly, taking around 75 litres of water to dye just one pair.

Deakin’s work with Xefco is helping to explore if a waterless manufacturing process can replace the water intensive processes the clothing industry has used for hundreds of years. The new technology in development is called ‘Ausora’.

Associate Professor Alessandra Sutti, from Deakin’s Institute for Frontier Materials, said it was exciting to be on the commercialisation journey with Xefco, working with the company to discover what is possible and hopefully reduce the world’s fashion footprint.

“If successful, the Ausora technology, which colours fabrics without the need for large quantities of water, will put us a step closer to more efficient and sustainable clothing manufacturing,” Associate Professor Sutti said.

Deakin University has signed a partnership agreement with Geelong-based company Xefco as part of its Recycling and Clean Energy Commercialisation Hub (REACH) to conduct new research to transform how our clothing, including jeans, get their colour.

Jeans are one of the most worn garments in the world, but they are also one of the least environmentally friendly, taking around 75 litres of water to dye just one pair.

Deakin’s work with Xefco is helping to explore if a waterless manufacturing process can replace the water intensive processes the clothing industry has used for hundreds of years. The new technology in development is called ‘Ausora’.

Associate Professor Alessandra Sutti, from Deakin’s Institute for Frontier Materials, said it was exciting to be on the commercialisation journey with Xefco, working with the company to discover what is possible and hopefully reduce the world’s fashion footprint.

“If successful, the Ausora technology, which colours fabrics without the need for large quantities of water, will put us a step closer to more efficient and sustainable clothing manufacturing,” Associate Professor Sutti said.

Xefco CEO Tom Hussey said the company’s new pilot plant, housed at Deakin in Geelong, will test different materials, including specialised fabrics such as waterproof items like outdoor jackets and jeans.

“This is the first stage of Xefco’s vision for the technology, with the REACH project focused on demonstrating the commercial viability of the technology at pilot scale and developing processes so it can be scaled up for commercial production,” Mr Hussey said.

“Together, Deakin and Xefco will push the limits of innovation and see what is possible.”
Xefco’s pilot plant is co-located with Deakin researchers at ManuFutures, the state-of-the-art advanced manufacturing hub at Deakin’s Waurn Ponds campus.

Founded in 2018 Xefco now employs 17 people and its products are already making a difference across the world. Its XReflex technology, which reduces consumption of insulation materials, is being used by some of the world’s leading apparel and fashion brands including The North Face.

Backed by a $50 million grant from the Australian Government’s inaugural Trailblazer Universities Program, with industry and university support taking the total project value to $380 million, REACH is facilitating the development of greener supply chains and accelerating business success as markets move from a throughput economy to a circular economy.

Source:

Deakin University

Photo Indorama Ventures Public Company Limited
08.08.2023

Indorama Ventures almost triples PET recycling capacity in Brazil

Indorama Ventures Public Company Limited, one of the world’s largest producers of recycled Polyethylene Terephthalate (PET) resin, announced the completion of the expansion of its recycling facility in Brazil, supported by a ‘Blue Loan’ from the International Finance Corporation (IFC), a member of the World Bank.

The recycling facility, located in Juiz de Fora, Minas Gerais, Brazil, is increasing its production capacity from 9 thousand tons to 25 thousand tons per year of PET made from post-consumer recycled (PET-PCR) material. The project is part of Indorama Ventures’ Vision 2030 ambition to continue building a sustainable global company, including spending $1.5 billion to increase its recycling capacity to 50 billion PET bottles per year by 2025.

PET is a unique and widely used plastic for water and soda bottles and the most recycled plastic in the world. Indorama Ventures, the world’s largest provider of recycled PET resin used to make beverage bottles, invested US$20 million to optimize its Brazil facility’s processes and acquire new equipment such as washing machines to help remove labels, grind bottles in water and reduce water consumption by 70%.

Indorama Ventures Public Company Limited, one of the world’s largest producers of recycled Polyethylene Terephthalate (PET) resin, announced the completion of the expansion of its recycling facility in Brazil, supported by a ‘Blue Loan’ from the International Finance Corporation (IFC), a member of the World Bank.

The recycling facility, located in Juiz de Fora, Minas Gerais, Brazil, is increasing its production capacity from 9 thousand tons to 25 thousand tons per year of PET made from post-consumer recycled (PET-PCR) material. The project is part of Indorama Ventures’ Vision 2030 ambition to continue building a sustainable global company, including spending $1.5 billion to increase its recycling capacity to 50 billion PET bottles per year by 2025.

PET is a unique and widely used plastic for water and soda bottles and the most recycled plastic in the world. Indorama Ventures, the world’s largest provider of recycled PET resin used to make beverage bottles, invested US$20 million to optimize its Brazil facility’s processes and acquire new equipment such as washing machines to help remove labels, grind bottles in water and reduce water consumption by 70%.

In November 2020, the IFC provided $300 million in Blue Loan funding to Indorama Ventures with the objective of increasing recycling capacity and diverting plastic waste from landfills and oceans in Thailand, Indonesia, Philippines, India, and Brazil—countries which are grappling with mismanaged waste and serious plastic waste in the environment. Blue Loan funds are certified and tracked for projects that support sustainable use of ocean resources for economic growth, improved livelihoods and jobs, and ocean ecosystem health. Indorama Ventures has secured a total US$2.4 billion in long-term sustainable financing from various financial institutions between 2018–2022 to support sustainability projects.

Source:

Indorama Ventures Public Company Limited 

07.08.2023

SOEX geht Partnerschaft mit CIRCULAR REPUBLIC ein

SOEX und CIRCULAR REPUBLIC bilden gemeinsam eine strategische Allianz, um die Prinzipien der Kreislaufwirtschaft im Unternehmen weiter voranzutreiben und in eine wohlhabende, widerstandsfähige und nachhaltige Zukunft zu investieren. Das langfristige Ziel der Zusammenarbeit: Den Kreislauf entlang der gesamten Wertschöpfungskette der Textilindustrie zu schließen.

Durch die Partnerschaft wird SOEX nun Teil einer internationalen Bewegung, die darauf abzielt, die Art und Weise zu reformieren, wie die Wirtschaft in den letzten zwei Jahrhunderten agierte. Das lineare System aus Produzieren, Verbrauchen, Entsorgen soll in einen Kreislauf gebogen werden. Bei diesem Vorhaben folgt der Arbeitskreis „Circular Textile Platform“ einem einfachen Prinzip: Weniger Ressourcen verschwenden, indem sie in Gebrauch gehalten werden – mit der großen Vision von einer Welt ohne Müll. Gemeinsam mit einem Netzwerk aus Unternehmen, Initiativen, Stakeholdern und Vertretern der Wissenschaft, vereint über die Plattform CIRCULAR REPUBLIC arbeitet SOEX nun vermehrt an neuen kreislauffähigen Strukturen um diese Vision Wirklichkeit werden zu lassen.

SOEX und CIRCULAR REPUBLIC bilden gemeinsam eine strategische Allianz, um die Prinzipien der Kreislaufwirtschaft im Unternehmen weiter voranzutreiben und in eine wohlhabende, widerstandsfähige und nachhaltige Zukunft zu investieren. Das langfristige Ziel der Zusammenarbeit: Den Kreislauf entlang der gesamten Wertschöpfungskette der Textilindustrie zu schließen.

Durch die Partnerschaft wird SOEX nun Teil einer internationalen Bewegung, die darauf abzielt, die Art und Weise zu reformieren, wie die Wirtschaft in den letzten zwei Jahrhunderten agierte. Das lineare System aus Produzieren, Verbrauchen, Entsorgen soll in einen Kreislauf gebogen werden. Bei diesem Vorhaben folgt der Arbeitskreis „Circular Textile Platform“ einem einfachen Prinzip: Weniger Ressourcen verschwenden, indem sie in Gebrauch gehalten werden – mit der großen Vision von einer Welt ohne Müll. Gemeinsam mit einem Netzwerk aus Unternehmen, Initiativen, Stakeholdern und Vertretern der Wissenschaft, vereint über die Plattform CIRCULAR REPUBLIC arbeitet SOEX nun vermehrt an neuen kreislauffähigen Strukturen um diese Vision Wirklichkeit werden zu lassen.

Die SOEX-Gruppe versteht sich selbst als wichtiger Akteur im Kreislauf, der dafür sorgen kann, dass Ressourcen wiederverwendet oder verwertet werden, um diese zu schonen und Abfall zu vermeiden. Das oberste Ziel der SOEX-Gruppe ist dabei, gebrauchte Textilien zu 100 Prozent im Produktkreislauf zu halten.

Durch die Partnerschaft mit CIRCULAR REPUBLIC erhält SOEX Zugang zu einem Start-up-Ökosystem, das Verbindungen zwischen Partnern knüpft und ein Umfeld des Austauschs schafft. Außerdem kann die SOEX-Gruppe mittels Lernprogramme zum Thema Kreislaufwirtschaft weiter an der Unternehmensphilosophie feilen und erhält Zugang zu den neuesten Forschungsergebnissen, um Unternehmensaktivitäten zielführend am Stand der Wissenschaft orientieren zu können. CIRCULAR REPUBLIC hilft SOEX zudem, sein bereits international verknüpftes Partnernetzwerk aus Wissenschaft und Industrie weiter auszubauen und bringt Vertreter der Textilbranche an einen Tisch. Gemeinsam will man so systemverändernde Auswirkungen erzielen, die Wertschöpfungsketten revolutionieren und den Weg für eine nachhaltige und regenerative Zukunft ebnen.