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Cotton Farmers from Tanzania (c) Martin J Kielmann for CmiA
07.01.2025

Dibella increases the purchase of CmiA Cotton

Dibella is again increasing the use of Cotton made in Africa cotton according to the mass balance system. In 2025, the company will purchase 825 tons of raw fibres. This corresponds to an increase of 10% compared to the previous year.

Dibella has been implementing Cotton made in Africa (CmiA) cotton in its supply chain in accordance with the mass balance system since 2017, thereby supporting socially and ecologically sustainable cotton production in Africa. With this further increase, Dibella is fulfilling its corporate goal of “increasing the use of sustainable fibers”.

The mass balance system allows the raw cotton to be easily implemented in the production process at Dibella's suppliers, while at the same time having a high impact on African cotton farmers. The license costs incurred are borne by Dibella and are not passed on to customers. In this way, Dibella aims to raise awareness for more sustainable raw fiber production, away from cost discussions.

Dibella is again increasing the use of Cotton made in Africa cotton according to the mass balance system. In 2025, the company will purchase 825 tons of raw fibres. This corresponds to an increase of 10% compared to the previous year.

Dibella has been implementing Cotton made in Africa (CmiA) cotton in its supply chain in accordance with the mass balance system since 2017, thereby supporting socially and ecologically sustainable cotton production in Africa. With this further increase, Dibella is fulfilling its corporate goal of “increasing the use of sustainable fibers”.

The mass balance system allows the raw cotton to be easily implemented in the production process at Dibella's suppliers, while at the same time having a high impact on African cotton farmers. The license costs incurred are borne by Dibella and are not passed on to customers. In this way, Dibella aims to raise awareness for more sustainable raw fiber production, away from cost discussions.

Cotton made in Africa cotton causes up to 13% less greenhouse gas emissions compared to the global average. No artificial irrigation is used during cultivation. This not only saves drinking water, but also protects valuable water resources in regions that are often affected by water shortages. Not using genetically modified seeds protects natural biodiversity. This specific example shows just how much the cotton farmers benefit: In Côte d'Ivoire, the income of farming families from the sale of CmiA cotton increased by almost 18 percent between 2015 and 2020, according to an independent study* commissioned to assess CmiA's activities and their impact.

Source:

Dibella GmbH

Polyester carpet Photo Autoneum
Polyester carpet
19.12.2024

Autoneum optimizes environmental performance of Pure technologies for Renault Emblème

Autoneum has supported Renault Group in the development of Renault Emblème, a low-carbon demonstration car designed to reduce greenhouse gas emissions by 90 percent over its entire life cycle. As a key partner of the project, Autoneum further optimized the environmental performance of its sustainable Pure technologies, which were used for numerous components in the vehicle interior and exterior. Leveraging its proven expertise in the development of lightweight and fully recyclable monomaterials with a high recycled content, as well as in the areas of life cycle analysis (LCA) and product innovation, Autoneum was able to reduce the carbon footprint of its parts and contribute to a significant reduction in vehicle weight for Renault Emblème.

Autoneum has supported Renault Group in the development of Renault Emblème, a low-carbon demonstration car designed to reduce greenhouse gas emissions by 90 percent over its entire life cycle. As a key partner of the project, Autoneum further optimized the environmental performance of its sustainable Pure technologies, which were used for numerous components in the vehicle interior and exterior. Leveraging its proven expertise in the development of lightweight and fully recyclable monomaterials with a high recycled content, as well as in the areas of life cycle analysis (LCA) and product innovation, Autoneum was able to reduce the carbon footprint of its parts and contribute to a significant reduction in vehicle weight for Renault Emblème.

Increasingly stringent regulations to reduce greenhouse gas emissions on a global scale, new directives and the electrification of mobility require innovative approaches from the entire automotive industry. To support vehicle manufacturers in achieving their sustainability targets, Autoneum continuously optimizes the environmental performance of its products and processes: from further increasing the share of recycled content and the end-of-life recyclability of its lightweight technologies to reducing waste and shifting to renewable energy in its production facilities. In addition, the Company is working closely with customers and partners to validate data and products together. One of the most recent examples of such a successful collaboration is Autoneum’s contribution to Renault Emblème.

The Renault Emblème demonstration car emits 90% fewer greenhouse gases over its entire life cycle than a comparable vehicle produced today. To achieve these ambitious decarbonization targets, Renault Group assembled more than twenty suppliers from across the industry to participate in specialized projects in five different areas: eco-design, raw material selection, manufacturing, use and end of life. In addition to providing valuable expertise in the areas of LCA and product development, Autoneum’s contribution entailed the further optimization of its environmentally friendly Pure technologies, which already today are characterized by an excellent sustainability performance across the product life cycle and also include the Company’s growing portfolio of monomaterial technologies made of 100 percent polyester.

Autoneum’s innovative and lightweight materials were used for around thirty fiber-based components in the interior and exterior of Renault Emblème, including the carpet, the underbody panels and wheelhouse outer liners as well the front and rear trunk. Thanks to the high recycled content, the waste-free production process and the excellent recyclability of the materials at the end of their service life, Autoneum was able to reduce drastically the carbon footprint of the components. This outstanding achievement was made possible by further boosting the sustainability performance of existing technologies such as Ultra-Silent, Propylat PET, Hybrid-Acoustics and Autoneum’s monomaterial polyester carpet systems. In addition, the parts contributed to a weight reduction, which positively affected both the carbon footprint and the range of the electric car.

Contra Denim Jeans. Photo: Archroma
Contra Denim Jeans.
28.11.2024

Archroma: New DENIM HALO process for laser-friendly denim

Archroma, a global leader in specialty chemicals towards sustainable solutions, will showcase innovations for the denim industry at Sustainability Talks in Istanbul, Turkey and Denim Première Vision in Milan, Italy next month.

Specifically, Archroma will highlight its DENIM HALO pretreatment and dyeing process for laser-friendly, easily washable denim. It will also join its partners Kipaş Denim and Jeanologia to launch a joint hangtag for the upcoming Kipaş Denim Contra Denim collection, which is based on the DENIM HALO concept.

“Denim continues to be an incredibly exciting market segment, with brands and mills pushing the limits in terms of sustainability and aesthetics to give consumers the iconic look and feel of denim in a more environmentally conscious way,” Umberto De Vita, Archroma’s Market Segment Director - Denim, said. “Guided by our PLANET CONSCIOUS+ approach, we develop solutions that not only help our customers navigate the shift to cleaner chemistries and resource-saving processes, but improve their productivity and competitiveness too.”

Archroma, a global leader in specialty chemicals towards sustainable solutions, will showcase innovations for the denim industry at Sustainability Talks in Istanbul, Turkey and Denim Première Vision in Milan, Italy next month.

Specifically, Archroma will highlight its DENIM HALO pretreatment and dyeing process for laser-friendly, easily washable denim. It will also join its partners Kipaş Denim and Jeanologia to launch a joint hangtag for the upcoming Kipaş Denim Contra Denim collection, which is based on the DENIM HALO concept.

“Denim continues to be an incredibly exciting market segment, with brands and mills pushing the limits in terms of sustainability and aesthetics to give consumers the iconic look and feel of denim in a more environmentally conscious way,” Umberto De Vita, Archroma’s Market Segment Director - Denim, said. “Guided by our PLANET CONSCIOUS+ approach, we develop solutions that not only help our customers navigate the shift to cleaner chemistries and resource-saving processes, but improve their productivity and competitiveness too.”

Innovative DENIM HALO process
The DENIM HALO process combines Archroma’s new DIRSOL® RD special pretreatment with its DENISOL® indigo dyes, including an aniline-free formulation, or DIRESUL® sulfur black, sulfur blue or sulfur colors dyestuffs to achieve a ring-dyeing effect. This superficial dyeing creates laser-friendly denim for popular worn or distressed washdown effects while reducing yarn shrinkage and improving garment tensile strength.

Crucially, the new process also delivers a substantially reduced environmental footprint compared to industry-standard denim finishing. It avoids processes like manual hand scraping or potassium permanganate spraying and helps reduce caustic soda use in sulfur dyeing, which lowers the effluent load and improves weaving efficiency.

Low-impact Contra Denim collection
Archroma will also join Kipaş Denim, a leader in integrated textile production based in Turkey, and Jeanologia, a sustainable textile solutions company, to launch a hangtag program for the upcoming Kipaş Denim Contra Denim collection.

Based on DENIM HALO, the Contra Denim concept is a dyeing and finishing process that enables brands to create stunning and long-lasting distressed looks and design effects, such as intricate patterns, whiskering and fades, through cleaner processes that save water and energy and reduce greenhouse gas emissions. The hangtag will enable partner brands to communicate these benefits to consumers at the point of sale, nurturing transparency and trust.

The Archroma team at Sustainability Talks 2024
Sustainability Talks is an intensive one-day event that emphasizes networking and collaboration to solve the textile industry’s toughest challenges through sustainable solutions (Archroma in Turkey at Booth 20 at the Hilton Istanbul Bomonti Conference Center for Sustainability Talks on December 3, 2024).

Archroma at Denim Première Vision 2024
Denim Première Vision is bringing the global denim community to Milan, Italy in December to explore denim trends, markets and culture through the lens of eco-responsibility. Meet our experts Umberto De Vita and Julio Perales to learn more about our denim solutions. (Archroma in Milan at Booth C14 at Superstudio Più for Denim Première Vision on December 4-5, 2024).

Source:

Archroma

14.11.2024

Twenty Years of Sustainability Report for RadiciGroup

Twenty years have in fact passed since the Group published its first Social Report in 2004, qualifying it as one of the pioneering companies in the realisation of voluntary non-financial reporting. The document measures the Group’s achievements and the actions it has taken to reduce its environmental impact, respect social values, and implement good business management practices.

Over the years, the Report has steadily evolved and is now a true sustainability report that considers all ESG (Environment, Social and Governance) aspects, showing how they are also central to the company's business strategy. Over time, many new topics have been covered, the accuracy of the data has improved and the scope has expanded to include all Group companies: over 30 sites across Asia, the Americas and Europe.

The information contained in the Sustainability Report shows RadiciGroup's strong commitment, starting with the investments made:

Twenty years have in fact passed since the Group published its first Social Report in 2004, qualifying it as one of the pioneering companies in the realisation of voluntary non-financial reporting. The document measures the Group’s achievements and the actions it has taken to reduce its environmental impact, respect social values, and implement good business management practices.

Over the years, the Report has steadily evolved and is now a true sustainability report that considers all ESG (Environment, Social and Governance) aspects, showing how they are also central to the company's business strategy. Over time, many new topics have been covered, the accuracy of the data has improved and the scope has expanded to include all Group companies: over 30 sites across Asia, the Americas and Europe.

The information contained in the Sustainability Report shows RadiciGroup's strong commitment, starting with the investments made:

  • between 2019 and 2023, €278 million were allocated to support the competitiveness of the Group's companies, of which €45 million in 2023 alone;
  • the amount invested in the environment in 2023 and earmarked for the introduction of Best Available Techniques and performance efficiency reached €4.2 million.

Twenty years of reporting have also allowed RadiciGroup to measure the results of the investments it has made, to such an extent that in 2023 it already achieved the first goal of its "From Earth to Earth" Roadmap to 2030, i.e., a Group-wide reduction of 83% in direct CO2 equivalent emissions compared to 2011.

A significant contribution to this result came from the commissioning of an EnviNOx plant at the Radici Chimica plant in Germany, which, thanks to this technological innovation, greatly reduced its direct greenhouse gas emissions (- 92%).

The focus on responsible use of natural resources continues: In 2023, the share of electricity from renewable sources used for production processes was consolidated at 59%. The percentage of water resources saved through the practice of water recycling was also raised to 79%: some of our plants in fact reuse the same water up to 60 times and then return it to the environment. The theme of circular economy remains a cross-cutting one in many of the innovation projects, often also in a collaborative perspective with the rest of the supply chain. In particular, all Radicigroup companies work to contain the generation of scrap and waste through rigorous process management: 73% of all non-hazardous waste was recovered in 2023 and 56% of this was destined for internal recovery.

Even in the product area, measurement is fundamental, which is why RadiciGroup has long used Life Cycle Assessment studies to objectively calculate the environmental impact of its products and introduce environmental footprint mitigation solutions. This commitment is also evidenced by the numerous environmental certifications obtained by RadiciGroup plants.

With a view to promoting collaboration with customers, suppliers, scientific partners or independent experts in order to develop innovative and sustainable technologies or materials, RadiciGroup has strongly promoted open innovation projects: opportunities to stimulate a Group culture increasingly open to change and contamination with different fields of knowledge.

Regarding its employees, the Group has placed significant emphasis on training, particularly in fostering ESG awareness. In fact, in 2023, it organised its first large-scale training program focused on sustainability and circularity, engaging around 240 employees and delivering a total of 1,500 training hours. In addition, an internal human rights survey was launched, the results of which will form the basis for the formulation of a company policy on human rights and diversity.

Source:

RadiciGroup

RISE® Innovation Award: Three Finalists (c) INDA
06.09.2024

RISE® Innovation Award: Three Finalists

INDA, the Association of the Nonwoven Fabrics Industry, has announced the finalists for the 2024 RISE® Innovation Award. On October 1-2, technology scouts, product developers, and business development professionals will gather at the James B. Hunt, Jr. Library, North Carolina State University, Raleigh, NC, to explore nonwoven research and advancements.

Finalists will present their innovations to RISE participants on Tuesday, October 1st. The Award winner will be revealed on Wednesday afternoon, October 2nd.

The 2024 Award Finalists:
Dual-Layer Filtration Media by Ahlstrom Italia S.p.A. – Ahlstrom’s new dual-layer filter media technology enhances engine air intake filtration performances, offering up to double the dust holding capacity and extending filter lifetime by over 50% compared to single-layer media. It also enables smaller, lighter filter designs, meeting current and future engine specifications, including fuel cells. Dual-layer filter media can be offered with flame-retardant functionality for various transportation and industrial applications, ensuring safety, improved performances and reduced environmental impact.

INDA, the Association of the Nonwoven Fabrics Industry, has announced the finalists for the 2024 RISE® Innovation Award. On October 1-2, technology scouts, product developers, and business development professionals will gather at the James B. Hunt, Jr. Library, North Carolina State University, Raleigh, NC, to explore nonwoven research and advancements.

Finalists will present their innovations to RISE participants on Tuesday, October 1st. The Award winner will be revealed on Wednesday afternoon, October 2nd.

The 2024 Award Finalists:
Dual-Layer Filtration Media by Ahlstrom Italia S.p.A. – Ahlstrom’s new dual-layer filter media technology enhances engine air intake filtration performances, offering up to double the dust holding capacity and extending filter lifetime by over 50% compared to single-layer media. It also enables smaller, lighter filter designs, meeting current and future engine specifications, including fuel cells. Dual-layer filter media can be offered with flame-retardant functionality for various transportation and industrial applications, ensuring safety, improved performances and reduced environmental impact.

ENDURA™ rPP Spunbond & SMS by Berry Global – A pre-consumer recycled Spunbond and SMS product, recognized by SCS Recycled Content Certification. With Spunbond products containing up to 90% recycled content and SMS products containing up to 40% recycled content, customers/consumers are provided a product with greenhouse gas emissions benefits, validated with life cycle assessment tools assumptions based on the actual production.  ENDURA Spunbond products have the opportunity to reduce CO2 emissions per kilogram of production by 70%, versus previous generation of product.

PlantPanel X by Hempitecture Inc. – PlantPanel X is a rigid continuous insulation material used in exterior above-ground applications. With an R Value of R3.25 per inch, PlantPanel adds to thermal and acoustic comfort and performance. Engineered with a density to resist compression and deflection, PlantPanel is used in split-insulation wall and roof assemblies with either a rain screen cladding or roofing material, depending on the application. With 100% biobased and recycled content, PlantPanel is a sustainable, low carbon continuous insulation solution that’s easy to install and safe to handle.

2023 RISE Innovation Award winner:
TiHive won the 2023 RISE Innovation Award for their SAPMonit technology. TiHive’s innovation, SAPMonit, inspects millions of diapers weekly. SAPMonit delivers lightning-speed inline inspection of superabsorbents’ weight and distribution, optimizes resources, detects flaws, and accelerates R&D.

Source:

INDA, the Association of the Nonwoven Fabrics Industry

Photo: Archroma
03.09.2024

Archroma, Kipaş Denim and Jeanologia collaborate for new finishing process

Archroma, specialist in chemicals towards sustainable solutions, Kipaş Denim, a Turkish company with a focus on integrated textile production, and Jeanologia, a sustainable textile solutions company, are collaborating to pioneer a new denim finishing process for enhanced aesthetic appeal and greater sustainability.

Combining their advanced technologies, the three textile innovators are behind the launch of Kipaş Denim’s new Contra Denim concept – a breakthrough in denim dyeing and finishing that enables brands to create stunning and long-lasting distressed looks and designs effects, including intricate patterns, whiskering and fades, through cleaner processes that save water and energy and reduce greenhouse gas emissions.

Denim has traditionally been challenging to produce, especially for black and indigo fabric with a worn or distressed look, requiring significant water usage, harmful chemicals and intensive manual labor. The Contra Denim collection is laser- and laundry-friendly, with colors that are deep and durable. Stunning wash-down vintage effects and high contrasts are achieved via washing or laser techniques.

Archroma, specialist in chemicals towards sustainable solutions, Kipaş Denim, a Turkish company with a focus on integrated textile production, and Jeanologia, a sustainable textile solutions company, are collaborating to pioneer a new denim finishing process for enhanced aesthetic appeal and greater sustainability.

Combining their advanced technologies, the three textile innovators are behind the launch of Kipaş Denim’s new Contra Denim concept – a breakthrough in denim dyeing and finishing that enables brands to create stunning and long-lasting distressed looks and designs effects, including intricate patterns, whiskering and fades, through cleaner processes that save water and energy and reduce greenhouse gas emissions.

Denim has traditionally been challenging to produce, especially for black and indigo fabric with a worn or distressed look, requiring significant water usage, harmful chemicals and intensive manual labor. The Contra Denim collection is laser- and laundry-friendly, with colors that are deep and durable. Stunning wash-down vintage effects and high contrasts are achieved via washing or laser techniques.

Contra Denim is based on Archroma’s DENIM HALO, a new approach to denim production that incorporates resource-saving pretreatment that includes DIRSOL® RD and dyeing processes to produce easy-wash laser-friendly denim. It delivers a substantially reduced environmental footprint compared to the industry-standard denim finishing process while reducing yarn shrinkage and improving garment tensile strength.

The Contra Denim’s vintage looks are achieved with advanced laser marking technology from Jeanologia. Thanks to the combination of Archroma and Jeanologia technologies, manual hand scraping or potassium permanganate spraying harmful for workers and the environment are completely eliminated.

Fernando Cardona, Brain Box Team Manager, Jeanologia, said: “As a purpose-driven textile technology company, we take pride in working with partners to accompany them through their transformational processes. We are delighted to work with industry leaders such as Archroma and Kipaş Denim, who are at the forefront of responsible denim production.”

Initially producing a ContraBlack Denim collection, Kipaş Denim has now extended the Contra line to classic indigo and other colors from the DIRESUL® RDT range.

The ContraBlack collection earned a Jeanologia Environmental Impact Measurement (EIM) score of 11 on stone wash versus the ring dyeing market standard score of 67. This confirms the low impact of the ContraBlack range in both water and energy consumption, chemical impact and workers’ health.

Source:

Archroma

Foto Hong Kong Polytechnic University
18.07.2024

Hong Kong Polytechnic University develops intelligent activewear

The Paris 2024 Summer Olympic Games are just around the corner and a global sports frenzy is underway. However, intense summer workouts often lead to sportswear absorbing excessive sweat, becoming clingy and cumbersome, causing discomfort and potentially impacting performance. A research team from the School of Fashion and Textiles at The Hong Kong Polytechnic University (PolyU) has developed the iActive™ sportswear range which features a root-like liquid transport system and a skin-like active perspiration dissipater and utilises nature-inspired, anti-heat textile fabrics to expedite sweat removal, effectively reducing the weight and stickiness of activewear caused by sweat accumulation during exercise.

The Paris 2024 Summer Olympic Games are just around the corner and a global sports frenzy is underway. However, intense summer workouts often lead to sportswear absorbing excessive sweat, becoming clingy and cumbersome, causing discomfort and potentially impacting performance. A research team from the School of Fashion and Textiles at The Hong Kong Polytechnic University (PolyU) has developed the iActive™ sportswear range which features a root-like liquid transport system and a skin-like active perspiration dissipater and utilises nature-inspired, anti-heat textile fabrics to expedite sweat removal, effectively reducing the weight and stickiness of activewear caused by sweat accumulation during exercise.

The human body has millions of sweat glands that are vital for regulating body temperature by dissipating sweat for evaporation to cool the skin’s surface. With unabating greenhouse gas emissions, the number of very hot days annually is expected to increase significantly. This will lead to elevated energy consumption and increased sweating during physical activity and outdoor labour. Even when wearing highly breathable clothes with good sweat-wicking properties, individuals may still experience discomfort due to excessive sweat accumulation.

A research team led by Dr SHOU Dahua, Limin Endowed Young Scholar in Advanced Textiles Technologies and Associate Professor of the School of Fashion and Textiles at PolyU, has invented the iActive™, intelligent, electrically activated sportswear with a nature-inspired active perspiration function.

Its nature-inspired technologies, including low-voltage-driven artificial “sweat glands” created by skin-like anti-heat textile fabrics and a root-like branching liquid transport system that aligns with the body’s sweat map, can actively and programmably remove sweat to a perspiration dissipater at the lower region of the sportswear. The all-textile sweat dissipater is compact and operates at a safe output voltage of approximately 5-9V, and its battery is easy to detach from the clothing, making it convenient for users to repeatedly wash the clothing by hand or in a washing machine to maintain hygiene. When the human body’s sweat rate is low, iActive™ can still be used independently without the battery.

Based on the optimised wettability pattern and gradient, the research team utilises a skin-like textile fabric to transport sweat one-way quickly and dissipate it from the inside to the outside. This feature reduces the stickiness and weight of clothing, improves breathability and ensures the garments remain dry and comfortable to wear. Experimental findings indicate that iActive™ creates a breathable and dry skin microclimate by dissipating sweat at a rate that is three times faster than the maximum human sweating rate. This innovation can also prevent discomfort from coldness and moisture after a workout. In comparison to traditional fabrics, the textile materials in iActive™ are 60% lighter and 50% less clingy when soaked, providing the wearer with all-round comfort and enabling sports enthusiasts and athletes to perform at their best.

Furthermore, a mobile app further aids personalised sweat management by wirelessly adjusting the sweat level of iActive™. This innovation is versatile and can be seamlessly integrated into a variety of textile materials to facilitate sustainable mass production. Beyond sportswear, iActive™ is also well-suited to protective clothing and workwear for individuals engaged in prolonged, high-intensity physical labour and outdoor occupations, including healthcare professionals, construction workers, firefighters, law enforcement officers and others, thereby significantly enhancing their work performance.

Dr Shou Dahua stated, “The extreme weather and high temperatures resulting from global warming have elevated the importance of heatstroke prevention and cooling measures on a global scale. Drawing on the vivid phenomena of thermal insulation and directed liquid flow in nature, we aim to foster innovation and sustainable advancement in garment manufacturing by inventing intelligent clothing and materials to address global challenges. We seek to harness the power of technology to infuse fresh perspectives into the traditional clothing industry, thereby enhancing its competitiveness.”

His research team has also developed a premium fabric named Omni-Cool-Dry™, drawing inspiration from volcano dwelling beetles. This fabric not only provides ultra-fast sweat dissipation and ensures all-day comfort with its dry and breathable features under dynamic thermal conditions, but also reflects solar radiation and emits body heat into the cold universe, enabling passive cooling. The team is working hard to leverage the benefits of both inventions to further enhance the sweat-dissipating and cooling capability of iActive™ sportswear.

Dr Shou Dahua, a core member of the PolyU Research Institute for Intelligent Wearable Systems and the Research Centre of Textiles for Future Fashion, has recently been bestowed with the 2023 Distinguished Achievement Award by The Fiber Society for his outstanding contributions to the fields of personal thermal and moisture management, intelligent wearables and soft robotics. The accolade is presented annually to an individual researcher worldwide. He has also received international innovation awards, including consecutive TechConnect Global Innovation Awards in 2021 and 2022. Moreover, his research papers have been published in various internationally renowned academic journals including Science Advances, PNAS, Advanced Functional Materials, and Advanced Energy Materials. Dr Shou will be chairing The Fiber Society Spring 2025 Conference at PolyU.

 

Source:

Hong Kong Polytechnic University

09.07.2024

Asahi Kasei presents fibrillation finishing technology and LCA study report

Bemberg™ by Asahi Kasei presents its Velutine™ Evo brand, a finishing refinement technology developed by the Japanese laboratories of Asahi Kasei for Bemberg™. It offers a new way to generate fibrillation, featuring fabrics with a more “quiet-relaxed” appearance combined with a delicate and sensitive touch. VelutineTM Evo also brings environmental, global warming (CO2 emission) and water profiles for the benefit of BembergTM partners in the manufacture.

Bemberg™ by Asahi Kasei presents its Velutine™ Evo brand, a finishing refinement technology developed by the Japanese laboratories of Asahi Kasei for Bemberg™. It offers a new way to generate fibrillation, featuring fabrics with a more “quiet-relaxed” appearance combined with a delicate and sensitive touch. VelutineTM Evo also brings environmental, global warming (CO2 emission) and water profiles for the benefit of BembergTM partners in the manufacture.

The roll out of the evolved VelutineTM Evo technology will start its journey and activation with Infinity, a BembergTM partner and textile manufacturer located in Rovereto, in the Trentino Alto Adige area of Italy. Research and experimentation with new materials and finishings are part of Infinity’s daily work and results are guaranteed through attention to traceability, the use of certifications, and quality control throughout the process. Each material is closely selected from a sustainability standpoint, while the chemical impact of treating textiles is something that they also take extremely seriously. Infinity guarantees the traceability of every product that they make. Every step of the working process can be traced, thanks to a network of trusted suppliers who share their ethos and values.

Asahi Kasei is also releasing the LCA study report - Life Cycle Assessment. The study evaluated and quantified the environmental impact indicators associated with the technological processes involved in the production of BembergTM dyed fabric through the application of the traditional technology of fibrillation. LCA report study made by Centro Tessile Serico Sostenibile confirms all the projected data savings:

  • Global Warming Potential: 30% reduction in greenhouse gas emissions
  • Water consumption for ennobling process: 40% reduction
Source:

Asahi Kasei / C.L.A.S.S. Eco Hub

The partners at the BioFibreLoop kick-off event. Photo: DITF
The partners at the BioFibreLoop kick-off event.
01.07.2024

BioFibreLoop has been started

The German Institutes of Textile and Fiber Research Denkendorf (DITF) are coordinating the research project, which is funded as part of the European Union's Horizon Europe research and innovation program. The aim of BioFibreLoop is to develop recyclable outdoor and work clothing made from renewable bio-based materials. The kick-off event took place in Denkendorf on June 26 and 27, 2024.

The textile industry is facing two challenges: on the one hand, production must become more sustainable and environmentally friendly and, on the other, consumers are expecting more and more smart functions from clothing.

In addition, the production of functional textiles often involves the use of chemicals that are harmful to the environment and health and make subsequent recycling more difficult.

Intelligent innovations must therefore ensure that harmful chemicals are replaced, water is saved and more durable, recyclable bio-based materials are used, thereby reducing the usually considerable carbon footprint of textile products. Digitalized processes are intended to ensure greater efficiency and a closed cycle.

The German Institutes of Textile and Fiber Research Denkendorf (DITF) are coordinating the research project, which is funded as part of the European Union's Horizon Europe research and innovation program. The aim of BioFibreLoop is to develop recyclable outdoor and work clothing made from renewable bio-based materials. The kick-off event took place in Denkendorf on June 26 and 27, 2024.

The textile industry is facing two challenges: on the one hand, production must become more sustainable and environmentally friendly and, on the other, consumers are expecting more and more smart functions from clothing.

In addition, the production of functional textiles often involves the use of chemicals that are harmful to the environment and health and make subsequent recycling more difficult.

Intelligent innovations must therefore ensure that harmful chemicals are replaced, water is saved and more durable, recyclable bio-based materials are used, thereby reducing the usually considerable carbon footprint of textile products. Digitalized processes are intended to ensure greater efficiency and a closed cycle.

For example, the BioFibreLoop project uses laser technology to imitate natural structures in order to produce garments with water and oil-repellent, self-cleaning and antibacterial properties. At the end result of the research work will be affordable, resource and environmentally friendly, yet high-performance and durable fibers and textiles made from renewable sources such as lignin, cellulose and polylactic acid will be available. All processes are aimed at a circular economy with comprehensive recycling and virtually waste-free functionalization based on nature's example. In this way, greenhouse gas emissions could be reduced by 20 percent by 2035.

The technology for the functionalization and recycling of bio-based materials is being developed in three industrial demonstration projects in Austria, the Czech Republic and Germany. At the end of the project, a patented circular, sustainable and reliable process for the production of recyclable functional textiles will be established.

The BioFibreLoop project has a duration of 42 months and a total budget of almost 7 million euros, with 1.5 million going to the coordinator DITF.

The consortium consists of 13 partners from nine countries who contribute expertise and resources from science and industry:

  • German Institutes of Textile and Fiber Research Denkendorf (DITF), Coordinator, Germany
  • Next Technology Tecnotessile Società nazionale di ricerca R. L., Italy
  • Centre Technologique ALPhANOV, France
  • G. Knopf’s Sohn GmbH & Co. KG, Germany
  • FreyZein Urban Outdoor GmbH, Austria
  • BEES - BE Engineers for Society, Italy
  • BAT Graphics Vernitech, France
  • Interuniversitair Micro-Electronica Centrum, Belgium
  • Idener Research & Development Agrupacion de Interes Economico, Spain
  • Teknologian tutkimuskeskus VTT Oy, Finland
  • Det Nationale Forskningscenter for Arbejdsmiljø, Denmark
  • Steinbeis Innovation gGmbH, Germany
  • NIL Textile SRO, Czech Republic
Source:

Deutsche Institute für Textil- und Faserforschung

26.06.2024

Archroma awarded for Sustainability Innovation and Community Engagement

Archroma has won awards in two categories at the Just Style 2024 Excellence Awards. It took home two coveted Innovation Excellence awards for its SUPER SYSTEMS+ solutions and AVICUERO® leather tanning process, as well as a Social Excellence award for its longstanding and holistic commitment to community engagement in Baroda, India.

The awards recognize how Archroma is driving change with innovations that advance sustainability and through initiatives that contribute to the socio-economic progress of communities near to its Baroda manufacturing plant.

Innovation Awards
Archroma was recognized for advancing sustainable manufacturing in two Just Style Excellence Awards for Innovation.

SUPER SYSTEMS+ is a comprehensive suite of solutions that addresses the textile industry's key challenges, including water consumption, greenhouse gas emissions, circularity, chemical management and compliance.

Archroma has won awards in two categories at the Just Style 2024 Excellence Awards. It took home two coveted Innovation Excellence awards for its SUPER SYSTEMS+ solutions and AVICUERO® leather tanning process, as well as a Social Excellence award for its longstanding and holistic commitment to community engagement in Baroda, India.

The awards recognize how Archroma is driving change with innovations that advance sustainability and through initiatives that contribute to the socio-economic progress of communities near to its Baroda manufacturing plant.

Innovation Awards
Archroma was recognized for advancing sustainable manufacturing in two Just Style Excellence Awards for Innovation.

SUPER SYSTEMS+ is a comprehensive suite of solutions that addresses the textile industry's key challenges, including water consumption, greenhouse gas emissions, circularity, chemical management and compliance.

By providing end-to-end, fiber-specific solutions that enhance process efficiency and offer intelligent effects, SUPER SYSTEMS+ enables mills and brands to meet their sustainability targets as well as consumer demand for durable products with enhanced functionality and sustainability. With end-to-end solutions from pre-treatment to finishing, SUPER SYSTEMS+ can be deployed without additional investment. With future compliance in mind, the solutions also go beyond current regulations and industry standards to anticipate upcoming restrictions.

Archroma’s AVICUERO® is a system for sustainable leather tanning and dyeing. Developed in collaboration with UK-based leather technology expert Dr Leather, it is both chrome- and metal-free and yet maintains the quality and performance of traditional tanning methods. Tanners enjoy shorter processing times, eliminate the pickling process and reduce salt usage, leading to lower pollution effluent discharge loads. In addition, AVICUERO® can offer energy savings of up to 25% and CO2 emissions reductions of up to 23% compared to traditional chrome tanning.

Social Award for Community Engagement
Archroma has also been recognized for the positive impact it is having on communities in the vicinity of Baroda through multifaceted initiatives that span early childhood development, student scholarships, agricultural education and the empowerment of women.

Archroma recently set up an Anganwadi Centre to provide a range of services in the community, including nutrition and health education and pre-school learning. It also runs a scholarship program for students in vocational training, helping to create a skilled talent pool for the region. Archroma is also collaborating with a local NGO to empower farmers with modern agricultural methods and insights.

The building of a Household Biogas Plant in Umraya village is another example of Archroma's sustainable initiatives. The conversion of manure into clean renewable energy by the plant tackles several issues, such as reducing greenhouse gas emissions and enhancing soil health. It also liberates rural women from the burden of sourcing conventional fuel sources and the health risks associated with burning dung cakes for fuel.

Source:

Archroma

Photo: Active Apparel Group
28.05.2024

Active Apparel Group Commits to Decarbonization Program

Manufacturer of activewear and swimwear, Active Apparel Group (AAG), has committed to a structured approach in reducing its environmental impact across its global operations through an Environmental Management System (EMS). The EMS, built using the ISO14001 Standard Framework, incorporates key environmental policy commitments and has set targets and strategies to reduce the carbon footprint of its operations across China, Australia and USA.

Through a third-party audit of its greenhouse gas emissions (GHGs), AAG has identified the following areas of focus to reduce impacts:

Manufacturer of activewear and swimwear, Active Apparel Group (AAG), has committed to a structured approach in reducing its environmental impact across its global operations through an Environmental Management System (EMS). The EMS, built using the ISO14001 Standard Framework, incorporates key environmental policy commitments and has set targets and strategies to reduce the carbon footprint of its operations across China, Australia and USA.

Through a third-party audit of its greenhouse gas emissions (GHGs), AAG has identified the following areas of focus to reduce impacts:

  • Reduction in Scope 1 energy use
  • Reduction in air freight
  • Reduction in water usage across the business
  • Ongoing collection and management of production waste
  • Increased use of sustainable materials
  • Continued collection of GHG data for ongoing improvement

AAG’s EMS is designed to be embedded within the operations of the business, with functional ownership of targets established and education of the team prioritized, to deliver results on reducing environmental impact. Quarterly reporting of its progress is communicated to stakeholders and reviewed by the company’s Board of Directors.

The EMS is part of AAG’s ongoing Responsible Business Strategy - a company-wide commitment to driving continuous improvement across the areas of Governance, Social and Environmental impact. Other initiatives include Living Wage Audit by Bureau Veritas (AAG pays 100% Living Wage); Materiality Assessment; Supply Chain Traceability Project; Circularity and Waste Management along with annual third-party audits - SMETA, Gold WRAP, Supplier Qualification Program and its Modern Slavery Statement.

Source:

Active Apparel Group

TrusTrace launches Playbook for fashion industry (c) TrusTrace
24.05.2024

TrusTrace launches Playbook for fashion industry

TrusTrace, a global SaaS company with a market-leading platform for supply chain traceability and compliance in fashion and retail, announced the launch of its third playbook entitled, “Unlocking DPP: The Why, What and How of Digital Product Passports.”

Unveiled at the Global Fashion Summit in Copenhagen, the playbook offers a guide for fashion industry professionals grappling with the data collection and implementation of the widely anticipated Digital Product Passport, which will come into force in the European Union between 2026-2030. The book busts some common myths and misconceptions about the DPP, and offers a data protocol for brands to follow to start collecting DPP data and setting up their digital systems for DPP implementation.

TrusTrace, a global SaaS company with a market-leading platform for supply chain traceability and compliance in fashion and retail, announced the launch of its third playbook entitled, “Unlocking DPP: The Why, What and How of Digital Product Passports.”

Unveiled at the Global Fashion Summit in Copenhagen, the playbook offers a guide for fashion industry professionals grappling with the data collection and implementation of the widely anticipated Digital Product Passport, which will come into force in the European Union between 2026-2030. The book busts some common myths and misconceptions about the DPP, and offers a data protocol for brands to follow to start collecting DPP data and setting up their digital systems for DPP implementation.

The guide, which has been authored by journalist Brooke Roberts-Islam, opens with ‘The Why’ of the DPP, breaking down the complex set of incoming EU legislation, and explaining why DPP is an essential tool for achieving the EU’s legally-binding commitment to reach net-zero greenhouse gas emissions by 2050. The guide highlights the significant data gaps and how the DPP will address these by collecting and sharing circularity data.

‘The What’ section explains the three core components of the DPP: product data, unique identifiers and the required interoperable IT system (for decentralized data sharing). This section also offers a breakdown of who and what is in scope, along with the required data systems. ‘The When’ offers all brands an essential overview of the DPP timeline and requirements for textile products under the ESPR.

‘The How’ provides brands with the essential steps to successfully collect data and implement a DPP scheme. The insights in this chapter are derived from the Trace4Value project, a live DPP pilot led by TrusTrace to test an end-to-end DPP data and system infrastructure for textile products entering the EU market. The pilot cohort embedded DPP carriers with live data into selected Kappahl and Marimekko products, which launched on the market in early 2024.

Source:

TrusTrace

16.02.2024

Lenzing updated its climate targets

The Lenzing Group has updated its climate targets to align with the goals of the Paris Agreement to limit the human-induced global temperature increase to 1.5 degrees Celsius. The Science Based Targets Initiative (SBTi) has reviewed and confirmed this target improvement.

By 2030, Lenzing aims to reduce its direct emissions from the production of its fiber and pulp plants (scope 1) and its emissions from purchased energy (scope 2) by 42 percent and its indirect emissions along the value chain (scope 3) by 25 percent on the way to net zero, from 2021 baseline. This corresponds to an absolute reduction of 1,100,000 tons (instead of the previously targeted 700,000 tons).

The following targets were recognized and confirmed by the SBTi:

The Lenzing Group has updated its climate targets to align with the goals of the Paris Agreement to limit the human-induced global temperature increase to 1.5 degrees Celsius. The Science Based Targets Initiative (SBTi) has reviewed and confirmed this target improvement.

By 2030, Lenzing aims to reduce its direct emissions from the production of its fiber and pulp plants (scope 1) and its emissions from purchased energy (scope 2) by 42 percent and its indirect emissions along the value chain (scope 3) by 25 percent on the way to net zero, from 2021 baseline. This corresponds to an absolute reduction of 1,100,000 tons (instead of the previously targeted 700,000 tons).

The following targets were recognized and confirmed by the SBTi:

  1. Overall net-zero target: Lenzing AG commits to reach net-zero greenhouse gas emissions along the entire value chain by 2050.
  2. Near-term targets: Lenzing AG commits to reduce absolute scope 1 and scope 2 greenhouse gas emissions by 42 percent by 2030 from a base year 2021. Lenzing AG also commits to reduce absolute scope 3 greenhouse gas emissions from purchased goods and services, fuels and energy-related activities as well as upstream transport and distribution by 25 percent within the same timeframe.
  3. Long-term targets: Lenzing AG commits to reduce absolute scope 1 and scope 2 greenhouse gas emissions by 90 percent by 2050 from a base year 2021. Lenzing AG also commits to reduce absolute scope 3 greenhouse gas emissions by 90 percent within in the same timeframe.

These updated targets replace the old SBTi approved Lenzing Group’s climate target in 2019.

07.02.2024

RadiciGroup’s roadmap to a sustainable future

“From Earth to Earth”: The new plan defines goals and concrete actions in Environmental, Social and Governance (ESG) areas to foster value creation for all stakeholders and put new sustainability regulatory requirements at the centre of attention.

A project, designed to enhance RadiciGroup's transparency and commitment to develop a responsible business along its entire value chain from an economic, social and environmental perspective and focus on the ever more widespread and stringent sustainability regulatory requirements. These are the features and goals of the Sustainability Plan presented by the Group and called "From Earth to Earth", precisely to emphasize the intent to focus on the Earth and future generations.

“From Earth to Earth”: The new plan defines goals and concrete actions in Environmental, Social and Governance (ESG) areas to foster value creation for all stakeholders and put new sustainability regulatory requirements at the centre of attention.

A project, designed to enhance RadiciGroup's transparency and commitment to develop a responsible business along its entire value chain from an economic, social and environmental perspective and focus on the ever more widespread and stringent sustainability regulatory requirements. These are the features and goals of the Sustainability Plan presented by the Group and called "From Earth to Earth", precisely to emphasize the intent to focus on the Earth and future generations.

In the context of a complex and constantly changing scenario, the Group has therefore decided to capitalize on the goals achieved and look beyond them with a plan defining the medium-term targets and the actions to be taken to fulfil them and covering all areas considered to be "material”, i.e., relevant from the point of view of ESG and financial risks, opportunities and impacts. Indeed, the ultimate goal of "From Earth to Earth" is to support business continuity and the growth of the company and all its stakeholders.

The project was the result of a multi-year collaboration with Deloitte, which contributed an external and objective viewpoint on the definition of the material targets and themes. However, it was not an armchair exercise, but the result of an extensive listening process involving internal and external stakeholders, all of whom were sustainability experts who helped define a shortlist of strategic themes for both the Group and its main stakeholders. These issues were then analysed in detail using working tables on the different themes to identify the objectives in Environmental, Social and Governance areas and the related concrete actions needed to achieve them, in line with the European decarbonization and energy transition policies and the
United Nations Sustainable Development Goals, a global blueprint for sustainable growth.

In particular, RadiciGroup’s environmental goals include: a 20% increase and differentiation in renewable source electricity consumption, an 80% reduction in total direct greenhouse gas emissions by 2030 compared to 2011, attention to water consumption to limit the impact on local communities and biodiversity, the extension of Life Cycle Assessment (LCA) methodology to measure the environmental impact of 70% of the products (in terms of weight) manufactured by the entire Group, collaboration among the various actors in the supply chain from an ecodesign perspective and the search for increasingly more sustainable and circular packaging solutions.

Dibella increases purchase of Cotton made in Africa Cotton (c) Martin Kielmann/Cotton made in Africa
08.01.2024

Dibella increases purchase of Cotton made in Africa Cotton

  • Dibella increases the use of Cotton made in Africa cotton according to the mass balance system from 300,000kg in 2023 to 750,000kg in 2024.

With Cotton made in Africa (CmiA), Dibella is making its business model even more sustainable. This enables the company to minimise its environmental impact and support the people in the growing regions. Dibella relies on the CmiA mass balance system in the chain to achieve its corporate goal of "increasing the use of sustainable fibres".

  • Dibella increases the use of Cotton made in Africa cotton according to the mass balance system from 300,000kg in 2023 to 750,000kg in 2024.

With Cotton made in Africa (CmiA), Dibella is making its business model even more sustainable. This enables the company to minimise its environmental impact and support the people in the growing regions. Dibella relies on the CmiA mass balance system in the chain to achieve its corporate goal of "increasing the use of sustainable fibres".

Cotton made in Africa initiative is an internationally recognised standard for sustainable cotton grown by African smallholder farmers. With up to 13% less greenhouse gas emissions, CmiA-verified cotton has a significantly lower impact on the environment than the global average and also supports village communities in Africa beyond sustainable cotton cultivation. CmiA supports smallholder farmers in sub-Saharan Africa in the sustainable cultivation of genetically unmodified cotton and is committed to improving working conditions in ginning factories. Through a licence fee, which is paid by customers like Dibella, the farmers receive training and access to operating resources in order to reduce the use of pesticides and increase the quality of their cotton and yields from their fields at the same time.

Cotton made in Africa takes a pragmatic approach to the processing of its cotton with two different models in order to best meet the demands for transparency and feasibility in the chain: The Hard Identity Preserved System and the Mass Balance System; Dibella has opted for the latter. While CmiA-verified cotton is always traded separately from other cotton right up to the spinning mill and can therefore be traced seamlessly from the growing region to the ginning plant to the spinning mill, the mass balance system allows CmiA cotton to be mixed with cotton of other origins at the spinning mill level as long as a balance between cotton purchases and CmiA-labelled yarns is ensured. This principle ensures the purchase of sustainably grown fibres and helps Dibella to bring a larger quantity of sustainable cotton into its textile cycle, which ultimately benefits smallholder farmers.

Source:

Dibella GmbH

Carbios published Sustainability Report for 2022 (c) Carbios
29.12.2023

Carbios published 2022 Sustainability Report

CARBIOS published its second Sustainability Report with 2022 as the reference year. Like the first, this report is not subject to any publication obligation for the company, confirms CARBIOS' commitment and desire for transparency in terms of environmental, social and governance (ESG) initiatives.

In 2022, several objectives were achieved:

CARBIOS published its second Sustainability Report with 2022 as the reference year. Like the first, this report is not subject to any publication obligation for the company, confirms CARBIOS' commitment and desire for transparency in terms of environmental, social and governance (ESG) initiatives.

In 2022, several objectives were achieved:

  • Increase of the number of independent directors on the Board of Directors,
  • Completion of the first carbon footprint report to sustainably reduce greenhouse gas emissions,
  • Consolidation of the life cycle analysis (LCA) of the PET enzymatic depolymerization process,
  • Continuation of employee training in safety and environmental issues.

In October 2023, CARBIOS appointed Bénédicte Garbil as Senior Vice President of Corporate Affairs and Sustainability: "In 2022, CARBIOS strengthened its governance, building a solid foundation for our continued growth and commitment to Corporate Social Responsibility (CSR). This strategic development demonstrates our commitment to operational excellence and transparency. We have integrated the principles of sustainability, ethics and environmental responsibility at the heart of our governance, putting CSR at the forefront of our actions."

Source:

Carbios

10.11.2023

HeiQ AeoniQ™ joins Canopy and commits to Forests Protection

HeiQ AeoniQ™ becomes an active brand partner of the Canopy initiative with eleven other companies to address the growing climate and biodiversity crises by committing to keep Ancient and Endangered Forests out of our man-made cellulosic fiber supply chain.

The commitments that HeiQ AeoniQ™ is making are part of solutions-driven non-profit Canopy’s Pack4Good and CanopyStyle initiatives which currently represent collectively 950 brand partners. Together, the initiatives are shifting supply chains away from vital forests to low-impact, circular Next Gen Solutions.

HeiQ AeoniQ™ becomes an active brand partner of the Canopy initiative with eleven other companies to address the growing climate and biodiversity crises by committing to keep Ancient and Endangered Forests out of our man-made cellulosic fiber supply chain.

The commitments that HeiQ AeoniQ™ is making are part of solutions-driven non-profit Canopy’s Pack4Good and CanopyStyle initiatives which currently represent collectively 950 brand partners. Together, the initiatives are shifting supply chains away from vital forests to low-impact, circular Next Gen Solutions.

“We must rapidly replace oil-based polyester in the textile industry causing microplastics, global warming, landfill and ecosystem degradation. Cellulose is the most abundant biopolymer in the world and is best suited to replace polyester. However, we must pay attention to cellulose feedstock sources. Our forests, a potential cellulose feedstock, are one of the most important solutions to addressing the effects of climate change. Approximately 2.6 billion tons of carbon dioxide, one-third of the CO2 released from burning fossil fuels, is absorbed by forests every year. Around 12.5% of global greenhouse gas emissions (5-10 GtCO2e annually) come from deforestation. We are losing forests at an alarming rate. Every year, around 10 million hectares of forests globally are destroyed. We need immediate action to increase forests again. Canopy is our go-to partner to replace polyester with circular & sustainable cellulose feedstock for our innovative HeiQ AeoniQ™ fiber revolution.” said Carlo Centonze, HeiQ Group CEO.

Paper packaging is also a key driver of forest loss globally, as 3.1 billion trees are cut down annually to produce the boxes and bags in which products are packaged and shipped. Paper packaging production has increased by 65% over the past two years.

“The range of companies and sectors represented in today’s announcement reflects the breadth of market response to the growing climate and biodiversity crises and intensifying supply chain disruptions,” said Nicole Rycroft, Founder and Executive Director of Canopy. “Today’s brand partners add significant momentum to global conservation efforts and the movement to transform ‘take, make, waste’ supply chains to be lower-impact and Next Gen.”

Today, as part of Pack4Good, HeiQ AeoniQ™ committed to:

  • Eliminate Ancient and Endangered Forests from our paper packaging supply chain.
  • Reduce material use through design innovation.
  • Maximize recycled content.
  • Explore and scale alternative Next Gen fibers (such as agricultural residues).
  • Where virgin fiber is necessary, use FSC-certified fiber.
Source:

HeiQ

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.

22.09.2023

Lenzing receives EU Ecolabel for fiber production in Indonesia

The Lenzing Group has received certification from the internationally recognized EU Ecolabel for its fibers at the Indonesian site. This means that Lenzing fibers produced in Purwakarta (PT. South Pacific Viscose) meet high environmental standards. The product portfolio thus expands and qualifies for the production of LENZING™ ECOVERO™ brand fibers for textiles and VEOCEL™ brand fibers for nonwoven applications.

The substantial investment of EUR 100 mn to modernize the Indonesian site has enabled Lenzing to significantly reduce its specific emissions. In addition, the site recently began sourcing energy from renewable sources and is driving the conversion to biomass in line with Lenzing's goals of reducing group-wide carbon emissions per ton of product sold by 50 percent by 2030 and achieving carbon-neutral production by 2050.

The Lenzing Group has received certification from the internationally recognized EU Ecolabel for its fibers at the Indonesian site. This means that Lenzing fibers produced in Purwakarta (PT. South Pacific Viscose) meet high environmental standards. The product portfolio thus expands and qualifies for the production of LENZING™ ECOVERO™ brand fibers for textiles and VEOCEL™ brand fibers for nonwoven applications.

The substantial investment of EUR 100 mn to modernize the Indonesian site has enabled Lenzing to significantly reduce its specific emissions. In addition, the site recently began sourcing energy from renewable sources and is driving the conversion to biomass in line with Lenzing's goals of reducing group-wide carbon emissions per ton of product sold by 50 percent by 2030 and achieving carbon-neutral production by 2050.

Anthropogenic climate change is one of the most pressing problems of our time, to which both the global textile and nonwovens industries make a major contribution. LENZING™ ECOVERO™ viscose fibers (for textiles) and VEOCEL™ Viscose (for nonwovens) have been proven to cause significantly less greenhouse gas emissions and water pollution than conventional viscose. At the Indonesian site, Lenzing also plans to produce the innovative LENZING™ ECOVERO™ Black fibers in the future, which also require less energy and water in textile chain thanks to the spun-dyeing process and thus also have a lower carbon footprint in their life cycle as a textile product.

Source:

Lenzing Group

RISE® Innovation Award INDA Association of the Nonwoven Fabrics Industry
25.08.2023

RISE® Innovation Award 2023: Four Finalists

INDA, the Association of the Nonwoven Fabrics Industry, announced the finalists that will compete for the RISE® Innovation Award. RISE®, the Research, Innovation & Science for Engineered Fabrics Conference, will take place September 26-27 at Talley Student Union, North Carolina State University, Raleigh, NC.

The finalists who will present their product innovations on Tuesday, September 26th, include:

ESC-8 – The JOA® Electronic Size Change Unit by Curt G. Joa, Inc.
The JOA® ESC-8™ unit allows unprecedented Adult Pant design flexibility with the ability to process nearly limitless combinations of insert and chassis sizes at industry best speeds. Additionally, this technology enables the production of a greener, more sustainable product by eliminating up to 250 tons of material, 5 tons of glue, and 500 tons of greenhouse gas emissions every year.

INDA, the Association of the Nonwoven Fabrics Industry, announced the finalists that will compete for the RISE® Innovation Award. RISE®, the Research, Innovation & Science for Engineered Fabrics Conference, will take place September 26-27 at Talley Student Union, North Carolina State University, Raleigh, NC.

The finalists who will present their product innovations on Tuesday, September 26th, include:

ESC-8 – The JOA® Electronic Size Change Unit by Curt G. Joa, Inc.
The JOA® ESC-8™ unit allows unprecedented Adult Pant design flexibility with the ability to process nearly limitless combinations of insert and chassis sizes at industry best speeds. Additionally, this technology enables the production of a greener, more sustainable product by eliminating up to 250 tons of material, 5 tons of glue, and 500 tons of greenhouse gas emissions every year.

BicoBio Fiber by Fiberpartner ApS
The BicoBio Fiber is a bicomponent fiber core sheath construction, developed from materials with a low carbon footprint. This fiber is designed to biodegrade in the environments where most plastics are found: landfills and the ocean. The fiber’s BioBased PE is produced from sugar cane and has a negative carbon footprint. The fiber’s recycled PET is GRS certified. PrimaLoft® Bio™, a technology that enables polyester fibers to biodegrade, is utilized in the production of BicoBio Fibers. These fibers can be processed with a variety of nonwoven technologies.

Reifenhäuser Reicofil RF5 XHL by Reifenhäuser REICOFIL GmbH & Co. KG
Reicofil XHL (Extra High Loft) is the game changer for a super soft and drapeable nonwoven offering an incomparable feel the nonwoven market has never seen before. The outstanding soft touch is unique and intended for use in the hygiene sector. XHL focuses on low basis weight and high thickness with the best visual appearance. The high performance and efficient use of raw materials and energy ensure cost-effectiveness and environmentally-friendly production.

SAPMonit by TiHiVE
TiHive’s game-changing innovation, SAPMonit – a visionary French technology breakthrough – inspects millions of diapers weekly. SAPMonit delivers lightning-speed inline inspection of Super Absorbents weight and distribution, optimizes resources, detects flaws, and accelerates R&D. SAPMonit utilizes advanced see-through cameras, high-speed vision algorithms, and secure cloud integration, revolutionizing industry norms. SAPMonit has great potential for sustainability, cost reduction, and enhanced customer satisfaction.

The RISE Innovation Award winner will be announced Wednesday afternoon, September 27th.

More information:
INDA RISE®
Source:

INDA Association of the Nonwoven Fabrics Industry