From the Sector

The Western Development Commission (WDC) announces the successful funding of the THREAD project. Supported by the Interreg Northern Periphery and Arctic Programme, THREADs (Textile and Habiliment Reuse for the Environment and NPA Area Development) is set to launch a transformative three-year initiative starting in September 2024, focusing on innovative textile waste management.

THREADs aims to significantly reduce textile waste in the Northern Periphery and Arctic region. With a total budget of €1.5 million, the project will implement a range of innovative approaches across the textile lifecycle—from design to disposal. This initiative includes trialling smart waste collection methods, enhancing circular practices, and integrating social inclusion initiatives in circularity efforts. Additionally, the project will explore new business models to support sustainable practices.

The project unites a diverse group of partners from across Europe, reflecting a collaborative effort to tackle an urgent environmental issue. The lead partner, Kajaani University of Applied Sciences from Finland, is joined by other key stakeholders including the Municipality of Kittilä, Kiertokaari Ltd, Remiks Husholdning AS from Norway, Technological University of the Shannon – Forge Design Factory from Ireland, University of Boras and Lulea Miljoresurs AB from Sweden, and the Icelandic Textile Center.

The funding announcement marks a crucial step towards implementing effective solutions that address both the environmental impact of textile waste and the challenges posed by fast fashion in sparsely populated areas. By focusing on sustainability and efficient resource use, THREADs is poised to create meaningful change in the way textile management is approached in the NPA region.

KARL MAYER GROUP has developed a sophisticated system for considerable energy savings when operating the cylinder dryers in its PROSIZE® sizing machines and BLUEDYE dyeing plant.

Saving costs with inline energy recycling
The innovation is called CASCADE and focuses on steam as a heating medium in cylinder dryers. And for good reason: according to the IPCC report by ITMF Zurich, one tonne of steam cost between USD 20 and just under USD 27 internationally in 2021. The new solution relies on reuse to reduce the amount of process energy required.
"CASCADE recirculates parts of the process steam in cylinder dryers, enabling genuine, efficient energy recycling within the machine," explains Karl-Heinz Vaassen, Head of Textile Drying at KARL MAYER.
The customer benefits from significantly lower energy costs and CO2 emissions. With a view to the Asian market, a dryer with 14 cylinders and a running time of 7,000 working hours can achieve cost savings of up to USD 17,000 per year.

Precise, real savings values are available when looking at the machine dashboard. A sensor provides real-time data on the amount of steam circulating in the circuit, from which the corresponding reduction in CO2 equivalents can be calculated.

Utilizing the pressure drop
CASCADE reuses part of the invested process energy and uses the flash-steam in conjunction with the pressure ratios, which - nomen est omen - decrease in cascades in the different zones of the cylinder dryer.
The highest working pressure prevails in the first cylinder section. The heat transfer medium steam emits large amounts of energy for yarn drying and condenses without temperature loss.

The resulting hot condensate is not immediately discharged from the machine, but is instead fed into a flash tank, where vapor exhaust is formed as a result of the pressure reduction. In conventional systems, the carrier medium for gases is only created in the return line towards the boiler house and is eliminated as undesirable. Instead of being utilised in the process, it escapes into the environment. With the CASCADE system, this "freshly recycled steam" is used for the heat supply in the second cylinder section, but not without prior treatment.

In the system patented by KARL MAYER, the recycled steam is intelligently mixed with live steam and thus raised to the level of the required process conditions for use in the cylinder section at the end of the dryer. Here, the fabric moisture is reduced to the desired residual value at medium pressure and temperature conditions.

Market launch is underway
CASCADE was filed for patent by the KARL MAYER GROUP. It was published in September 2023.
The innovative solution at no extra charge was presented at ITM 2024 in Istanbul and was a visitor highlight at the KARL MAYER GROUP stand.

From January 2024, CASCADE will be part of the PROSIZE® as standard. The first sizing machine with the upgrade for greater energy efficiency will be delivered in the second quarter of this year. It will go to a manufacturer in Europe. In the next step, CASCADE will be integrated into other dryer types and will also be available for the BLUEDYE.

• CARBIOS, L’OCCITANE en Provence and Pinard Beauty Pack join forces to establish an efficient European value chain for PET circularity
• The 100% biorecycled transparent bottle (from enzymatic recycling) will be on display at CARBIOS’ booth D02 at “Edition Spéciale” by LuxePack, held 4-5 June at the Carreau du Temple in Paris
• A key step towards achieving L'OCCITANE en Provence's eco-design commitment of 100% retail bottles made from 100% post-consumer recycled PET by 2027

CARBIOS and L’OCCITANE en Provence, an international cosmetics brand using natural and organic ingredients and long-term partner of CARBIOS, present a bottle in transparent PET made entirely from enzymatic recycling for a shower oil from the Amande range. In collaboration with converter Pinard Beauty Pack, this bottle exemplifies a shared desire to build en efficient European recycling sector to accelerate the transition to a circular economy for plastic, and meet brands' commitments for more sustainable packaging solutions. The bottle will be on display at CARBIOS’ Stand D02 at “Edition Spéciale” by LuxePack, the trade show dedicated to sustainable premium packaging, to be held on 4-5 June 2024 at the Carreau du Temple in Paris.

The 100% recycled PET bottle from CARBIOS' enzymatic depolymerization process was made with a European value chain committed to responsible consumption of sustainable materials. The bottle’s production began with the local supply of PET waste (already collected, sorted and prepared) to the CARBIOS industrial demonstrator in Clermont-Ferrand, France. The waste used consisted of colored bottles, multilayer trays and mechanical recycling residues, none of which are currently recycled using conventional technologies. CARBIOS deconstructed the PET waste into its original monomers, PTA and MEG, using its biorecycling technology. The resulting monomers were then repolymerized into new, fully recycled PET resins within Europe. In Oyonnax, France, these resins were blow-molded by Pinard Beauty Pack to create bottles according to L’OCCITANE’s specifications, and then filled with its shower oil at its Manosque plant.

Fashion for Good launches the Sorting for Circularity USA report unveiling significant findings from the project. A first of its kind in the US, the report delves into consumer disposal behaviour, textile waste composition, and the potential for fibre-to-fibre recycling within the country. It provides insights for making informed decisions for further investments, infrastructure development and the next steps towards circularity.

The U.S. Textile Waste Landscape
The United States is a global leader in textile consumption and waste generation, positioning itself as one of the largest sources of secondary raw materials for post-consumer textile feedstock. Despite this, only 15% of the textile waste generated in the US is currently recovered, with 85% ending up in landfills or incinerators.

With the impending policies in the European Union and certain American states, alongside commitments from both public and private sectors to promote fibre-to-fibre recycling, there is a growing demand for infrastructure related to post-consumer textile collection, sorting, and recycling.

Addressing Data GPS
In the pursuit of establishing a functional reverse supply chain and the necessary infrastructure, two critical areas lack data  – consumer disposal behaviour, and material characteristics of post-consumer textiles. The Sorting for Circularity USA project addressed these gaps through a comprehensive national consumer survey and waste composition analysis.

The survey revealed that 60% of respondents divert textiles, while 4% discard them, driven primarily by factors such as condition and fit. On the other hand, the waste composition analysis unveiled that over 56% of post-consumer textiles are suitable for fibre-to-fibre recycling, with cotton and polyester being the most prevalent fibre types, indicating a substantial potential for these textiles to be used as feedstock for mechanical and chemical recycling processes.

The project revealed a $1.5 billion opportunity for fibre-to-fibre recycling by redirecting non-rewearable textiles from landfills and incinerators to recycling streams. The report outlines growth strategies for the US textile recycling industry, emphasising enhanced financial value through efficiency improvements, increased commodity valuation, and policy mechanisms like extended producer responsibility schemes. Collaboration among stakeholders is crucial, including brands, government, retailers, consumers, collectors, sorters, recyclers, and financial institutions, to promote circularity, invest in research and development, and advocate for supportive policies and incentives to drive technological innovation. This redirection of textiles towards recycling underscores the substantial economic potential of embracing circularity in the textile industry.
 
There is an opportunity to build on these insights and assess the feasibility of different sorting business models and (semi) automated sorting technologies to create a demo facility suitable for closed-loop textile recycling. Ultimately, evaluating the commercial and technical feasibility of a semi-automated sorting process and identifying investment opportunities to scale solutions nationwide.

• GOTS Version 7.0 released
• GOTS certified entities grow by 8% and expand to 89 countries
• GOTS releases Due Diligence Handbook for certified entities
• Farm-Gin Registry implemented in India, creating a direct link and better evaluation of incoming data
• GOTS collaborates with European Space Agency and Marple for AI organic cotton project
• #Behindtheseams campaign reaches 21 million+ unique individuals

The Global Organic Textile Standard (GOTS), managed by non-profit Global Standard, recognises 2023 as a year of significant milestones. From expansion of GOTS-certified facilities to the release of a new standard version, GOTS remained a beacon for businesses navigating changing legislation, social and environmental demands.

Coming out of one of the strongest years for GOTS, 2023 culminated with 25 GOTS-approved certification bodies reporting a noteworthy 14,676 certified facilities (an 8% growth from 2022) in 89 countries.

Ushering in GOTS Version 7.0
As of 1 March, facilities that become GOTS-certified will operate under the new GOTS Version 7.0, released in March 2023 with a one-year transition period. GOTS Version 7.0 and its accompanying Implementation Manual provides a comprehensive solution for companies who want to produce organic textiles and be supported to ensure compliance with environmental and human rights due diligence along the entire value chain, from field to finished product.

GOTS Version 7.0 also introduced a six-step due diligence process and handbook that equips GOTS-certified operations to proactively identify, assess and mitigate adverse impacts throughout their value chains.

Looking to the future
GOTS initiated in 2023 two major projects in India, the globe’s largest producer of organic cotton. The Farm-Gin Registry was introduced for the 2022-2023 harvest season, which acts as a link between farm and gin and is a tool to strengthen integrity by collecting organic raw seed cotton data producing farm or farm group.

GOTS, the European Space Agency (ESA) and software company Marple launched a new project that aims to show the potential for remote satellite monitoring of organic cotton cultivation systems. The project trained artificial intelligence (AI) to use ESA satellite data to detect cotton fields across India and automatically classify them according to their cultivation standard. By integrating standardised yield metrics, this innovative approach will enable GOTS to generate realistic estimates of organic cotton yields in specific areas. In addition, the project is expected to empower GOTS to recognise cotton fields that have not yet obtained organic certification but possess the potential for a transition to organic cultivation. The first results of the project will be announced in June.

Educating the consumer
GOTS, in its ongoing commitment to stakeholder education, orchestrated in November an immersive 360-degree awareness and educational campaign. Successfully engaging both consumers and industry professionals, the initiative shined a spotlight on GOTS-certified companies and their products, which empowered consumers to make more conscientious choices while shopping. With an impressive turnout of over 250 certified entities, the campaign made a significant global impact, reaching more than 21 million unique individuals worldwide.

Quickly becoming the benchmark for sustainability, circularity presents a simple solution for many of the world’s complex waste issues. However, in a quickly changing textile marketplace with increasing regulatory pressures, designing circular products can be anything but simple.

To help demystify this accelerating paradigm shift, the Designing for Circularity panel is coming to Portland’s Functional Fabric Fair, where expert panelists will inform and inspire the next generation of product designers and developers.

Scheduled for Wednesday, April 17th at 2:00pm and hosted by textile industry communications agency Formidable Media, the Designing for Circularity panel will bring together experts in materials sourcing, textile finishes, trims, sustainability, recycling, natural materials, and more, to help designers, product developers, and brand representatives make the choices needed to become leaders in the future of sustainable products.

“Fashion is regularly listed among the top five largest polluting industries in the world and our panel of experts hope to  help shape future design and sustainability decisions to mitigate fashion’s outsized impact on the environment,” said Scott Kaier, Founder and President of Formidable Media. “Informed and innovative design is the first step in creating circular products, so today’s designers will be instrumental in creating a cleaner, more sustainable future.”

Hand-picked from across the outdoor, fashion, lifestyle, and footwear industries, the Designing for Circularity panelists include:

• Daniel Uretsky, President, ALLIED Feather + Down
• Martin Flora, VP of Business Development, Green Theme Technologies
• Sarah Schlinger, R&D Commercialization Manager, Woolmark
• Sharon Perez, Senior Business Development Manager, Lenzing Group
• Brian La Plante, Senior Manager of Sustainability, YKK
• Theresa McKenney Director of Sustainability, NEMO Equipment

• Combination of financial and non-financial reporting as evidence of the central role of sustainability
• Measurable progress in achieving sustainability and climate targets
• Recognized for sustainability and prepares for the European Green Deal

The Lenzing Group has published a combined annual and sustainability report for the first time, reaffirming the strategic importance of social and environmental responsibility for the company. With the title “Ready to join?”, Lenzing would like to extend an invitation to all customers and partners to join forces to renew the textile and nonwovens industries and bring about positive change.

“This annual and sustainability report is also an invitation to find answers together. Lenzing is working tirelessly to make the industries in which it operates even more sustainable and to drive the transformation of the textile business model from linear to circular. For this transformation to be successful, further efforts by the entire industry and a policy designed to ensure a level playing field for sustainability pioneers are needed,” says Stephan Sielaff, CEO of the Lenzing Group.

The results for the 2023 financial year were already published. The report was once again prepared in digital form and is now available.

Haelixa, the trailblazer of physical traceability solutions, has partnered with Trudel Silk, a market leader for sustainable organic and recycled silk products. This collaboration brings traceability and transparency to silk production.

Silk is one of the finest and smoothest fabrics; the better the quality of the silk, the more luxurious it feels to the touch. To create the best quality silk, the conditions for mulberry cultivation must be up to the highest standards. A healthy micro-ecosystem in the fields translates to top-grade silk cocoon quality. At Trudel, this is the environment they have created for the vertical integration of their business. Trudel aims to succeed at every stage of the process, which can only be accomplished through the active involvement and visible cooperation of all market players. These players include farmers, reeling mills, twisting/spinning mills, weaving mills, dyeing and printing mills, and brands. They are involved in every step, from the cultivation of mulberry trees to the production of silk fabrics.

Haelixa and Trudel have collaborated to improve silk’s robust and consistent traceability. As the demand for validation of the silk value chain increases, they have partnered with groups from Italy and Asia to develop a unique solution that uses DNA markers to trace the entire supply chain of silk production. This innovative approach ensures each silk product’s ethical sourcing.

The silk fibers used in their spun silk yarns are marked with a specific DNA per farm set selected by Trudel. Throughout the supply chain, samples of yarn, fabrics, and finished products undergo testing to verify the presence of original silk fibers. Based on the reporting, the brand can trace the finished accessories or garments to Trudel.

The fashion industry, which has strategic importance for the Turkish economy with its value-added production, employment, and exports, came together with representatives of global brands and Laison offices at the 'Green transformation' summit. At the meeting hosted by the Istanbul Apparel Exporters' Association (IHKIB), the studies carried out in the process of adaptation to the Green Deal were put under the spotlight, and the expectations of the Turkish fashion industry from the stakeholders were also expressed.

The opening of the meeting, attended by representatives of relevant ministries and foreign representations, national and international fund providers, as well as brands and buying groups were brought together, was made by Türkiye Exporters Assembly (TIM) and IHKIB President Mustafa Gültepe. In his speech, Gültepe underlined Türkiye's importance in the global apparel industry, by realizing approximately 3.5 percent of world apparel exports. Gültepe continued as follows:

"As IHKIB, we aim to increase our current annual exports, which are around $20 billion, to $40 billion. The road to the goal goes through Europe and America because the European Union is our largest market in apparel. We export 60 percent of our total apparel exports to EU countries. When we add other European countries and the USA, the ratio approaches 75 percent. While working on alternatives for the $40 billion in exports, we need to focus more on the European and U.S. markets because, as the data shows, the path to $40 billion in apparel exports goes through Europe and the U.S. We already have long-standing collaborations with brands centered in Europe and America. With our knowledge, speed, production quality, design power, and geographical proximity to Europe, we distinguish ourselves from competitors. We took a very important step in the transformation process exactly one year ago. We shared our action plan, which is a road map for our fashion industry's compliance with the Green Deal, with the public on January 30, 2023."

After Mustafa Gültepe's opening speech, Euratex Director General Dirk Vantyghem, Deputy Director General of the Ministry of Trade Bahar Güçlü, and Deputy Secretary General of ITKIB Özlem Güneş made presentations regarding the ongoing efforts in the Green Deal process.

Dirk Vantyghem discussed the sustainability strategy of the textile and apparel industry and the expectations from the EU administration, while Bahar Güçlü provided information about the reflections of legal regulations related to the Green Deal on Türkiye.

Deputy Secretary General of ITKIB Özlem Güneş emphasized the significant opportunity that the Green Deal represents for the Turkish apparel industry, providing comprehensive insights into the efforts conducted by IHKIB regarding the Green Deal adaptation process.

A new research project links some of Denmark's leading researchers in PFAS remediation with artificial intelligence. The goal is to develop and optimise a new form of wastewater and drinking water treatment technology using artificial intelligence for zero-pollution goals.

In a new research and development project, researchers from Aarhus University aim to develop a new technology that can collect and break down perpetual chemicals (PFAS) in one step in a purification process that can be connected directly to drinking water wells and treatment plants.

The project has received funding from the Villum Foundation of DKK 3 million, and it will combine newly developed treatment technology from some of Denmark's leading PFAS remediation researchers with artificial intelligence that can ensure optimal remediation.

"In the project, we will design, construct and test a new, automated degradation technology for continuous PFAS degradation. We’re also going to set up an open database to identify significant and limiting factors for degradation reactions with PFAS molecules in the reactor," says Associate Professor Xuping Zhang from the Department of Mechanical and Production Engineering at Aarhus University, who is co-heading the project in collaboration with Associate Professor Zongsu Wei from the Department of Biological and Chemical Engineering.

Ever since the 1940s, PFAS (per- and polyfluoroalkyl substances) have been used in a myriad of products, ranging from raincoats and building materials to furniture, fire extinguishers, solar panels, saucepans, packaging and paints.

However, PFAS have proven to have a number of harmful effects on humans and the environment, and unfortunately the substances are very difficult to break down in nature. As a result, the substances continuously accumulate in humans, animals, and elsewhere in nature.

In Denmark, PFAS have been found in drinking water wells, in surface foam on the sea, in the soil at sites for fire-fighting drills, and in many places elsewhere, for example in organic eggs. It is not possible to remove PFAS from everything, but work is underway to remove PFAS from the groundwater in drinking water wells that have been contaminated with the substances.

Currently, the most common method to filter drinking water for PFAS is via an active carbon filter, an ion-exchange filter, or by using a specially designed membrane. All of these possibilities filter PFAS from the water, but they do not destroy the PFAS. The filters are therefore all temporary, as they have to be sent for incineration to destroy the accumulated PFAS, or they end in landfills.

The project is called 'Machine Learning to Enhance PFAS Degradation in Flow Reactor', and it aims to design and develop an optimal and permanent solution for drinking water wells and treatment plants in Denmark that constantly captures and breaks down PFAS, while also monitoring itself.

"We need to be creative and think outside the box. I see many advantages in linking artificial intelligence with several different water treatment technologies, but integrating intelligence-based optimisation is no easy task. It requires strong synergy between machine learning and chemical engineering, but the perspectives are huge," says Associate Professor Zongsu Wei from the Department of Biological and Chemical Engineering at Aarhus University.