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24.01.2024

ECHA: Hazardous chemicals found in coating products and polymers

The European Chemicals Agency (ECHA) has added five new chemicals to the Candidate List. One of them is toxic for reproduction, three are very persistent and very bioaccumulative and one is toxic for reproduction and persistent, bioaccumulative and toxic. They are found in products such as inks and toners, adhesives and sealants and washing and cleaning products.

The Agency has also updated the existing Candidate List entry for dibutyl phthalate to include its endocrine disrupting properties for the environment.

ECHA’s Member State Committee has confirmed the addition of these substances to the Candidate List. The list now contains 240 entries – some are groups of chemicals so the overall number of impacted chemicals is higher.

 

The European Chemicals Agency (ECHA) has added five new chemicals to the Candidate List. One of them is toxic for reproduction, three are very persistent and very bioaccumulative and one is toxic for reproduction and persistent, bioaccumulative and toxic. They are found in products such as inks and toners, adhesives and sealants and washing and cleaning products.

The Agency has also updated the existing Candidate List entry for dibutyl phthalate to include its endocrine disrupting properties for the environment.

ECHA’s Member State Committee has confirmed the addition of these substances to the Candidate List. The list now contains 240 entries – some are groups of chemicals so the overall number of impacted chemicals is higher.

 

Source:

European Chemicals Agency

The research group Water Engineering Innovation Photo: Aarhus University
The research group Water Engineering Innovation, led by Associate Professor Zongsu Wei, works to develop water purification technologies, especially in connection with PFAS. The group collaborates in this project with the research group Robotics from the Department of Mechanical and Production Engineering.
24.01.2024

Artificial intelligence to help remove PFAS

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.

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.

More information:
PFAS Aarhuis University
Source:

Aarhus University
Department of Biological and Chemical Engineering
Department of Mechanical and Production Engineering

nominees Graphic: nova Institut
19.01.2024

Nominated Innovations for Cellulose Fibre Innovation of the Year 2024 Award

From Resource-efficient and Recycled Fibres for Textiles and Building Panels to Geotextiles for Glacier Protection: Six award nominees present innovative and sustainable solutions for various industries in the cellulose fibre value chain. The full economic potential of the cellulose fibre industry will be introduced to a wide audience that will vote for the winners in Cologne (Germany), and online.

Again nova-Institute grants the “Cellulose Fibre Innovation of the Year” award in the context of the “Cellulose Fibres Conference”, that will take place in Cologne on 13 and 14 March 2024. In advance, the conferences advisory board nominated six remarkable products, including cellulose fibres from textile waste and straw, a novel technology for dying cellulose-based textiles and a construction panel as well as geotextiles. The innovations will be presented by the companies on the first day of the event. All conference participants can vote for one of the six nominees and the top three winners will be honoured with the “Cellulose Fibre Innovation of the Year” award. The Innovation award is sponsored by GIG Karasek (AT).

From Resource-efficient and Recycled Fibres for Textiles and Building Panels to Geotextiles for Glacier Protection: Six award nominees present innovative and sustainable solutions for various industries in the cellulose fibre value chain. The full economic potential of the cellulose fibre industry will be introduced to a wide audience that will vote for the winners in Cologne (Germany), and online.

Again nova-Institute grants the “Cellulose Fibre Innovation of the Year” award in the context of the “Cellulose Fibres Conference”, that will take place in Cologne on 13 and 14 March 2024. In advance, the conferences advisory board nominated six remarkable products, including cellulose fibres from textile waste and straw, a novel technology for dying cellulose-based textiles and a construction panel as well as geotextiles. The innovations will be presented by the companies on the first day of the event. All conference participants can vote for one of the six nominees and the top three winners will be honoured with the “Cellulose Fibre Innovation of the Year” award. The Innovation award is sponsored by GIG Karasek (AT).

In addition, the ever-growing sectors of cellulose-based nonwovens, packaging and hygiene products offer conference participants insights beyond the horizon of traditional textile applications. Sustainability and other topics such as fibre-to-fibre recycling and alternative fibre sources are the key topics of the Cellulose Fibres Conference, held in Cologne, Germany, on 13 and 14 March 2024 and online. The conference will showcase the most successful cellulose-based solutions currently on the market or those planned for the near future.

The nominees:

The Straw Flexi-Dress: Design Meets Sustainability – DITF & VRETENA (DE)
The Flexi-Dress design was inspired by the natural golden colour and silky touch of HighPerCell® (HPC) filaments based on unbleached straw pulp. These cellulose filaments are produced using environmentally friendly spinning technology in a closed-loop production process. The design decisions focused on the emotional connection and attachment to the HPC material to create a local and circular fashion product. The Flexi-Dress is designed as a versatile knitted garment – from work to street – that can be worn as a dress, but can also be split into two pieces – used separately as a top and a straight skirt. The top can also be worn with the V-neck front or back. The HPC textile knit structure was considered important for comfort and emotional properties.

HONEXT® Board FR-B (B-s1, d0) – Flame-retardant Board made From Upcycled Fibre Waste From the Paper Industry – Honext Material (ES)
HONEXT® FR-B board (B-s1, d0) is a flame-retardant board made from 100 % upcycled industrial waste fibres from the paper industry. Thanks to innovations in biotechnology, paper sludge is upcycled – the previously “worthless” residue from paper making – to create a fully recyclable material, all without the use of resins. This lightweight and easy-to-handle board boasts high mechanical performance and stability, along with low thermal conductivity, making it perfect for various applications in all interior environments where fire safety is a priority. The material is non-toxic, with no added VOCs, ensuring safety for both people and the planet. A sustainable and healthy material for the built environment, it achieves Cradle-to-Cradle Certified GOLD, and Material Health CertificateTM Gold Level version 4.0 with a carbon-negative footprint. Additionally, it is verified in the Product Environmental Footprint.

LENZING™ Cellulosic Fibres for Glacier Protection – Lenzing (AT)
Glaciers are now facing an unprecedented threat from global warming. Synthetic fibre-based geotextiles, while effective in slowing down glacier melt, create a new environmental challenge: microplastics contaminating glacial environments. The use of such materials contradicts the very purpose of glacier protection, as it exacerbates an already critical environmental problem. Recognizing this problem, the innovative use of cellulosic LENZING™ fibres presents a pioneering solution. The Institute of Ecology, at the University of Innsbruck, together with Lenzing and other partners made first trials in 2022 by covering small test fields with LENZING™ fibre-based geotextiles. The results were promising, confirming the effectiveness of this approach in slowing glacier melt without leaving behind microplastic.

The RENU Jacket – Advanced Recycling for Cellulosic Textiles – Pangaia (UK) & Evrnu (US)
PANGAIA LAB was born out of a dream to reduce barriers between people and the breakthrough innovations in material science. In 2023, PANGAIA LAB launched the RENU Jacket, a limited edition product made from 100% Nucycl® – a technology that recycles cellulosic textiles by breaking them down to their molecular building blocks, and reforming them into new fibres. This process produces a result that is 100% recycled and 100% recyclable when returned to the correct waste stream – maintaining the strength of the fibre so it doesn’t need to be blended with virgin material.
Through collaboration with Evrnu, the PANGAIA team created the world’s first 100% chemically recycled denim jacket, replacing a material traditionally made from 100% virgin cotton. By incorporating Nucycl® into this iconic fabric construction, dyed with natural indigo, the teams have demonstrated that it’s possible to replace ubiquitous materials with this innovation.

Textiles Made from Easy-to-dye Biocelsol – VTT Technical Research Centre of Finland (FI)
One third of the textile industry’s wastewater is generated in dyeing and one fifth in finishing. But the use of chemically modified Biocelsol fibres reduces waste water. The knitted fabric is made from viscose and Biocelsol fibres and is only dyed after knitting. This gives the Biocelsol fibres a darker shade, using the same amount of dye and no salt in dyeing process. In addition, an interesting visual effect can be achieved. Moreover, less dye is needed for the darker colour tone in the finished textile and the possibility to use the salt-free dyeing is more environmentally friendly.
These special properties of man-made cellulosic fibres will reassert the fibres as a replacement for the existing fossil-based fibres, thus filling the demand for more environmentally friendly dyeing-solutions in the textile industry. The functionalised Biocelsol fibres were made in Finnish Academy FinnCERES project and are produced by wet spinning technique from the cellulose dope containing low amounts of 3-allyloxy-2-hydroxypropyl substituents. The functionality formed is permanent and has been shown to significantly improve the dyeability of the fibres. In addition, the functionalisation of Biocelsol fibres reduces the cost of textile finishing and dyeing as well as the effluent load.

A New Generation of Bio-based and Resource-efficient Fibre – TreeToTextile (SE)
TreeToTextile has developed a unique, sustainable and resource efficient fibre that doesn't exist on the market today. It has a natural dry feel similar to cotton and a semi-dull sheen and high drape like viscose. It is based on cellulose and has the potential to complement or replace cotton, viscose and polyester as a single fibre or in blends, depending on the application.
TreeToTextile Technology™ has a low demand for chemicals, energy and water. According to a third party verified LCA, the TreeToTextile fibre has a climate impact of 0.6 kg CO2 eq/kilo fibre. The fibre is made from bio-based and traceable resources and is biodegradable.

More information:
Nova Institut nova Institute
Source:

nova Institut

Devan high cooling Photo: Devan Chemicals
09.01.2024

Devan Chemicals presents latest sustainable textile finishes at Heimtextil 2024

Devan will showcase the newest additions to their R-Vital NTL Range and Thermic High Cooling technology.

R-Vital® NTL enables textile manufacturers to boost their textiles with a range of active, natural ingredients that have a positive effect on the body and mind. Elements such as Chamomile oil and Arnica Montana are absorbed by the skin and have relaxing, moisturizing or hydrating effects. The biobased content of the R-Vital well-being technology is +97%, readily biodegradable (OECD 301B).

R-Vital® NTL Regenight™: Devan and Lucas Meyer Cosmetics join forces to launch a ground-breaking technology, R-Vital NTL Regenight™, a technology which improves sleep quality and also improves nighttime skin recovery. Using an upcycled oil soluble fraction obtained from Australian Tea tree oil distillation process, Regenight™ acts through both inhalation to improve nighttime rest and through topical action to provide skin recovery.

Tested in real-life context using proven biometric technology, the dual action provided individually by Regenight™ proposes a breakthrough approach to reduce the impact of poor-quality sleep on the skin.

Devan will showcase the newest additions to their R-Vital NTL Range and Thermic High Cooling technology.

R-Vital® NTL enables textile manufacturers to boost their textiles with a range of active, natural ingredients that have a positive effect on the body and mind. Elements such as Chamomile oil and Arnica Montana are absorbed by the skin and have relaxing, moisturizing or hydrating effects. The biobased content of the R-Vital well-being technology is +97%, readily biodegradable (OECD 301B).

R-Vital® NTL Regenight™: Devan and Lucas Meyer Cosmetics join forces to launch a ground-breaking technology, R-Vital NTL Regenight™, a technology which improves sleep quality and also improves nighttime skin recovery. Using an upcycled oil soluble fraction obtained from Australian Tea tree oil distillation process, Regenight™ acts through both inhalation to improve nighttime rest and through topical action to provide skin recovery.

Tested in real-life context using proven biometric technology, the dual action provided individually by Regenight™ proposes a breakthrough approach to reduce the impact of poor-quality sleep on the skin.

R-Vital® NTL Chamomile oil: Chamomile oil is known for its moisturizing and soothing properties. Additionally, this oil is believed to have antioxidant and inflammatory properties. Furthermore, chamomile oil is renowned for its calming effects and potential to reduce stress and anxiety, helping improve sleep quality.

R-Vital® NTL Warming: Engineered to deliver a gentle warmth, the R-Vital NTL Warming technology ensures a cozy and comfortable sleeping experience. This blend is a solution that infuses a sense of warmth, promoting physical and emotional well-being.

R-Vital NTL Arnica Montana: Harnessing the natural benefits of Arnica Montana, this ingredient, is celebrated for its potent healing and recovering properties.

At Heimtextil Devan will also present a new high cooling technology that provides an optimal and refreshing sleeping climate, ensuring a cool and restful night's sleep. Thermic High Cooling is based on reactive microencapsulated Phase Change Materials (PCMs). The smart heat exchange mechanism keeps the body within its comfort zone. This makes the body suffer less from night sweats, and results in a longer, healthier and more comfortable sleep with fewer awakenings. This new formulation with high cooling level and high solid content, presents around 30% more cooling than standard PCM formulations. One padding allows to achieve high cooling level (no need to run multiple applications). A Bio-based version is also available - Thermic® Bio, where the PCMs are derived from sustainable, natural sources.

Source:

Devan Chemicals

AZL Aachen GmbH: Kick-off meeting for "Trends and Design Factors for Hydrogen Pressure Vessels" project (c) AZL Aachen GmbH
21.12.2023

AZL Aachen GmbH: Kick-off meeting for "Trends and Design Factors for Hydrogen Pressure Vessels" project

The kick-off meeting for the "Trends and Design Factors for Hydrogen Pressure Vessels" project, recently held at AZL Aachen GmbH, was a successful event, bringing together more than 37 experts in the field of composite technologies. This event laid a solid foundation for the Joint Partner Project, which currently comprises a consortium of 20 renowned companies from across the composite pressure vessel value chain: Ascend Performance Materials, C evotec GmbH, Chongqing Polycomp International Corp. (CPIC), Conbility GmbH, Elkamet Kunststofftechnik GmbH, F.A. Kümpers GmbH & Co. KG, f loteks plastik sanayi ticaret a.s., Formosa Plastics Corporation, Heraeus Noblelight GmbH, Huntsman Advanced Materials, Kaneka Belgium NV, Laserline GmbH, Mitsui Chemicals Europe GmbH, Plastik Omnium, Rassini Europe GmbH, Robert Bosch GmbH, Swancor Holding Co. Ltd. Ltd., TECNALIA, Toyota Motor Europe NV/SA, Tünkers do Brasil Ltda.

The project follows AZL´s well proven approach of a Joint Partner Project, aiming to provide technology and market insights as well as benchmarking of different material and production setups in combination with connecting experts along the value chain.

The kick-off meeting for the "Trends and Design Factors for Hydrogen Pressure Vessels" project, recently held at AZL Aachen GmbH, was a successful event, bringing together more than 37 experts in the field of composite technologies. This event laid a solid foundation for the Joint Partner Project, which currently comprises a consortium of 20 renowned companies from across the composite pressure vessel value chain: Ascend Performance Materials, C evotec GmbH, Chongqing Polycomp International Corp. (CPIC), Conbility GmbH, Elkamet Kunststofftechnik GmbH, F.A. Kümpers GmbH & Co. KG, f loteks plastik sanayi ticaret a.s., Formosa Plastics Corporation, Heraeus Noblelight GmbH, Huntsman Advanced Materials, Kaneka Belgium NV, Laserline GmbH, Mitsui Chemicals Europe GmbH, Plastik Omnium, Rassini Europe GmbH, Robert Bosch GmbH, Swancor Holding Co. Ltd. Ltd., TECNALIA, Toyota Motor Europe NV/SA, Tünkers do Brasil Ltda.

The project follows AZL´s well proven approach of a Joint Partner Project, aiming to provide technology and market insights as well as benchmarking of different material and production setups in combination with connecting experts along the value chain.

The kick-off meeting not only served as a platform to foster new contacts and get informed about the expertise and interests of the consortium members in the field of hydrogen pressure vessels, but also laid the groundwork for steering the focus of the upc oming project's ambitious phases. As a basis for the interactive discussion session, AZL outlined the background, motivation and detailed work plan. The central issues of the dialogue were the primary objectives, the most pressing challenges, the contribut ion to competitiveness, and
the priorities that would best meet the expectations of the project partners.

Discussions covered regulatory issues, the evolving value chain and the supply and properties of key materials such as carbon and glass fibres and resins. The consortium defined investigations into different manufacturing technologies, assessing their matu rity and potential benefits. Design layouts, including liners, boss designs and winding patterns, were thoroughly considered, taking into account their implications for mobile and stationary storage. The group is also interested in cost effective testing m ethods and certification processes, as well as the prospects for recycling into continuous fibres and the use of sustainable materials. Insight was requested into future demand for hydrogen tanks, OEM needs and strategies, and technological developments to produce more economical tanks.

The meeting highlighted the importance of CAE designs for fibre patterns, software suitability and the application dependent use of thermoset and thermoplastic designs.

The first report meeting will also set the stage of the next project phase, which will be the creation of reference designs by AZL's engineering team. These designs will cover a range of pressure vessel configurations using a variety of materials and production concepts. The aim is to develop models that not only re flect current technological capabilities, but also provide deep insight into the cost analysis of different production technologies, their CO2 footprint, recycling aspects and scalability.

AZL's project remains open to additional participants. Companies interested in joining this initiative are invited to contact Philipp Fröhlig.

Naia™ Renew Eastman
14.12.2023

Naia™ Renew receives Global Recycled Standard certification

Eastman Naia™ Renew cellulosic fiber received Global Recycled Standard (GRS) certification on December 13. This certifies Naia™ Renew recycled content, chain of custody, social and environmental practices, and chemical restrictions.

Textile Exchange, a global non-profit for sustainable change in the fashion and textile industry, manages the GRS certification process. Certification is achieved through an audit from independent third-party certifying body SCS Global Services and applies to the full supply chain and addresses traceability, environmental principles, social requirements, chemical content and labeling.

"We’re honored to add GRS certification to our list of Naia™ certifications that support our sustainability goals,” said Claudia de Witte, sustainability leader for Eastman textiles. “Third-party certifications help us build our brand trustworthiness. It’s our goal to make sustainable textiles available to all, and we do that by building trust with our customers and collaborators. This certification adds even more credibility to our fibers and our sustainability story, which we’re proud to share.”

Eastman Naia™ Renew cellulosic fiber received Global Recycled Standard (GRS) certification on December 13. This certifies Naia™ Renew recycled content, chain of custody, social and environmental practices, and chemical restrictions.

Textile Exchange, a global non-profit for sustainable change in the fashion and textile industry, manages the GRS certification process. Certification is achieved through an audit from independent third-party certifying body SCS Global Services and applies to the full supply chain and addresses traceability, environmental principles, social requirements, chemical content and labeling.

"We’re honored to add GRS certification to our list of Naia™ certifications that support our sustainability goals,” said Claudia de Witte, sustainability leader for Eastman textiles. “Third-party certifications help us build our brand trustworthiness. It’s our goal to make sustainable textiles available to all, and we do that by building trust with our customers and collaborators. This certification adds even more credibility to our fibers and our sustainability story, which we’re proud to share.”

In June 2023, Textile Exchange made an important announcement regarding its Alternative Volume Reconciliation (VR2) policy, which broadened the range of chemical recycling technologies eligible for mass balance. Notably, this expansion now encompasses gasification, the technical description of Eastman’s molecular recycling technology known as carbon renewal technology. Eastman collaborated with Textile Exchange and other stakeholders to educate the industry about the value and contribution of its molecular recycling technology. This policy update is critical for Eastman because it allows the company’s innovative material-to-material recycling technology to be audited for GRS certification.

Molecular recycling technologies at Eastman break waste down into its molecular building blocks allowing the materials to be used in new materials that are indistinguishable from non-recycled materials. By expanding the GRS to include gasification, the global standard now allows for a broader approach to making sustainable textiles accessible to everyone.

In recent years, the textiles industry has shifted toward circular materials to help tackle one of the largest challenges facing the planet: waste pollution, especially textile waste. Eastman molecular recycling is complementary to mechanical recycling and is a solution for hard-to-recycle waste material, including textiles, which are impacted by factors like fiber blends, chemicals and additives.

Naia™ Renew is produced from 60% sustainably sourced wood pulp and 40% GRS-certified* waste materials that would otherwise be destined for landfills through Eastman's patented molecular recycling technology. The certification verifies the processes of chemical recycling, concentrating, extrusion, and spinning of the undyed yarns and fibers.

13.12.2023

ECHA: Hazardous chemicals found in fashion products

An EU-wide enforcement project of the ECHA Forum found excessive levels of hazardous chemicals, such as lead and phthalates, in products that are sold to consumers. In total 18 % of the inspected products breached the EU laws.

The national enforcement authorities in 26 EU countries checked over 2 400 products, most of them intended for consumers, and found more than 400 of them breaching the EU’s chemicals laws.

The most common product types breaching the laws were:

An EU-wide enforcement project of the ECHA Forum found excessive levels of hazardous chemicals, such as lead and phthalates, in products that are sold to consumers. In total 18 % of the inspected products breached the EU laws.

The national enforcement authorities in 26 EU countries checked over 2 400 products, most of them intended for consumers, and found more than 400 of them breaching the EU’s chemicals laws.

The most common product types breaching the laws were:

  • Electrical devices such as electrical toys, chargers, cables, headphones. 52 % of these products were found non-compliant, mostly due to lead found in solders, phthalates in soft plastic parts, or cadmium in circuit boards.
  • Sports equipment like yoga mats, bicycle gloves, balls or rubber handles of sport equipment. 18 % of these products were found to be non-compliant mostly due to SCCPs and phthalates in soft plastic and PAH in rubber.
  • Toys like bathing/aquatic toys, dolls, costumes, play mats, plastic figures, fidget toys, outdoor toys, slime and childcare articles. 16 % of non-electric toys were found to be non-compliant, mostly due to phthalates found in soft plastic parts, but also other restricted substances such as PAHs, nickel, boron or nitrosamines.
  • Fashion products such as bags, jewellery, belts, shoes and clothes. 15 % of these products were found non-compliant due to the phthalates, lead and cadmium they contained.

In cases where non-compliant products were found, inspectors have taken enforcement measures, with most of them resulting in the withdrawal of such products from the market.

The non-compliance rate was higher in products which originated from outside the European Economic Area (EEA) or whose origin was not known.

More information:
ECHA hazardous chemicals
Source:

European Chemicals Agency

11.12.2023

Syensqo officially demerged from Solvay and launched on Euronext

Syensqo announces the successful listing of its shares on Euronext Brussels and Euronext Paris under ticker SYENS. After the completion of the spin-off from Solvay, the listing marks a historical milestone as the company embarks on a journey focused on delivering superior growth and value creation.

Syensqo’s portfolio of market leading solutions addresses environmental and social challenges, through electrification, lightweighting, connectivity and resource efficiency. In addition, Syensqo is at the heart of the transition towards a net-zero economy, which is expected to drive new sources of value and support the company’s long-term growth.

With more than 13,000 employees and activities spread across the world (with 41% of FY2022 net sales in the Americas, 36% in Asia-Pacific and 23% Europe), Syensqo’s long-term ambition is to be the prime innovation partner for its customers, growing on average at around two times the rate of its main end markets, while further improving its best-in-class margin and returns.

Syensqo announces the successful listing of its shares on Euronext Brussels and Euronext Paris under ticker SYENS. After the completion of the spin-off from Solvay, the listing marks a historical milestone as the company embarks on a journey focused on delivering superior growth and value creation.

Syensqo’s portfolio of market leading solutions addresses environmental and social challenges, through electrification, lightweighting, connectivity and resource efficiency. In addition, Syensqo is at the heart of the transition towards a net-zero economy, which is expected to drive new sources of value and support the company’s long-term growth.

With more than 13,000 employees and activities spread across the world (with 41% of FY2022 net sales in the Americas, 36% in Asia-Pacific and 23% Europe), Syensqo’s long-term ambition is to be the prime innovation partner for its customers, growing on average at around two times the rate of its main end markets, while further improving its best-in-class margin and returns.

Upon listing, Syensqo has 105,876,417 ordinary shares in issue, each carrying one voting right. The Syensqo share price started its journey at a value of € 90 at market open (9.00 am CET), which corresponds to a market capitalization of € 9.53 billion.

More information:
Syensqo Solvay chemicals
Source:

Syensqo

Devan Chemicals Photo Devan Chemicals
27.11.2023

DEVAN REPEL: A new brand in the water repellency market

In a world where water-repellent textiles play an important role in various industries, Pulcra Chemicals has joined forces with its subsidiary, Devan Chemicals, to introduce DEVAN REPEL. The first product, DEVAN REPEL ONE, is a durable water repellent for Polyester and blends. The development of DEVAN REPEL ONE is a joint to Devan and Pulcra's dedication to innovation and sustainability.

The solution offers a range of benefits:

In a world where water-repellent textiles play an important role in various industries, Pulcra Chemicals has joined forces with its subsidiary, Devan Chemicals, to introduce DEVAN REPEL. The first product, DEVAN REPEL ONE, is a durable water repellent for Polyester and blends. The development of DEVAN REPEL ONE is a joint to Devan and Pulcra's dedication to innovation and sustainability.

The solution offers a range of benefits:

  • Superior Performance: The technology offers outstanding water repellency performance, ensuring that textiles remain dry. Whether it's rain and outdoor wear, outdoor furnishing, shower curtains or multiple technical textiles, the new solution can handle it, making it a strong choice for industries where water resistance is paramount.
  • Flexibility: The versatility of this technology can be applied to a wide range of materials, with especially good results on polyester and its blends, offering flexibility for various applications across industries.
  • Enhanced Sustainability: This technology is free from perfluorinated compounds (PFCs), and free from isocyanates.
  • Longevity: Products treated with this water repellency technology are protecting from the elements for a longer lifespan.

Performance, particularly on effect durability, can be boosted to meet different requirements with new DEVAN EXTENDER GEN3. This extender is free of Isocyanate, Butanone-oxime and 2-dimethylpyrazole.

chemistry from renewable feedstock and waste (c) RUDOLF HUB1922
21.11.2023

RUDOLF HUB1922: Evolutionary chemistry from renewable feedstock and waste

RUDOLF HUB1922 makes a move in response to the escalating demand for genuinely sustainable technologies, particularly from forward-thinking segments within the textile and apparel industry. In a showcase at Denim by Premiere Vision Milan, RUDOLF HUB1922 presents a pioneering range of textile chemistry that embodies true evolution.

This chemistry marks a milestone in addressing the pressing need for sustainable solutions. By harnessing raw materials derived from organic waste, plastic waste, and renewable feedstock, RUDOLF's latest textile innovations stand poised to transform the industry, promising a substantial reduction in its environmental footprint.

Alberto De Conti, Head of RUDOLF HUB1922, emphasizes the radical nature of evolutionary textile chemistry, stating, "RUDOLF's approach tackles the challenge of waste generation head-on by transforming waste materials into valuable resources". The diversion of waste and renewable feedstock away from landfills and incinerators to fuel textile chemical production is a game-changer, that diminishes the industry's reliance on non-renewable resources and endorses a circular economy model.

RUDOLF HUB1922 makes a move in response to the escalating demand for genuinely sustainable technologies, particularly from forward-thinking segments within the textile and apparel industry. In a showcase at Denim by Premiere Vision Milan, RUDOLF HUB1922 presents a pioneering range of textile chemistry that embodies true evolution.

This chemistry marks a milestone in addressing the pressing need for sustainable solutions. By harnessing raw materials derived from organic waste, plastic waste, and renewable feedstock, RUDOLF's latest textile innovations stand poised to transform the industry, promising a substantial reduction in its environmental footprint.

Alberto De Conti, Head of RUDOLF HUB1922, emphasizes the radical nature of evolutionary textile chemistry, stating, "RUDOLF's approach tackles the challenge of waste generation head-on by transforming waste materials into valuable resources". The diversion of waste and renewable feedstock away from landfills and incinerators to fuel textile chemical production is a game-changer, that diminishes the industry's reliance on non-renewable resources and endorses a circular economy model.

The successful integration of chemicals derived from organic and plastic waste, as well as renewable feedstocks, necessitates effective communication and education. Herein lies the significance of fostering collaborative efforts within the industry. De Conti underscores this point, stating, "Collaboration among scientists, fashion designers, and manufacturers is paramount. It propels a collective shift towards sustainable practices, making eco-friendly fashion the standard and minimizing the industry's environmental impact".

Source:

RUDOLF HUB1922

21.11.2023

One in three checked biocidal products found to be non-compliant

EU-wide enforcement project found about 60 active substances in biocidal products that are not allowed on the EU, EEA and Swiss markets. One in three of the checked products did not comply with at least one of the checked legal requirements.
Helsinki, 21 November 2023 – The national enforcement authorities in 29 countries checked over 3 500 biocidal products. Overall, 37 % of the checked biocides were non-compliant with at least one of the checked legal requirements.
 
18 % of checked products were non-compliant with fundamental requirements that affect their safe use. Most of them either lacked a product authorisation or included non-allowed active substances. Most biocides with such major non-compliance were disinfectants, insecticides, and repellents/attractants. Inspectors found about 60 active substances that are not allowed in these products. All products that lacked authorisation or contained non-allowed active substances were withdrawn from the market. In some cases, criminal complaints or fines were issued.

EU-wide enforcement project found about 60 active substances in biocidal products that are not allowed on the EU, EEA and Swiss markets. One in three of the checked products did not comply with at least one of the checked legal requirements.
Helsinki, 21 November 2023 – The national enforcement authorities in 29 countries checked over 3 500 biocidal products. Overall, 37 % of the checked biocides were non-compliant with at least one of the checked legal requirements.
 
18 % of checked products were non-compliant with fundamental requirements that affect their safe use. Most of them either lacked a product authorisation or included non-allowed active substances. Most biocides with such major non-compliance were disinfectants, insecticides, and repellents/attractants. Inspectors found about 60 active substances that are not allowed in these products. All products that lacked authorisation or contained non-allowed active substances were withdrawn from the market. In some cases, criminal complaints or fines were issued.

The remaining 19 % non-compliant products were found to have minor deficiencies that did not affect safe use such as missing contact information of the supplier. In these cases the national enforcement authorities gave advice or administrative orders.

Much non-compliance was found in disinfectants sold to consumers. 265 disinfectants out of nearly 1 900 that were checked (14 %) were found to be non-compliant. This included serious compliance deficiencies such as lacking authorisation or incorrect labelling that usually led to the withdrawal of the disinfectants from the market.
 
The inspectors focused on disinfectants because new manufacturers entered the market with biocidal products at the early stages of the COVID-19 pandemic. Many of those disinfectants were not fully compliant with the EU’s Biocidal Products Regulation (BPR) and the related national transitional requirements for biocides.

More information:
ECHA biocid
Source:

European Chemicals Agency (ECHA)

17.11.2023

Cinte Techtextil China 2024 taking place in September 2024

Cinte Techtextil China 2024, one of Asia’s leading technical textiles and nonwovens trade fair, will take place from 19 – 21 September 2024 at the Shanghai New International Expo Centre. In its capacity as a well-established platform for the latest textiles, nonwovens, and equipment, the 18th edition of the fair will offer business opportunities across the industry supply chain. With the previous edition attracting 467 exhibitors from 13 countries and regions across 40,000 sqm, the organisers are looking to build on that success at next year’s show.

With next year’s fair expected to again see strong domestic and international participation, the previous edition featured the return of the Taiwan Pavilion, the 40-exhibitor strong European Zone, and seven Chinese regional pavilions. At every edition, multiple fringe events enhance business connections and provide insights to fairgoers. In 2023, key highlights included the 11th China International Nonwovens Conference, the Advanced Technical Textiles Industry Chain Synergistic Innovation Development Forum, various marine textile and rope netting events, and the “Kingsafe Dangs” University Students’ Showcase.

Cinte Techtextil China 2024, one of Asia’s leading technical textiles and nonwovens trade fair, will take place from 19 – 21 September 2024 at the Shanghai New International Expo Centre. In its capacity as a well-established platform for the latest textiles, nonwovens, and equipment, the 18th edition of the fair will offer business opportunities across the industry supply chain. With the previous edition attracting 467 exhibitors from 13 countries and regions across 40,000 sqm, the organisers are looking to build on that success at next year’s show.

With next year’s fair expected to again see strong domestic and international participation, the previous edition featured the return of the Taiwan Pavilion, the 40-exhibitor strong European Zone, and seven Chinese regional pavilions. At every edition, multiple fringe events enhance business connections and provide insights to fairgoers. In 2023, key highlights included the 11th China International Nonwovens Conference, the Advanced Technical Textiles Industry Chain Synergistic Innovation Development Forum, various marine textile and rope netting events, and the “Kingsafe Dangs” University Students’ Showcase.

The fair’s product categories cover 12 application areas, which comprehensively span a full range of potential uses in modern technical textiles and nonwovens. These categories also cover the entire industry, from upstream technology and raw materials providers to finished fabrics, chemicals and other solutions. This scope of product groups and application areas ensures that the fair is an effective business platform for the entire industry.

The fair is organised by Messe Frankfurt (HK) Ltd; the Sub-Council of Textile Industry, CCPIT; and the China Nonwovens & Industrial Textiles Association (CNITA).

Source:

Messe Frankfurt (HK) Limited

15.11.2023

ECHA: Research needs for regulating hazardous chemicals

The European Chemicals Agency (ECHA) has published a new report on ‘Key areas of regulatory challenge 2023’ that identifies areas where research is needed to protect people and the environment from hazardous chemicals. It also highlights where new methods, that support the shift away from animal testing, are needed.

To further improve chemical safety in the EU, scientific research needs to deliver data that is relevant to regulating chemicals. In order to enhance the regulatory relevance of scientific data, ECHA has identified the following areas as priorities for research:

The European Chemicals Agency (ECHA) has published a new report on ‘Key areas of regulatory challenge 2023’ that identifies areas where research is needed to protect people and the environment from hazardous chemicals. It also highlights where new methods, that support the shift away from animal testing, are needed.

To further improve chemical safety in the EU, scientific research needs to deliver data that is relevant to regulating chemicals. In order to enhance the regulatory relevance of scientific data, ECHA has identified the following areas as priorities for research:

  • Hazard identification for critical biological effects that currently lack specific and sensitive test methods: i.e. developmental and adult neurotoxicity, immunotoxicity and endocrine disruption
  • Chemical pollution in the natural environment (bioaccumulation, impact on biodiversity, exposure assessment)
  • Shift away from animal testing (read across under REACH, move away from fish testing, mechanistic support to toxicology studies e.g. carcinogenicity)
  • New information on chemicals (polymers, nanomaterials, analytical methods in support of enforcement)

Background
The European Partnership for the Assessment of Risks from Chemicals (PARC), is a seven-year EU-wide research and innovation programme under Horizon Europe which aims to advance research, share knowledge and improve skills in chemical risk assessment.

ECHA’s role in PARC is to make sure that the funded scientific research addresses current challenges related to chemical risk assessment and adds value to the EU’s regulatory processes.

The key areas of regulatory challenge report can be seen as an evolving research and development agenda aiming to support and inspire the Partnership for the Assessment of Risks from Chemicals (PARC) and the wider research community. The list of research needs is not exhaustive. The next update to the report is expected in spring 2024.

More information:
ECHA chemicals polymers
Source:

The European Chemicals Agency (ECHA)

08.11.2023

ECHA: Toxic chemicals in childcare products

The European Chemicals Agency (ECHA) has found that substances causing cancer, genetic mutations or harming reproduction are present in childcare products, such as car seats, bibs and baby changing mats. Its investigation will help the European Commission to prepare an EU-wide restriction to limit these chemicals, with the aim of safeguarding children.

ECHA’s investigation, drawing on information from 48 different sources, shows that substances which are carcinogenic, mutagenic or toxic for reproduction (CMR) may be present in childcare products (articles). Metals like cobalt and lead, along with phthalates like DEHP, are the most common CMR substances found in childcare products.

CMRs were most often found in items like car seats, bibs, products related to toiletries, and bedding and mattresses. Children may be exposed to these hazardous substances during use, for example through skin or oral contact, and are particularly vulnerable to the harm caused by chemical substances because of their small size, developing physiology and behaviour.

The European Chemicals Agency (ECHA) has found that substances causing cancer, genetic mutations or harming reproduction are present in childcare products, such as car seats, bibs and baby changing mats. Its investigation will help the European Commission to prepare an EU-wide restriction to limit these chemicals, with the aim of safeguarding children.

ECHA’s investigation, drawing on information from 48 different sources, shows that substances which are carcinogenic, mutagenic or toxic for reproduction (CMR) may be present in childcare products (articles). Metals like cobalt and lead, along with phthalates like DEHP, are the most common CMR substances found in childcare products.

CMRs were most often found in items like car seats, bibs, products related to toiletries, and bedding and mattresses. Children may be exposed to these hazardous substances during use, for example through skin or oral contact, and are particularly vulnerable to the harm caused by chemical substances because of their small size, developing physiology and behaviour.

ECHA’s report provides elements to support the European Commission in the preparation of a potential future restriction. These include information on how childcare articles are defined, what the restriction could cover, potential derogations, recommended concentration limits and timeframes for implementation. The report also includes views from ECHA’s Enforcement Forum on how feasible it would be to enforce such a restriction.

The report will now be sent to the European Commission, who will use it to prepare a draft restriction proposal under REACH Article 68(2). This procedure allows the Commission to prepare a restriction proposal without involvement of ECHA’s scientific committees.

Background
The purpose of ECHA’s investigation is to support the European Commission in preparing a restriction under the REACH Regulation to protect children from exposure to CMR substances in childcare articles. It focused on substances that have a harmonised classification under the Classification, Labelling and Packaging (CLP) Regulation as a CMR in category 1A (known human carcinogen, mutagen or reproductive toxicant) or 1B (presumed human carcinogen, mutagen or reproductive toxicant).

During the investigation, ECHA organised two public calls for evidence and a consultation on the draft report. The Agency contacted 233 different stakeholders to inform about the work and considered their feedback.

Source:

European Chemicals Agency

Baldwin at ITMA Asia 2023 with Precision Spray TexCoat™ System (c) Baldwin Technology Company Inc.
06.11.2023

Baldwin at ITMA Asia 2023 with Precision Spray TexCoat™ System

Baldwin Technology Company Inc. will showcase its TexCoat™ G4 precision spray finishing system at ITMA Asia 2023 (November 19-23, National Exhibition and Convention Center, Shanghai). ITMA Asia participants can stop by and see Baldwin’s wide array of TexCoat G4-applied fabric samples from textile mills around the world and experience what precision finishing feels like while learning how the technology eliminates chemistry waste on changeover, saves water, and achieves faster speeds through the stenter frame and relaxed dryer.
 
Baldwin’s team will be available to discuss how the company’s technology can meet the textile supply chain’s sustainability and carbon footprint goals while improving performance and saving money. In the context of a cost-sensitive global economy and an increased focus by brands, consumers and regulatory agencies on sustainability, customers are placing a premium on sustainability-advantage textile production.

Baldwin Technology Company Inc. will showcase its TexCoat™ G4 precision spray finishing system at ITMA Asia 2023 (November 19-23, National Exhibition and Convention Center, Shanghai). ITMA Asia participants can stop by and see Baldwin’s wide array of TexCoat G4-applied fabric samples from textile mills around the world and experience what precision finishing feels like while learning how the technology eliminates chemistry waste on changeover, saves water, and achieves faster speeds through the stenter frame and relaxed dryer.
 
Baldwin’s team will be available to discuss how the company’s technology can meet the textile supply chain’s sustainability and carbon footprint goals while improving performance and saving money. In the context of a cost-sensitive global economy and an increased focus by brands, consumers and regulatory agencies on sustainability, customers are placing a premium on sustainability-advantage textile production.

TexCoat G4’s non-contact spray technology offers numerous advantages compared to outdated finishing-chemistry application methods. TexCoat G4 processes a wide range of low-viscosity water-based chemicals, such as durable water-repellents –  including PFAS-free, softeners, anti-microbials, easy-care and flame retardants. The company's technology uses the same chemicals as found in traditional pad baths with no special auxiliaries required.

Testimonial videos from Pincroft Dyeing and Print Works and Graniteville Specialty Fabrics along with a video highlighting Baldwin’s partnership with North Carolina State University will also be screened at their stand.

Source:

Baldwin Technology Company Inc.

03.11.2023

Solvay announces Board of Directors for standalone SYENSQO

Solvay announced the future Board of Directors of SYENSQO, effective upon completion of the planned separation of Solvay into two companies – SOLVAY and SYENSQO – which is on track to be completed in December 2023.

SYENSQO’s Board will be composed of 10 members, including 6 independent members, 3 members representing the reference shareholder, Solvac, and the company CEO. They have deep expertise in specialty industries, international business operations, risk management, corporate governance, finance and clean technology.

Solvay announced the future Board of Directors of SYENSQO, effective upon completion of the planned separation of Solvay into two companies – SOLVAY and SYENSQO – which is on track to be completed in December 2023.

SYENSQO’s Board will be composed of 10 members, including 6 independent members, 3 members representing the reference shareholder, Solvac, and the company CEO. They have deep expertise in specialty industries, international business operations, risk management, corporate governance, finance and clean technology.

The following individuals will serve on the SYENSQO Board of Directors:
Rosemary Thorne will serve as independent Director and Chair of the SYENSQO Board, as well as Chair of the Board’s Finance Committee. She is currently an Independent Director on the Solvay Board of Directors, appointed in 2014, and Chair of the Board’s Audit Committee. She is also an Independent Director on the Board of Merrill Lynch International (UK), a wholly-owned subsidiary of Bank of America, serving as Chair of the Audit Committee. Ms. Thorne has decades of financial leadership experience across a wide range of industries. She previously served as Chief Financial Officer at J. Sainsbury, the UK’s largest supermarket chain at the time; Bradford & Bingley; and Ladbrokes. Ms. Thorne previously sat as an Independent Director on the Boards of Royal Mail Group, Cadbury Schweppes, Santander UK, First Global Trust Bank and Smurfit Kappa Group.

Dr. Ilham Kadri will serve as Chief Executive Officer and member of the Board of Directors of SYENSQO. She is currently CEO and President of the Executive Committee at Solvay. Ms. Kadri has successfully led the turnaround of Solvay, delivering double-digit EBITDA growth and 18 consecutive quarters of positive free cash flow, deleveraging the balance sheet and promoting superior people engagement. She is an independent Board member at A.O. Smith and L’Oréal. She is active in non-profit organizations, as Chair of the World Business Council for Sustainable Development (WBCSD), member of the steering committee of the European Round Table of Industrialists (ERT) as well as a permanent member of the World Economic Forum’s International Business Council (WEF). Ms. Kadri has extensive leadership experience across a variety of industries in four continents and with leading industrial multinationals, including Shell, UCB, Huntsman, Dow, Sealed Air. Prior to Solvay, she was CEO and President of Diversey in the USA, led the company’s return to profitability and resulting spin off and divestiture to Bain Capital. She founded two non-Profit foundations: the Solvay Solidarity Fund in Belgium in 2020 which supported more than 7000 families affected by Covid-19 and natural disasters; and founded the ISSA Hygieia Network in 2015 in the USA, to help women in the cleaning industry. She received two Doctor Honoris Clausa from EWHA University in Korea and Université de Namur in Belgium.

Julian Waldron will serve as independent Director and Chair of the Audit Committee. He currently serves as Deputy Executive Chairman of privately-held Albea Group, a global beauty and personal care packaging company which operates 35 facilities in Europe, Asia and the Americas. Mr. Waldron has held senior leadership roles at several leading listed companies in the industrial, technology and services sectors and brings a wealth of expertise in finance and business operations. Prior to joining Albea in 2022, he was Chief Financial Officer of Suez for three years after serving as Chief Financial Officer and subsequently Chief Operating Officer of Technip. He started his career at UBS Warburg where he spent 14 years. Mr. Waldron also served as an independent Board member and Chairman of finance, risk and investments at Carbon Clean, a privately-owned carbon capture company dedicated to achieving net zero.

Heike Van de Kerkhof will serve as independent Director and Chair of the Nomination Committee. She currently sits on the Board of OCI N.V.. Ms. Van de Kerkhof brings more than 30 years of experience in the chemicals, oil & gas and materials industries, having served in numerous leadership roles around the globe. From 2020 to 2023, she was Chief Executive Officer of Archroma Management, a global specialty chemicals company. During her tenure, she successfully completed the transformational acquisition of Huntsman’s Textile Effects business. Prior to her role at Archroma, Ms. Van de Kerkhof served as Vice President of Lubricants, Western Hemisphere at BP, and held positions at Castrol, The Chemours Company, and Neste Corporation. She also held many leading roles within DuPont over 18 years.

Matti Lievonen will serve as independent Director and Chair of the Compensation Committee. He is currently an independent director on the Solvay Board, appointed in 2017. Mr. Lievonen is a proven executive in the energy, forestry, power and automation industries with an extensive track record of leading businesses through climate transition. For over ten years until 2018, he served as Chairman and Chief Executive Officer of Neste Corporation, a global leader in next-generation renewable fuels and chemicals. During his time at Neste, Mr. Lievonen successfully promoted the development of clean fuels as well as Finland’s bioeconomy strategy in advancing renewable transportation fuels. He has also been involved with organizations such as Fortum Board, SSAB, Nynäs AB, Ilmarinen, and the HE Finnish Fair Foundation. Until 2021, Mr. Lievonen was also Chairman of the Board of Directors at Fortum. He has been recognized for his admirable leadership and expertise, and in 2016 was awarded an Honorary Doctorate of Technology by the Aalto University Schools of Technology.

Dr. Françoise de Viron will serve as non-independent Director, Chair of the ESG Committee and Vice-Chair of the Board. She is currently a director of the Solvay Board, appointed in 2013. Ms. de Viron is a regarded academic leader and has extensive experience in innovation, R&D and qualitative research. She is a Professor Emeritus at the Faculty of Psychology and Education Sciences and Louvain School of Management at UCLouvain in Belgium where she has been an Academic Member of various groups at UCLouvain. Ms. de Viron previously served as the president of AISBL EUCEN – the European Universities Continuing Education Network. Prior to her university position, from 1985 to 2000, she was in charge of developing Artificial Intelligence applications at Tractebel S.A. (now Tractebel-Engie).

Roeland Baan will serve as independent Director. He currently serves as President and Chief Executive Officer of Topsoe, a privately-held leading provider of clean energy and petrochemical technologies. He is also Chairman of the Supervisory Board of SBM Offshore NV. Roeland Baan has extensive experience in supply chain management, M&A, business development and operations management. Prior to joining Topsoe in 2020, he was President and CEO of Outokumpu and has held several executive roles at global organizations such as Aleris International, ArcelorMittal and SHV NV. He spent over 16 years in various roles across the globe at Shell, living in South America, in Africa and in the United Kingdom.

Edouard Janssen will serve as non-independent Director. He is currently a Director on the Solvay Board, appointed in 2021. Earlier this year, he was appointed Chief Financial Officer of D’Ieteren Group, a European leader in automotive distribution services. Mr. Janssen is also a Board member of privately-held Financière de Tubize and Union Financière Boël, as well as Co-Founder and Chair of Trusted Family. Mr. Janssen is active in academics, as Vice-Chair of the International Advisory Board of the Solvay Brussels School of Economics and Management and on the advisory board of the INSEAD HGIBS. He brings expertise in finance, strategy, entrepreneurship, business management, planning and marketing. He has served as Solvay’s Vice President in strategy and M&A between 2019 and 2021, and prior to that, he was the US-based General Manager for North- and Latin America at Solvay’s Aroma Performance Global Business Unit.
 
Dr. Mary Meaney will serve as non-independent Director. She is currently a member of the Board of Directors and of the Audit Committee of Groupe Bruxelles Lambert SA. She also sits on the Board of Directors and the Remuneration Committee of Beamery, the privately-held talent management company. She is a member of the Board of Directors and of the Finance Committee of Imperial College, London.Dr. Meaney will bring expertise in Strategy, M&A, and change management, which she acquired over a 24-year career at McKinsey. She was a Senior Partner, served on the McKinsey Shareholders Council and led McKinsey’s global Organization practice.

Nadine Leslie will serve as independent Director and is based in the United States of America. She is currently a member of the Board of Directors of Provident Financial Services , as well as a Non-Executive Director of Seven Seas Water Corporation, a water and wastewater treatment multinational company. She also sits on the Board of Trustees of Hackensack Meridian Health Network and is active as strategic consultant for civil engineering firm T&M Associates. Over a 22-year career at Suez, Ms. Leslie held several leadership positions, the last one being Chief Executive Officer of Suez North America, until 2022. Previously she served as Executive Vice President Health & Safety.

More information:
Solvay Board of Directors
Source:

Solvay

20.10.2023

CHT awarded as “TOP PERFORMER” by adidas

In its latest evaluation, adidas ranked the suppliers of chemical products and auxiliaries used in the manufacture of its products. With 98 % ZDHC Level 3 auxiliaries and colorants in its portfolio CHT is supplier of choice in this ranking. On the one hand, this pays off the innovative strength of CHT's research and development, and on the other hand, it shows that CHT is the preferred partner for the sustainable chemical treatment of certifiable brand products.

CHT invests in sustainable textile value chains
In 2022, the CHT Group generated 77 % of its total sales with sustainably classified products. The company's own research and development is working ceaselessly to make the entire textile value chain more sustainable.
Customers from the manufacturing textile industry benefit from CHT’s know-how and technical expertise in machine application.

In its latest evaluation, adidas ranked the suppliers of chemical products and auxiliaries used in the manufacture of its products. With 98 % ZDHC Level 3 auxiliaries and colorants in its portfolio CHT is supplier of choice in this ranking. On the one hand, this pays off the innovative strength of CHT's research and development, and on the other hand, it shows that CHT is the preferred partner for the sustainable chemical treatment of certifiable brand products.

CHT invests in sustainable textile value chains
In 2022, the CHT Group generated 77 % of its total sales with sustainably classified products. The company's own research and development is working ceaselessly to make the entire textile value chain more sustainable.
Customers from the manufacturing textile industry benefit from CHT’s know-how and technical expertise in machine application.

CHT and textile standards
In this regard, CHT has already been active as a ZDHC Contributor since 2019 with a comprehensive range of more than 2200 certified products. Of these, 70 % are textile auxiliaries and 30 % are dyes in the portfolio that are certified to Level 3 ZDHC, bluesign® or C2C standards.
CHT supports its customers and business partners and invests in compliance and regulatory measures. Especially in the textile sector, the group of companies cooperates with all renowned standards and labels. Among others bluesign®, C2C or GOTS. Especially in the context of the ZDHC program, CHT is one of the global leaders. More than 2200 products certified by CHT currently reach LEVEL 3, the highest possible level for safe textile chemistry. It is particularly noteworthy that this includes textile auxiliaries (70 %) as well as dyes and pigments (30 %).

CHT Group is involved in several ZDHC task teams and is also a member of the ZDHC internal Chemical Industry Advisory Group (CIAG).

Source:

CHT Germany GmbH

18.10.2023

Tonello at Kingpins with new technologies

Once again Tonello will be present their technologies and partnerships at Kingpins from October 18-19.

DyeMate, the ozone, THE Laser
DyeMate is Tonello's new "patent-pending" technology that reinterprets the traditional indigo garment dyeing process, by making it automatic and repeatable, efficient and sustainable: carried out in a nitrogen atmosphere, without oxygen, with controlled reduction and oxidation, to achieve results that are perfectly comparable, in terms of authenticity and "aesthetic flavor," to those of denim that fades and becomes vintage with the passage of time.

Tonello will present a collection of garments with super bleach effects. With OBleach, EGO and O-Zone triad redefined the garment bleaching process, including no harmful chemicals such as chlorine and permanganate, in favor of sustainable and healthy production.

The entire collection will be embellished and finished with aesthetic solutions and details: the natural overdyeing of Wake, the ultra-thin graphics made with THE Laser Lab, the reproducible breakages of THE Laser T and TM.

Once again Tonello will be present their technologies and partnerships at Kingpins from October 18-19.

DyeMate, the ozone, THE Laser
DyeMate is Tonello's new "patent-pending" technology that reinterprets the traditional indigo garment dyeing process, by making it automatic and repeatable, efficient and sustainable: carried out in a nitrogen atmosphere, without oxygen, with controlled reduction and oxidation, to achieve results that are perfectly comparable, in terms of authenticity and "aesthetic flavor," to those of denim that fades and becomes vintage with the passage of time.

Tonello will present a collection of garments with super bleach effects. With OBleach, EGO and O-Zone triad redefined the garment bleaching process, including no harmful chemicals such as chlorine and permanganate, in favor of sustainable and healthy production.

The entire collection will be embellished and finished with aesthetic solutions and details: the natural overdyeing of Wake, the ultra-thin graphics made with THE Laser Lab, the reproducible breakages of THE Laser T and TM.

Collections, design, collaborations
The MSP - Most Sustainable Product - collection, developed together with Kingpins and Denim House, designed by Piero Turk and Serena Conti, and processed in Tonello's Research and Development Center with the latest responsible finishing technologies, returns this year.

Tonello will also present another project: ONE Denim. A collection that aims to combat resource waste in the denim industry by demonstrating concretely how many new denim garments could be made from a single fabric by optimizing processes and choosing appropriate technologies and production methods. The fabrics chosen are from Sharabati Denim, the design is by Piero Turk, and the collection is processed by Tonello.

SA-KE
This project was born out of a dialogue between Tonello's technology and the creativity of British designers Sadia Rafique and Kelly Harrington, who produced as many as 70 artworks that are partly physically present at Kingpins and partly published in a book-zine that tells the philosophy and logic of this unique and original work. A work that combines technology, expressive research and all new forms of image generation, across the boundary between natural and artificial, but still totally human.

Source:

Tonello

12.10.2023

OETI offers ZDHC training for India's textile and leather industry

OETI, a Member of TESTEX Group, is an official ZDHC Approved Solution Provider under the ZDHC Roadmap to Zero Programme. Expanding beyond its existing role as a ZDHC Approved MRSL Certification Body for OEKO-TEX® ECO PASSPORT around the globe, OETI now offers comprehensive ZDHC training services in India.

The ZDHC (Zero Discharge of Hazardous Chemicals) Roadmap to Zero Programme drives sustainable chemical management in the global textile, apparel, leather, and footwear sectors. OETI's ZDHC training services empower brands, manufacturers, and other ZDHC stakeholders to master sustainable chemical management, adopting ZDHC guidelines, platforms, and solutions.

This programme delivers a comprehensive understanding of chemical management systems (CMS) and their practical implementation within the textile and leather industries. Targeting various organisational departments, including management, chemical teams, procurement, compliance, and sustainability, this training fosters collaboration within the departments regarding sustainable chemical management.

OETI, a Member of TESTEX Group, is an official ZDHC Approved Solution Provider under the ZDHC Roadmap to Zero Programme. Expanding beyond its existing role as a ZDHC Approved MRSL Certification Body for OEKO-TEX® ECO PASSPORT around the globe, OETI now offers comprehensive ZDHC training services in India.

The ZDHC (Zero Discharge of Hazardous Chemicals) Roadmap to Zero Programme drives sustainable chemical management in the global textile, apparel, leather, and footwear sectors. OETI's ZDHC training services empower brands, manufacturers, and other ZDHC stakeholders to master sustainable chemical management, adopting ZDHC guidelines, platforms, and solutions.

This programme delivers a comprehensive understanding of chemical management systems (CMS) and their practical implementation within the textile and leather industries. Targeting various organisational departments, including management, chemical teams, procurement, compliance, and sustainability, this training fosters collaboration within the departments regarding sustainable chemical management.

More information:
ZDHC chemicals OETI Training
Source:

OETI

One-third increase in exhibitors at Cinte Techtextil China 2023 (c) Messe Frankfurt (HK) Ltd
04.10.2023

One-third increase in exhibitors at Cinte Techtextil China 2023

Since the rapid growth brought about by the pandemic, the technical textiles and nonwovens markets are stabilising towards a new normal – one in which technological innovation, sustainable development, and intelligent manufacturing are the most sought-after qualities. Held from 19 – 21 September 2023 at the Shanghai New International Expo Centre, the fair amplified this new industry direction, both through its fringe programme and across the booths of the 40,000 sqm show floor. With a nearly one-third increase from 2021, 467 exhibitors representing 13 countries and regions engaged a significantly international visitor flow, numbering 15,542 total visits from 52 countries and regions. Suppliers showcased up-to-date products for multiple application areas, with various equipment, technical textiles and nonwovens for agriculture, automotive, protective apparel, and medical and hygiene especially prevalent.

Since the rapid growth brought about by the pandemic, the technical textiles and nonwovens markets are stabilising towards a new normal – one in which technological innovation, sustainable development, and intelligent manufacturing are the most sought-after qualities. Held from 19 – 21 September 2023 at the Shanghai New International Expo Centre, the fair amplified this new industry direction, both through its fringe programme and across the booths of the 40,000 sqm show floor. With a nearly one-third increase from 2021, 467 exhibitors representing 13 countries and regions engaged a significantly international visitor flow, numbering 15,542 total visits from 52 countries and regions. Suppliers showcased up-to-date products for multiple application areas, with various equipment, technical textiles and nonwovens for agriculture, automotive, protective apparel, and medical and hygiene especially prevalent.

Speaking at the fair’s close, Ms Wilmet Shea, General Manager of Messe Frankfurt (HK) Ltd, had an optimistic outlook for the future of the sector: “Sustainability and innovation often go hand-in-hand, and walking through the various halls, zones, and pavilions these past few days the evidence for this was widespread. With environmental protection more important than ever, and buyers across application areas increasingly sourcing eco-friendly solutions, our exhibitors were well-placed to meet that demand. This fair is consistently at the leading edge of technological progress, and with the global and domestic markets showing signs of improving further, we are already looking forward to what we can offer at next year’s edition.”  

With many overseas exhibitors making a comeback, this year’s fair was marked by the return of the Taiwan Pavilion and the 40-exhibitor strong European Zone. Beyond the international areas, domestic pavilions were organised by Beijing Guanghua, China Hang Tang Group, Funing, Jiujing, Shenda, Tiantai, Xianto, and Xiqiao, showcasing nonwovens for various sub-sectors, including filtration and medical. Valuable insights were exchanged at multiple fringe events, including the 11th China International Nonwovens Conference, the Advanced Technical Textiles Industry Chain Synergistic Innovation Development Forum, various events covering marine textiles and rope netting, and the “Kingsafe Dangs” National University Students' Nonwovens Development and Applications Showcase. Visitors, meanwhile, were pleased with the innovation on show across the entire platform.

The fair’s product categories cover 12 application areas, which comprehensively span a full range of potential uses in modern technical textiles and nonwovens. These categories also cover the entire industry, from upstream technology and raw materials providers to finished fabrics, chemicals and other solutions. This scope of product groups and application areas ensures that the fair is an effective business platform for the entire industry.