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HEREWEAR is winner of the Cellulose Fibre Innovation of the Year Photo: DITF
The Flexidress in its various forms
22.03.2024

HEREWEAR is winner of the Cellulose Fibre Innovation of the Year

At the "International Conference on Cellulose Fibers 2024" in Cologne, Germany, the Nova Institute for Ecology and Innovation awarded first place in the Innovation Prize to the project partners of the EU-funded HEREWEAR project. They presented a dress made of cellulose fibers, which is entirely made of straw pulp.

HEREWEAR is an EU-wide research project that brings together partners from research and industry. They are working to establish a European circular economy for locally produced textiles and clothing made from bio-based raw materials.
The HEREWEAR consortium consists of small and medium-sized enterprises and research institutions. HEREWEAR covers all the necessary expertise and infrastructure from academic and applied research and industry from nine EU countries.

The HEREWEAR approach includes technical and ecological innovations in the production of fibers, yarns, fabrics, knitwear and garments, as well as the use of regional value chains and the circular development of fashion items.

At the "International Conference on Cellulose Fibers 2024" in Cologne, Germany, the Nova Institute for Ecology and Innovation awarded first place in the Innovation Prize to the project partners of the EU-funded HEREWEAR project. They presented a dress made of cellulose fibers, which is entirely made of straw pulp.

HEREWEAR is an EU-wide research project that brings together partners from research and industry. They are working to establish a European circular economy for locally produced textiles and clothing made from bio-based raw materials.
The HEREWEAR consortium consists of small and medium-sized enterprises and research institutions. HEREWEAR covers all the necessary expertise and infrastructure from academic and applied research and industry from nine EU countries.

The HEREWEAR approach includes technical and ecological innovations in the production of fibers, yarns, fabrics, knitwear and garments, as well as the use of regional value chains and the circular development of fashion items.

New technologies for wet and melt spinning of cellulose and bio-based polyesters, e.g. PLA, from which yarns and fabrics are produced, form the technical basis. Coating and dyeing processes have been developed and tested as part of the project. In addition to reducing the carbon footprint of the product, another environmental goal is to reduce the release of microfibers throughout the textile manufacturing process and life cycle.

Improving the sustainability and recyclability of the developed garments is ensured by design for circularity and digitally networked production means. On-demand production is realized in so-called "microfactories", which are individualized and produce only for actual demand. This production method can be achieved through regional, networked value chains and enables the traceability of materials and manufacturing processes.

The dress presented at the award ceremony is an example of the cooperation and the different qualifications of the project partners: TNO (Netherlands Organization for Applied Scientific Research) provided sustainably produced pulp. The HighPerCell fibers were produced in DITF's spinning facilities. At the same time, designers from the fashion label Vretena created the design for the flexible, two-piece dress, which can be knitted without cutting waste. DITF textile experts worked with the designers to develop the knitting pattern. DITF textile engineers and technicians produced the knitted fabric and assembled the dress at the institutes’ technical center. DITF computer scientists and engineers created the "value chain" and "digital twins" for digital traceability of the production processes.

The innovation prize was awarded to the HEREWEAR consortiu for their joint achievement. Representatives of DITF Denkendorf and Vretena accepted the award on behalf of the EU project partners.

Source:

Deutsche Institute für Textil- und Faserforschung (DITF)

Borealis celebrates 30th anniversary (c) Borealis
05.03.2024

Borealis celebrates 30th anniversary

Borealis is commemorating its thirtieth year of operations. Born of a merger between Statoil and Neste, Borealis has expanded from its early Nordic roots to become one of the top polyolefins players. Its dedication to value creation through innovation has produced proprietary and transformative technologies which benefit society and accelerate the transition to a circular economy. The company is regularly ranked as Austria's top innovator in the European Patent Index and holds an extensive patent portfolio of around 8,900 granted patents. In Europe in particular, Borealis has for decades bolstered the industrial landscape by investing in its capital assets, and by providing thousands of jobs.

Borealis is commemorating its thirtieth year of operations. Born of a merger between Statoil and Neste, Borealis has expanded from its early Nordic roots to become one of the top polyolefins players. Its dedication to value creation through innovation has produced proprietary and transformative technologies which benefit society and accelerate the transition to a circular economy. The company is regularly ranked as Austria's top innovator in the European Patent Index and holds an extensive patent portfolio of around 8,900 granted patents. In Europe in particular, Borealis has for decades bolstered the industrial landscape by investing in its capital assets, and by providing thousands of jobs.

Innovations
Borealis uses technological innovation to add value to polyolefin-based applications, ensure that production processes are made more resource efficient, and to accelerate plastics circularity. Borstar®, the multi-modal proprietary technology for the manufacture of polyethylene (PE) and polypropylene (PP), has been a mainstay of Borealis success since the start-up of the first Borstar PE plant in Porvoo, Finland in 1995. Borstar has since been joined by other technology brands, like Borlink™, an innovation for the power cable industry; Borstar® Nextension Technology, an innovation that among other benefits facilitates the production of monomaterial applications designed for recycling; or the Borcycle™ M technology for mechanical recycling, which breathes new life into polyolefin-based, post-consumer waste, transforming it into applications with a lower carbon footprint.

Global Expansion
With the strong support of its two majority shareholders OMV (Austria) and The Abu Dhabi National Oil Company (ADNOC, UAE), Borealis continues to expand its global footprint. The joint venture Borouge, established in 1998 in the UAE, and listed on the Abu Dhabi Securities Exchange (ADX) since 2022, is one of the largest integrated polyolefin complexes. It is currently the site of the company’s largest-ever growth project: Borouge 4, the new USD 6.2 billion facility in Ruwais, which will serve customers in the Middle East and Asia. In North America, the Baystar™ joint venture, founded in 2017 and operated with partner TotalEnergies, entailed the construction of a new ethane cracker as well as the most advanced Borstar plant ever built outside of Europe. The PE Borstar 3G plant in Pasadena, Texas was started up in late 2023 and has brought Borstar to this continent for the first time. Borealis’ commitment to Europe as a production location is evidenced by the new, world-scale propane dehydrogenation (PDH) plant currently under construction at Borealis operations in Kallo, Belgium.

More information:
Borealis polyolefins Recycling
Source:

Borealis

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

DITF: Lignin coating for Geotextiles Photo: DITF
Coating process of a cellulose-based nonwoven with the lignin compound using thermoplastic processing methods on a continuous coating line.
27.10.2023

DITF: Lignin coating for Geotextiles

Textiles are a given in civil engineering: they stabilize water protection dams, prevent runoff containing pollutants from landfills, facilitate the revegetation of slopes at risk of erosion, and even make asphalt layers of roads thinner. Until now, textiles made of highly resistant synthetic fibers have been used for this purpose, which have a very long lifetime. For some applications, however, it would not only be sufficient but even desirable for the auxiliary textile to degrade in the soil when it has done its job. Environmentally friendly natural fibers, on the other hand, often decompose too quickly. The German Institutes of Textile and Fiber Research Denkendorf (DITF) are developing a bio-based protective coating that extends their service life.

Textiles are a given in civil engineering: they stabilize water protection dams, prevent runoff containing pollutants from landfills, facilitate the revegetation of slopes at risk of erosion, and even make asphalt layers of roads thinner. Until now, textiles made of highly resistant synthetic fibers have been used for this purpose, which have a very long lifetime. For some applications, however, it would not only be sufficient but even desirable for the auxiliary textile to degrade in the soil when it has done its job. Environmentally friendly natural fibers, on the other hand, often decompose too quickly. The German Institutes of Textile and Fiber Research Denkendorf (DITF) are developing a bio-based protective coating that extends their service life.

Depending on humidity and temperature, natural fiber materials can degrade in the soil in a matter of months or even a few days. In order to significantly extend the degradation time and make them suitable for geotextiles, the Denkendorf team researches a protective coating. This coating, based on lignin, is itself biodegradable and does not generate microplastics in the soil. Lignin is indeed biodegradable, but this degradation takes a very long time in nature.

Together with cellulose, Lignin forms the building materials for wood and is the "glue" in wood that holds this composite material together. In paper production, usually only the cellulose is used, so lignin is produced in large quantities as a waste material. So-called kraft lignin remains as a fusible material. Textile production can deal well with thermoplastic materials. All in all, this is a good prerequisite for taking a closer look at lignin as a protective coating for geotextiles.

Lignin is brittle by nature. Therefore, it is necessary to blend the kraft lignin with softer biomaterials. These new biopolymer compounds of brittle kraft lignin and softer biopolymers were applied to yarns and textile surfaces in the research project via adapted coating systems. For this purpose, for example, cotton yarns were coated with lignin at different application rates and evaluated. Biodegradation testing was carried out using soil burial tests both in a climatic chamber with temperature and humidity defined precisely according to the standard and outdoors under real environmental conditions. With positive results: the service life of textiles made of natural fibers can be extended by many factors with a lignin coating: The thicker the protective coating, the longer the protection lasts. In the outdoor tests, the lignin coating was still completely intact even after about 160 days of burial.

Textile materials coated with lignin enable sustainable applications. For example, they have an adjustable and sufficiently long service life for certain geotextile applications. In addition, they are still biodegradable and can replace previously used synthetic materials in some applications, such as revegetation of trench and stream banks.

Thus, lignin-coated textiles have the potential to significantly reduce the carbon footprint: They reduce dependence on petroleum-based products and avoid the formation of microplastics in the soil.

Further research is needed to establish lignin, which was previously a waste material, as a new valuable material in industrial manufacturing processes in the textile industry.

The research work was supported by the Baden-Württemberg Ministry of Food, Rural Areas and Consumer Protection as part of the Baden-Württemberg State Strategy for a Sustainable Bioeconomy.

Source:

Deutsche Institute für Textil- und Faserforschung Denkendorf (DITF)

Responsible Care Federal Competition 2023 Photo Rudolf GmbH
12.10.2023

RUDOLF wins Responsible Care Federal Competition 2023

The innovative company RUDOLF has been honoured for its outstanding achievements in the field of sustainability and environmental protection and has won the coveted Responsible Care Federal Competition 2023 in the category SME.

The innovative company RUDOLF has been honoured for its outstanding achievements in the field of sustainability and environmental protection and has won the coveted Responsible Care Federal Competition 2023 in the category SME.

The award was presented as part of a competition organised by the German Chemical Industry Association (VCI). Responsible Care is a voluntary initiative of the chemical industry. Its aim is continuous improvement in the areas of environmental protection, health and safety. Chemical companies and associations in more than 50 countries support the initiative. The award-winning project of the innovative company RUDOLF impressed the jury with its pioneering technology, which reduces CO2 emissions by up to 99.9 % compared to conventional cooling systems. „The project uses near-surface geothermal energy for industrial cooling - according to the motto „Efficiency First“ the most efficient way has been chosen!“ - Jury statement
 
TerraCool‘s winning system uses near-surface geothermal energy as the most natural form of cooling. It utilises the constant temperature of around 10°C at a depth of around 10 metres below ground. A specially developed heat exchanger system takes advantage of this natural cooling effect. In the future, it will be used to cool chemical production processes at RUDOLF. The main advantage of this technology is that it is CO2 neutral. The technology is highly efficient and consumes only 0.1 % of the electricity used by conventional cooling systems.  By using natural resources, the system reduces CO2 emissions by up to 99.9 % compared to conventional cooling systems, resulting in a very presentable carbon footprint. Another impressive aspect is its high energy efficiency. With just 1 kW of electrical energy, the system generates up to 600 kW of cooling capacity, thanks to the use of a highly energyefficient circulating pump system. Energy is, and will continue to be, a valuable „raw material“ for our industry and one that we need to manage carefully. The system is self-contained and has no contact with groundwater. No environmentally harmful refrigerants or antifreeze are required. With this technology, RUDOLF has made a pioneering contribution to the climate-neutral transformation of the economy, proving that innovative solutions can go hand in hand with environmental protection and sustainability. The Responsible Care award recognises the company‘s commitment to a greener future.

Source:

Rudolf GmbH

28.06.2023

EPTA highlights contribution of pultruded composites to sustainable construction

Increasing energy and resource efficiency in the construction sector will be key to the EU’s ambition of achieving climate neutrality by 2050. By enabling the manufacture of strong, durable and lightweight products, composite materials can help the construction sector improve its environmental sustainability, as well as reduce total lifecycle costs. The latest EPTA industry briefing, Pultruded composites contribute to a more sustainable future for construction, discusses how pultruded composites answer the need for materials offering high performance, faster installation, corrosion resistance and low maintenance.

The report is available to download from the EPTA website.

Increasing energy and resource efficiency in the construction sector will be key to the EU’s ambition of achieving climate neutrality by 2050. By enabling the manufacture of strong, durable and lightweight products, composite materials can help the construction sector improve its environmental sustainability, as well as reduce total lifecycle costs. The latest EPTA industry briefing, Pultruded composites contribute to a more sustainable future for construction, discusses how pultruded composites answer the need for materials offering high performance, faster installation, corrosion resistance and low maintenance.

The report is available to download from the EPTA website.

The future of construction
As one of the largest global users of energy and raw materials, the construction industry is under immense pressure to improve its sustainability. At the same time, it must respond to demands for improved performance and reduced total cost of ownership. New materials will be needed to minimise the use of natural resources, enable a reduction of carbon footprint and facilitate circular economy practices. Choosing the optimum materials required for durability throughout the lifecycle will be increasingly important. A shift to off-site production is also forecast, where factory-controlled environments and automated processes can improve quality control, lower waste, and reduce work on site.

Lightweight pultruded parts can be pre-assembled into modules or complete structures in the factory for faster installation on site. Lightweight profiles lower energy use during transportation and installation, and a longer service life combined with minimal maintenance can deliver a reduced through-life carbon footprint. Pultruded parts such as profiles, gratings, beams, tubes and planks are increasingly found in a range of building, construction and infrastructure applications. Examples include bridge decks, fencing, stairs and handrails, train platforms, cladding, utility poles, modular building concepts, and window frames.

One application offering large growth potential for composites is bridges. Composite bridges are being designed to provide a service life of 100 years and unlike steel bridges do not require regular repainting to protect them from corrosion. Over recent years, pultruded glass fibre composite has become a highly popular choice for pedestrian and cycle bridges. Pre-fabricated ‘easy fit’ bridge decking planks, pre-assembled bridge modules and complete bridge ‘kits’ are now available. Corrosion-resistant composite bridges are ideal for use near water or on the coast, and in remote locations where regular maintenance operations would be difficult. A composite bridge can deliver the same performance as a steel structure with a weight saving of up to 50% or more. This enables more streamlined bridge designs which require less substantial supporting structures and foundations, greatly reducing consumption of materials and energy. Lightweight also results in easier logistics and simplified installation. Pultruded are more easily transported to the construction site, with lower fuel consumption, and easier to move on site, often reducing labour requirements and the capacity of lifting equipment.

A lifecycle approach
As the construction industry looks to the future, the environmental and economic benefits of composite materials linked to easier logistics and installation, durability and low maintenance are becoming increasingly valued. More projects are demonstrating the benefits of composite materials and standards covering the design, fabrication and installation of pultruded profiles are making it easier for the construction industry to use them. With ongoing development and collaboration, pultrusion has the potential to contribute to a more sustainable future for construction and many other industries. EPTA will continue to promote the advancement of pultrusion technology and its applications and foster sustainable practices within the industry.

Source:

The European Pultrusion Technology Association (EPTA)

(c) Lenzing AG
01.06.2023

Lenzing celebrates 40th anniversary of LENZING™ Acetic Acid Biobased

Lenzing Group, a global producer of wood-based specialty fibers, is celebrating the 40th anniversary of its biorefinery and co-product brand LENZING™ Acetic Acid Biobased. The brand was first introduced on May 4, 1983, and has since become one of the leading and most trusted biobased acetic acid providers.

Over the past 40 years, LENZING™ Acetic Acid Biobased, which has a reduced carbon footprint that is 85% lower than that of fossil-based acetic acid, has continued to gain trust and support from customers. Specialty chemical company Evonik, and food production company Speyer & Grund Group, have been incorporating LENZING™ Acetic Acid Biobased in the production of their products since 1983. LENZING™ Acetic Acid Biobased has also been in high demand from the hygiene industry during the COVID-19 pandemic as an all-purpose cleaning agent in conventional and green products.

Lenzing Group, a global producer of wood-based specialty fibers, is celebrating the 40th anniversary of its biorefinery and co-product brand LENZING™ Acetic Acid Biobased. The brand was first introduced on May 4, 1983, and has since become one of the leading and most trusted biobased acetic acid providers.

Over the past 40 years, LENZING™ Acetic Acid Biobased, which has a reduced carbon footprint that is 85% lower than that of fossil-based acetic acid, has continued to gain trust and support from customers. Specialty chemical company Evonik, and food production company Speyer & Grund Group, have been incorporating LENZING™ Acetic Acid Biobased in the production of their products since 1983. LENZING™ Acetic Acid Biobased has also been in high demand from the hygiene industry during the COVID-19 pandemic as an all-purpose cleaning agent in conventional and green products.

Pioneering a carbon neutral future in the biorefinery segment with a new offering
To mark the important occasion, Lenzing will introduce its first carbon neutral LENZING™ Acetic Acid Biobased to meet the growing sustainability needs of industries which predominately rely on fossil-based materials. Similar to the standard LENZING™ Acetic Acid Biobased, the carbon neutral LENZING™ Acetic Acid Biobased is produced using sustainably sourced beech wood as a universal replacement for non-renewable raw materials such as crude oil. By calculating, reducing and offsetting emissions during production processes, this expansion will create a more sustainable supply chain with highly functional products across various industries. From now on, Lenzing customers across the food, pharmaceutical, cosmetics, chemical and textile industries will be able to choose between carbon neutral and reduced carbon footprint acetic acid products.

Advancing circularity and carbon neutrality through efficient use of valuable resources
Lenzing’s biorefinery concept ensures that 100% of wood components are used to produce pulp for Lenzing’s botanic fibers, biorefinery products, as well as bioenergy, which is used to power Lenzing’s facilities. This makes Lenzing’s biorefinery sites almost fully energy self-sufficient to remain as carbon neutral as possible. To ensure a low carbon footprint, rail transportation is the preferred means for transporting LENZING™ biorefinery products, with trucks being leveraged in regions where rail transportation is not available.

Together with ClimatePartner, a recognized global leader in the design, development, and delivery of corporate climate action programs, Lenzing strives to reduce carbon emissions to net-zero through a mix of higher production efficiencies, use of renewable energy sources, low-carbon materials, and the dedicated support of an external nature-based carbon removal project. For instance, to offset remaining carbon emissions that cannot be reduced, Lenzing works with ClimatePartner to support and finance the switch to biomass as an energy source at a ceramic factory in Kitambar in northeastern Brazil. Using natural waste materials, like coconut shells, as renewable biomass for its energy production, the factory is able to produce roof tiles in a more climate-friendly way while saving on carbon emissions. Besides contributing to the fuel switch, the project also helps to reduce the deforestation rate in Brazil and avoid methane emissions that could result from the uncontrolled rotting of biomass.

More information:
Lenzing biobased acetic acid
Source:

Lenzing Group

Foto: ANDRITZ
Novafiber CEO and Head of Production together with ANDRITZ technicians and project manager in front of the newly installed 6-cylinder EXEL line
05.04.2023

Novafiber starts up textile recycling and airlay lines from ANDRITZ

International technology group ANDRITZ has delivered, installed, and commissioned a mechanical textile recycling line and an airlay line at Novafiber’s nonwovens production mill in Palín, Guatemala. Both lines have been successfully operating since December 2022.

The recycling line – the second tearing line ANDRITZ supplied to Novafiber – processes post-industrial textile waste from Central America. The recycled fibers feed the latest ANDRITZ Flexiloft airlay line, which produces nonwoven end-products for the bedding and furniture industries – a true example of a circular textile-to-nonwoven approach. The production process ensures complete material use as a state-of-the-art edge trim recycling system returns any waste directly to the tearing and/or airlay line.

This combination of ANDRITZ tearing and airlay lines allows Novafiber to process large amounts of post-industrial garments, controlling the supply chain from raw material to final product. In addition, it enables energy savings and a reduced carbon footprint due to the reduction of shipments.

International technology group ANDRITZ has delivered, installed, and commissioned a mechanical textile recycling line and an airlay line at Novafiber’s nonwovens production mill in Palín, Guatemala. Both lines have been successfully operating since December 2022.

The recycling line – the second tearing line ANDRITZ supplied to Novafiber – processes post-industrial textile waste from Central America. The recycled fibers feed the latest ANDRITZ Flexiloft airlay line, which produces nonwoven end-products for the bedding and furniture industries – a true example of a circular textile-to-nonwoven approach. The production process ensures complete material use as a state-of-the-art edge trim recycling system returns any waste directly to the tearing and/or airlay line.

This combination of ANDRITZ tearing and airlay lines allows Novafiber to process large amounts of post-industrial garments, controlling the supply chain from raw material to final product. In addition, it enables energy savings and a reduced carbon footprint due to the reduction of shipments.

Based in Palín, Novafiber is a leading company in Guatemala for producing nonwovens from post-industrial textile waste for both the local market and export.

Source:

ANDRITZ AG

(c) Euratex
RegioGreenTex - Kickoff meeting
21.02.2023

New European initiative for SMEs: Transform textile waste into value

43 partners of the RegioGreenTex project met in Brussels to kick start a three-year project that should change the way we manage textile recycling.

Regions for Green Textiles – known as RegioGreenTex – is a quadruple-helix partnership initiative aiming at mapping and reducing the difficulties, which currently exist in the implementation of a circular economy model within the textile ecosystem across the EU.

RegioGreenTex will  support tangible solutions at SME level, where textile waste becomes a value. The project will contribute to maintain and develop jobs in the EU textile sector, reshoring the production in Europe and making the EU textile value chain more competitive and resilient. It will contribute to the EU Green Deal objectives of reducing carbon footprint, energy and water consumption.

More information:
Euratex SMEs textile waste EISMEA
Source:

Euratex

13.01.2023

Source Fashion: New international fashion sourcing platform in UK

The international fashion sourcing platform Source Fashion, taking place from 12th – 14th February at Olympia London, has announced a compelling line-up of country pavilions and over 150 audited, quality manufacturers from around the world including Peru, India, China, Pakistan, Italy, Spain, Greece, North Macedonia,  the UAE, Madagascar, Jordan, Uzbekistan, Turkey, the UK and many more who will join the inaugural show, which runs parallel to Pure London.

Bringing a textile pavilion to the UK for the first time, the Peru Pavilion will showcase six manufacturers specialising in high-quality alpaca wool from the raw material right through to garment production, as well as cotton and other natural mixtures.

The international fashion sourcing platform Source Fashion, taking place from 12th – 14th February at Olympia London, has announced a compelling line-up of country pavilions and over 150 audited, quality manufacturers from around the world including Peru, India, China, Pakistan, Italy, Spain, Greece, North Macedonia,  the UAE, Madagascar, Jordan, Uzbekistan, Turkey, the UK and many more who will join the inaugural show, which runs parallel to Pure London.

Bringing a textile pavilion to the UK for the first time, the Peru Pavilion will showcase six manufacturers specialising in high-quality alpaca wool from the raw material right through to garment production, as well as cotton and other natural mixtures.

The main Indian Pavilion at this year’s Source Fashion, in collaboration with the Wool and Woollens Export Promotion Council, will showcase 20 established garment and textile exporters specialising in wool, woollen and acrylic fibres. The exhibitors will be showing full garments including men’s, women’s and kidswear as well as a selection of fabrics and raw materials. These exhibitors are regular export partners to the UK retail industry and already work with some big retailers in white label production.

The China Pavilion will present a selection of high-quality Chinese manufacturers ranging from full garment manufacturing through to raw materials, fabrics, cashmere and components.

Other producers and manufacturers attending Source Fashion from across Europe and the UK include:

  • Mivania - an Italian knitwear manufacturer producing garments in 100% cashmere and cashmere blends.
  • SATCoL (Salvation Army Trading Company) - a charity-owned textiles collector in the UK, actively working with retailers to reduce their carbon footprints.
  • Kusilas - a Spanish company monitoring all the stages of the production process.
  • Prime Casual - based in Leicester, UK, they specialise in the design and manufacture of ladies clothing from fast fashion, wholesale to bespoke tailoring.
  • Athos Pallas - a fashion and textile agency located in Thessaloniki, Greece.

 

Source:

Source Fashion by Hyve / Good Results PR

(c) TMAS
30.12.2022

Climate impact mapping of Swedish textile machinery

Over the past year, TMAS, the Swedish Textile Machinery Association, has been working with ClimatePartner on a corporate carbon footprint (CCF) mapping project with its member companies, as a natural step towards supporting a more sustainable textile industry.

Over half of the members of TMAS are participating in the project, which involves calculating each operation’s Scope 1, 2 and 3 emissions in order to identify the current climate impact and areas where reductions can be made.

“Integrating climate action into strategies is becoming increasingly important in Europe and we have decided to take a pro-active role,” says TMAS secretary general Therese Premler-Andersson. “There is growing pressure from customers to be more transparant in this area and forthcoming legislation will soon make it necessary for all to take climate actions. TMAS members, however, recognise the benefit of taking action now, not least in terms of taking responsibility and demonstrating credibility.”

The CCF project’s scope examines all aspects of a business split into five areas:

Over the past year, TMAS, the Swedish Textile Machinery Association, has been working with ClimatePartner on a corporate carbon footprint (CCF) mapping project with its member companies, as a natural step towards supporting a more sustainable textile industry.

Over half of the members of TMAS are participating in the project, which involves calculating each operation’s Scope 1, 2 and 3 emissions in order to identify the current climate impact and areas where reductions can be made.

“Integrating climate action into strategies is becoming increasingly important in Europe and we have decided to take a pro-active role,” says TMAS secretary general Therese Premler-Andersson. “There is growing pressure from customers to be more transparant in this area and forthcoming legislation will soon make it necessary for all to take climate actions. TMAS members, however, recognise the benefit of taking action now, not least in terms of taking responsibility and demonstrating credibility.”

The CCF project’s scope examines all aspects of a business split into five areas:

  • Facility Management (heating, electricity, water, cooling agents and waste disposal).
  • Employee Mobility (commuting and company cars).
  • Business Travel (flights travel by train, rental cars).
  • Procurement (production, packaging and office materials).
  • Logistics (inbound and outbound).

Primary data is being used wherever possible and emission factors originate from internationally recognised databases such as ecoinvent and GEMIS.

The ClimatePartner measurement programme is based on the guidelines of the Greenhouse Gas Protocol Corporate Accounting and Reporting Standard (GHG Protocol), and factors in all greenhouse gases covered by the Kyoto Protocol. These are carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFC), perfluorocarbons (PFC), sulphur hexafluoride (SF6) and nitrogen trifluoride (NF3).

Each of these gases affect the atmosphere differently and remain in the atmosphere for different lengths of time. Rather than reporting on each gas separately, they are expressed as a CO2 equivalent (CO2e) for the sake of simplicity. A CO2e is essentially a conversion into a ‘global warming potential’ value that enables the influence of different gases on global warming to be compared.

(c) Indorama Ventures Public Company Limited
20.12.2022

Indorama Ventures and Faurecia: New range of cushioning solutions for automotives

  • Auraloop is a brand-new range of cushioning solutions made from an innovative structure of Polyester-based fibers, 100% recyclable, aimed at the mobility markets
  • One of the objectives of Auraloop is a twofold reduction in the carbon footprint of car seat pads, currently made from polyurethane foam
  • Auraloop offers an increased level of performance in terms of thermal comfort and durability

R&D teams within the Faurecia seating activity have recently penned an exclusive development agreement with Indorama Ventures. This partnership between Indorama Ventures and Faurecia, a company of FORVIA Group which is one of the largest automotive industry suppliers, has the aim of developing Auraloop, a new range of cushioning solutions for the mobility markets and intended to replace polyurethane foam currently used in car seats.

  • Auraloop is a brand-new range of cushioning solutions made from an innovative structure of Polyester-based fibers, 100% recyclable, aimed at the mobility markets
  • One of the objectives of Auraloop is a twofold reduction in the carbon footprint of car seat pads, currently made from polyurethane foam
  • Auraloop offers an increased level of performance in terms of thermal comfort and durability

R&D teams within the Faurecia seating activity have recently penned an exclusive development agreement with Indorama Ventures. This partnership between Indorama Ventures and Faurecia, a company of FORVIA Group which is one of the largest automotive industry suppliers, has the aim of developing Auraloop, a new range of cushioning solutions for the mobility markets and intended to replace polyurethane foam currently used in car seats.

“By setting out these initial milestones in our close-knit collaboration with Faurecia, this partnership is an integral part of Indorama Ventures’ commitment to expand its existing Polyester (PET)-based portfolio and related activities into wider areas. By bringing together two leading players in the automotive industry, we aim to open up further growth opportunities for both partners”, stated Arnaud Closson, Chief Executive Officer at Indorama Ventures’ Mobility Group / Fibers Segment.

“Auraloop will replace those materials currently used in car seating with innovative and sustainable materials, based on polyester fibers that offer a total recyclability of 100%. This new material will allow for a twofold reduction in the carbon footprint of car seat pad solutions compared to current materials”, explains Nicolas Michot, Director of Technology at Faurecia Seating. Development of this product, which paves the way towards wider commercial release in two or three years, falls within the FORVIA Group strategy of going carbon neutral by 2045. For this, the group is seeking to root its commercial offer fully in the circular economy, with the development and production of sustainable cutting-edge materials under the banner of MATERI’ACT.

Auraloop offers a range of new perspectives in terms of seating comfort thanks to a more open fiber structure and permeability for air than current seating pad solutions, the breathability of seating is improved, enabling a better passive thermal regulation of occupants. The durability of seating is also increased by limited subsidence of the seat over its lifetime. The market for comfort aboard vehicles is constantly growing. The development of Auraloop falls within this dynamic, with a product offering significantly improved performances in terms of static, dynamic and welcoming comfort.

Source:

Indorama Ventures Public Company Limited

08.11.2022

Ascend buys majority stake in recycler Circular Polymers

Ascend Performance Materials has purchased a majority stake in California-based Circular Polymers, a recycler of post-consumer, high-performance polymers including polyamide 6 and 66, polypropylene and polyester (PET). The deal provides Ascend with a consistent supply of high-quality PCR materials for its ReDefyne™ sustainable polyamides, launched at K 2022.

Circular Polymers, which as part of the deal is renamed Circular Polymers by Ascend, reclaims and processes post-consumer carpet via a unique technology and has redirected approximately 85 million pounds of waste from landfills into new goods since 2018.

“We are focused on helping our customers reach their sustainability goals and Circular Polymers by Ascend provides materials that offer strong performance with a considerably smaller environmental footprint, compared to other technologies like pyrolysis,” said Phil McDivitt, president and CEO of Ascend. “Since we launched ReDefyne, the demand for our circular products has been significant across all segments of our business, including automotive, consumer, electronics and high-performance fibers and textiles.”

Ascend Performance Materials has purchased a majority stake in California-based Circular Polymers, a recycler of post-consumer, high-performance polymers including polyamide 6 and 66, polypropylene and polyester (PET). The deal provides Ascend with a consistent supply of high-quality PCR materials for its ReDefyne™ sustainable polyamides, launched at K 2022.

Circular Polymers, which as part of the deal is renamed Circular Polymers by Ascend, reclaims and processes post-consumer carpet via a unique technology and has redirected approximately 85 million pounds of waste from landfills into new goods since 2018.

“We are focused on helping our customers reach their sustainability goals and Circular Polymers by Ascend provides materials that offer strong performance with a considerably smaller environmental footprint, compared to other technologies like pyrolysis,” said Phil McDivitt, president and CEO of Ascend. “Since we launched ReDefyne, the demand for our circular products has been significant across all segments of our business, including automotive, consumer, electronics and high-performance fibers and textiles.”

Ascend has a sustainability strategy based on three pillars: empowering people, innovating solutions and operating without compromise. Ascend has committed to reducing its greenhouse gas emissions by 80% by 2030 and recently announced two new efforts to reduce the carbon footprint of its products.

Source:

Ascend Performance Materials / EMG

(c) Lenzing AG
03.10.2022

Lenzing: Ground-mounted photovoltaic system becomes operational

The Lenzing Group and VERBUND, an energy transition company, launched the first development stage of the largest ground-mounted photovoltaic system in Upper Austria. Together with its energy partner VERBUND, Lenzing is also paving the way for the transition to zero-emission mobility. The installation of electric vehicle charging infrastructure at the company’s premises underlines Lenzing’s commitment to the energy transition process.

The Lenzing Group and VERBUND, an energy transition company, launched the first development stage of the largest ground-mounted photovoltaic system in Upper Austria. Together with its energy partner VERBUND, Lenzing is also paving the way for the transition to zero-emission mobility. The installation of electric vehicle charging infrastructure at the company’s premises underlines Lenzing’s commitment to the energy transition process.

Thanks to the ground-mounted photovoltaic system at the “Ofenloch” landfill site, Lenzing, in conjunction with VERBUND, is consistently moving forward on the path to a carbon-free energy supply and has commissioned the first half of the new photovoltaic system with a peak power of 2,780 kWp. Full commissioning of the system with a peak power of 5,560 kWp is envisaged in mid-October. Annual electricity production will amount to 6,000,000 kWh, which is expected to cut CO2 emissions by some 4,400 tonnes per year. The Austrian pioneer in fiber production already commissioned three rooftop photovoltaic systems in spring/summer of 2022, with a peak power of 1,454 kWp and annual electricity production of some 1,508,000 kWh. The electricity flows directly into the company’s on-site production and will also power electric charging stations in future. In the first development stage, 16 wallboxes are set to be installed by the end of the year. A further 32 charging points are planned for 2023. The charging stations will be accessible to staff, visitors and the company’s own vehicle fleet.

“VERBUND’s photovoltaic operator model allows us to make the transition to solar power without incurring investment costs or risks. Thanks to the constant expansion in renewable energy, we remain on course to ecologize the value chain, while optimizing our carbon footprint, cutting costs and reducing the load on the grid, as we are using nearly 100 percent of photovoltaic power in our production,” explains Christian Skilich, Chief Pulp Officer of the Lenzing Group.

More information:
Lenzing energy consumption CO2
Source:

Lenzing AG

(c) Borealis
08.09.2022

Borealis and Trexel develop fully recyclable lightweight bottle

  • Monomaterial solution contains renewably-sourced polypropylene from the Bornewables™ portfolio of circular polyolefins
  • Trexel employs its proprietary MuCell® technology to deliver a range of lightweighting benefits
  • EverMinds™ in action: reuse and design for recycling are focus of value chain collaboration

Borealis and Trexel, an expert in foaming injection and blow moulded parts, announce that they have co-developed a new plastic bottle based on a grade from the Bornewables™ portfolio of polyolefins made using renewable feedstocks derived 100% from waste and residue streams. The lightweight bottle – which will be showcased at the Borealis stand at the K 2022 (from 19 to 26 October 2022 in Düsseldorf) – is reusable and fully recyclable. It boasts a significantly lower overall CO2 footprint because it is composed of renewably-sourced feedstock and produced in the foaming process.

  • Monomaterial solution contains renewably-sourced polypropylene from the Bornewables™ portfolio of circular polyolefins
  • Trexel employs its proprietary MuCell® technology to deliver a range of lightweighting benefits
  • EverMinds™ in action: reuse and design for recycling are focus of value chain collaboration

Borealis and Trexel, an expert in foaming injection and blow moulded parts, announce that they have co-developed a new plastic bottle based on a grade from the Bornewables™ portfolio of polyolefins made using renewable feedstocks derived 100% from waste and residue streams. The lightweight bottle – which will be showcased at the Borealis stand at the K 2022 (from 19 to 26 October 2022 in Düsseldorf) – is reusable and fully recyclable. It boasts a significantly lower overall CO2 footprint because it is composed of renewably-sourced feedstock and produced in the foaming process.

The Bornewables™ portfolio of circular polyolefins helps reduce the carbon footprint while offering material performance equal to virgin polymers. Using Bornewables grades allows for design freedom and colour flexibility, and helps retain a premium look and feel. The grades – which are commercially available in Europe – help conserve natural resources because they are derived solely from waste and residue streams, for example from used cooking oil. Reusing waste already in circulation instead of fossil fuel-based feedstocks enhances the sustainability of applications made using the Bornewables grades.

The reusable new bottle developed by Borealis and Trexel retains its value over many life cycles thanks to the use of Trexel’s proprietary technology in tandem with Bornewables grades; as a material solution, the new bottle minimises the use of valuable raw materials. Moreover, converters consume less energy in the production process when using the MuCell® technology. The bottle thus helps close the loop on plastics circularity by way of design for recycling, the use of renewable feedstocks, and excellent material performance across multiple life cycles.

Source:

Borealis

(c) Adient
As a symbol for a sustainable cooperation, Michel Berthelin (Executive Vice President EMEA, 2nd from left) and Henrik Henriksson (CEO H2 Green Steel, 1st from right) planted a ginkgo tree together with their teams in front of the Adient EMEA headquarters in Burscheid, Germany.
01.09.2022

Adient: Cooperation with H2 Green Steel to reduce carbon footprint

Adient, a supplier of seating systems for the automotive industry, has entered into a cooperation with Swedish steelmaker H2 Green Steel (H2GS) to reduce the carbon footprint in its value chain.
 
On 1st September Michel Berthelin, Executive Vice President Adient EMEA, and Henrik Henriksson, CEO of H2 Green Steel, have mutually signed an agreement to supply fossil-free steel with low carbon footprint from 2026 on and subsequently use it in Adient's metal products.

Adient, a supplier of seating systems for the automotive industry, has entered into a cooperation with Swedish steelmaker H2 Green Steel (H2GS) to reduce the carbon footprint in its value chain.
 
On 1st September Michel Berthelin, Executive Vice President Adient EMEA, and Henrik Henriksson, CEO of H2 Green Steel, have mutually signed an agreement to supply fossil-free steel with low carbon footprint from 2026 on and subsequently use it in Adient's metal products.

Michel Berthelin explains the background to the cooperation: “As a company, we are committed to the Science Based Targets Initiative, a collaboration between leading global institutions to set a science-based climate target. We also support the Carbon Disclosure Project, which helps companies and cities to understand and disclose their environmental impacts. The decision to shift parts of the steel volume sourced for our production to a steel with low carbon footprint is part of our sustainability strategy. It is our goal to reduce emissions at our production sites that are caused directly by our own sources or indirectly by our energy suppliers by 75% by 2030. In parallel, we aim to reduce emissions along our supply chains by 35% over the same period. In doing so, Adient actively fosters the industry's transformation towards a more responsible use of natural resources.”

Steel from H2 Green Steel is produced with up to 95% less CO2 emissions compared to conventional steel production. The company achieves this by replacing coal with green hydrogen in production and by the use of electricity from non-fossil sources. In this way, mainly water and heat are produced as waste products.

Source:

Adient

05.07.2022

Stahl: Reduction of Scope 3 upstream emissions by at least 25%

Stahl, a proponent of responsible chemistry, is submitting a greenhouse gas (GHG) emissions reduction target that is aligned with the most recent guidance provided by the Science Based Targets initiative (SBTi). The new target marks a key milestone on the company’s journey toward carbon neutrality.

Stahl’s SBTi submission includes a specific commitment regarding the company’s Scope 3 upstream emissions, which Stahl aims to reduce by at least 25% over the next 10 years, compared with the base year (2021). This reduction would primarily be achieved by Stahl replacing its fossil-based raw materials with lower-carbon alternatives. The target is a major step towards the objective of limiting global warming temperature increase to 1.5°C above pre-industrial levels by 2050, as agreed at the 2015 Paris Climate Accords.
 
Stahl’s extended commitment builds on the company’s existing targets to reduce its emission for Scopes 1 and 2, which were set shortly after the Paris Agreement in 2015. Stahl has since reduced its Scope 1 and 2 (direct) GHG emissions by more than 30%, thanks to operational efficiency gains and by decarbonizing its energy supply.

Stahl, a proponent of responsible chemistry, is submitting a greenhouse gas (GHG) emissions reduction target that is aligned with the most recent guidance provided by the Science Based Targets initiative (SBTi). The new target marks a key milestone on the company’s journey toward carbon neutrality.

Stahl’s SBTi submission includes a specific commitment regarding the company’s Scope 3 upstream emissions, which Stahl aims to reduce by at least 25% over the next 10 years, compared with the base year (2021). This reduction would primarily be achieved by Stahl replacing its fossil-based raw materials with lower-carbon alternatives. The target is a major step towards the objective of limiting global warming temperature increase to 1.5°C above pre-industrial levels by 2050, as agreed at the 2015 Paris Climate Accords.
 
Stahl’s extended commitment builds on the company’s existing targets to reduce its emission for Scopes 1 and 2, which were set shortly after the Paris Agreement in 2015. Stahl has since reduced its Scope 1 and 2 (direct) GHG emissions by more than 30%, thanks to operational efficiency gains and by decarbonizing its energy supply.

Scope 3 GHG emissions cover all the additional indirect emissions that can occur in the value chain, including those associated with purchased raw materials, packaging, business travel, and transportation. Stahl’s Scope 3 emissions currently represent over 90% of its carbon footprint.

Source:

Stahl Holdings B.V.

07.06.2022

EPTA World Pultrusion Conference 2022 explores composites sustainability

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

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

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

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

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

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

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

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

Source:

European Pultrusion Technology Association EPTA

03.06.2022

B.I.G. is ready for a sustainable future

With an annual report entitled 'Here.We.Go' and a sustainability report 'Shaping sustainable living, together', B.I.G. is also publishing a strong ambition for a sustainable future.

Offering sustainable flooring and material solutions will be the number one priority for the coming years.

The Group's first sustainability report is built around a self-designed sustainability model - "Route 2030" - which is based on achievable commitments, covers the main priorities and reflects B.I.G.'s vision in a sincere way.

Their vision for the B.I.G. change is to actively build a better future by their our carbon footprint to zero and doing business in a transparent, integer way. In this sense, it is the translation of the Group's purpose defined in 2021: shaping sustainable living, together.

With an annual report entitled 'Here.We.Go' and a sustainability report 'Shaping sustainable living, together', B.I.G. is also publishing a strong ambition for a sustainable future.

Offering sustainable flooring and material solutions will be the number one priority for the coming years.

The Group's first sustainability report is built around a self-designed sustainability model - "Route 2030" - which is based on achievable commitments, covers the main priorities and reflects B.I.G.'s vision in a sincere way.

Their vision for the B.I.G. change is to actively build a better future by their our carbon footprint to zero and doing business in a transparent, integer way. In this sense, it is the translation of the Group's purpose defined in 2021: shaping sustainable living, together.

Pol Deturck adds “By 2030, together with a broad group of suppliers, stakeholders and partners, we want to be the leader in sustainable flooring and material solutions. Specifically, our future value proposition is based on products and services that are environmentally & climate friendly, circular and offered by talented, innovative people with an emphasis on integrity and respect for values. This results more in a recurring value proposition for the future.”

Clear growth ambitions
As a 100% family-owned international Group with a clear long-term vision, B.I.G. stayed true to their plans and kept on investing in all areas of their business.
“The ambition for 2021 was to invest over 100 mio euro. But we were held back by external, unforeseen factors: from delays on quotes and execution to the lack of availability and resources due to the pandemic. If all goes as planned, we’ll make up for it in 2022 with an investment budget well over 100 million euro. The main areas of interest will be sustainability, innovation and Industry 4.0.” says Pieter-Jan Sonck, CFO of B.I.G.

Adding to the gradual top-line growth of recent years, the Group can look back on an unprecedented financial boom. The driving forces: favorable market conditions, a revitalized growth strategy and a team of nearly 5.000 first-class employees.

B.I.G. reported a turnover of EUR 2,5 billion, an increase of 45 % compared to 2020. The Group ebitda amounted to EUR 451 million, an increase of 120 % compared to 2020 and a net result of EUR 274 million, a growth of 215% compared to 2020.

Fruitful year for all Business Units
It was a fruitful year for all 3 business units, but the Group's business unit Polymers stood out. Exceptionally strong demand in Europe and North America, combined with raw material shortages and unplanned shutdowns of competitors, pushed prices and margins up to highs. The Polymers facilities ran at full capacity to meet the customers’ needs and hit all-time profit records during several months.

The Group's business unit Flooring Solutions also fared well. Most divisions and regions outperformed amid surging energy prices, disrupted supply chains, cost volatility in transport and raw materials, and other challenges. Their sustained focus on innovation, design and product differentiation led to an improved operating result at the end of 2021.

The achievements by Engineered Solutions echo those of the other two business units, from volume increases to budget increases. B.I.G. took big leaps forward in all its key markets, including the automotive sector, geotextiles and filtration.

Source:

Beaulieu International Group / EMG

(c) adidas AG
09.05.2022

adidas and Parley’s initiative "Run for the Oceans" returns for its fifth year

  • adidas x Parley’s global impact initiative, Run for the Oceans, returns for its fifth year, uniting sporting communities across the planet
  • More activities than ever will be eligible for Run for the Oceans, with the introduction of tennis, wheelchair movement, football and more
  • People across the world can take part by signing-up to the challenge from today and logging activity between May 23 – June 8

As we approach World Oceans Day on June 8, adidas and its longstanding partner Parley for the Oceans are once again encouraging the global sporting community to turn activity into action and Run for the Oceans in 2022.

  • adidas x Parley’s global impact initiative, Run for the Oceans, returns for its fifth year, uniting sporting communities across the planet
  • More activities than ever will be eligible for Run for the Oceans, with the introduction of tennis, wheelchair movement, football and more
  • People across the world can take part by signing-up to the challenge from today and logging activity between May 23 – June 8

As we approach World Oceans Day on June 8, adidas and its longstanding partner Parley for the Oceans are once again encouraging the global sporting community to turn activity into action and Run for the Oceans in 2022.

For the first time, new activities have been introduced to the challenge, making this the most inclusive Run for the Oceans yet. People from all parts of the global sporting community are invited to hit the streets, the tennis court and the football field, and unite to help protect the oceans from plastic waste. For every 10 minutes of running from select activities, such as running, tennis or football*, recorded by participants via the adidas Runtastic app, Joyrun, Codoon, Yeudongquan or Strava, Parley will clean up the equivalent weight of one plastic bottle from beaches, remote islands, and coastlines before it reaches the ocean (up to a maximum of 250,000kg).

Launching between May 23 – June 8, the event returns for its fifth year, with the ambition of mobilising a generation to help end plastic waste. Research shows that the world is at a tipping point, with it predicted that oceans will contain more plastic than fish by 2050.

Since the beginning of the partnership in 2015, adidas has made more than 50 million pairs of shoes with Parley Ocean Plastic and close to 18 million pairs in 2021 alone - this includes plastic waste intercepted from beaches and coastal communities, preventing it from polluting the oceans.

For 2022, adidas x Parley have announced the launch of Adizero X Parley and Ultraboost 22 X Parley . With a carbon footprint of just 3.5kg per pair, the Adizero X Parley is the first time adidas and Parley have combined to launch a lower footprint concept, a milestone for the partnership delivered through innovation and with no compromise on shoe performance.  

From raw material interception, processing, packaging, all the way to the end of product life, adidas calculate and communicate its carbon footprint, conforming to an internationally recognized standard: ISO 14067. The footprint results made available provide full transparency on the complete lifecycle of the product.

Source:

adidas AG