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Indorama Ventures launches its 10th annual Sustainability Report celebrating a decade of PET recycling and carbon reduction milestones (c) Indorama Ventures Public Company Limited
10th annual Sustainability Report
27.10.2021

Indorama Ventures launches its 10th annual Sustainability Report

  • IVL is celebrating a decade of PET recycling and carbon reduction milestones
  • Over 10 years, IVL has achieved a 100x increase in recycled PET

Indorama Ventures Public Company Limited (IVL), a world-class sustainable chemical company, launches its 10th annual Sustainability Report and a video celebrating a decade of ambitious PET recycling and carbon reduction milestones. The company is committed to intensifying its drive towards ending plastic waste and a more circular economy in the decade ahead.

Since its first Sustainability Report in 2011, IVL has grown its sustainability initiatives through the 3Ps – People, Planet and Prosperity. From the baseline in 2013, the company achieved a 10% reduction in GHG intensity, 4% in energy intensity and 7% in water intensity. It also increased total waste diverted from landfill from 48% to 84% in 2020. Moreover, IVL’s global PET recycling capacity has improved almost 100 times from 3,576 tons per year in 2011 – the first entry of IVL to the PET recycling business – to more than 330,000 tons per year in the second quarter of 2021.

  • IVL is celebrating a decade of PET recycling and carbon reduction milestones
  • Over 10 years, IVL has achieved a 100x increase in recycled PET

Indorama Ventures Public Company Limited (IVL), a world-class sustainable chemical company, launches its 10th annual Sustainability Report and a video celebrating a decade of ambitious PET recycling and carbon reduction milestones. The company is committed to intensifying its drive towards ending plastic waste and a more circular economy in the decade ahead.

Since its first Sustainability Report in 2011, IVL has grown its sustainability initiatives through the 3Ps – People, Planet and Prosperity. From the baseline in 2013, the company achieved a 10% reduction in GHG intensity, 4% in energy intensity and 7% in water intensity. It also increased total waste diverted from landfill from 48% to 84% in 2020. Moreover, IVL’s global PET recycling capacity has improved almost 100 times from 3,576 tons per year in 2011 – the first entry of IVL to the PET recycling business – to more than 330,000 tons per year in the second quarter of 2021.

Celebrating 10 years of sustainability reporting
Throughout the decade, IVL has voluntarily adopted international standards for its sustainability reports to drive benefits for the environment, society and economy. The effort resulted in recognition by world-class sustainability ratings agencies such as the Dow Jones Sustainability Indices (DJSI) and the Morgan Stanley Capital International (MSCI).

Recent Sustainability Reports have featured business cases and special situations such as COVID-19. In 2016, IVL was the first Thailand-based company to introduce an additional, shorter version of the report called the Sustainability Report Executive Summary. This year, IVL has made further improvements with an interactive approach, including links to videos and shortcuts to highlighted articles. As a global company operating in 33 countries, the report is available in 15 languages.

On track to recycle 50 billion bottles per year by 2025
In 2020 IVL recycled 10.1 billion PET bottles and is on track to recycle 50 billion bottles per year by 2025. The company’s global reach and leadership position as the world’s largest PET and recycled PET resin producer allow IVL to leverage a closed-loop system. In 2020 IVL invested in three additional recycling facilities and recently acquired CarbonLite’s recycling assets in Texas.

22.10.2021

VDMA Textile Machinery publishes position paper

In a position paper published on 22 October 2021, the companies organised in the VDMA Textile Machinery Association welcome the ambitions of the EU to promote climate protection, in particular the approach of combining the goals for the EU textile and clothing industry into a sector-specific strategy.

Up to now, the increasing textile consumption around the world, due to growing population and purchasing power has been accompanied by a rising use of resources. “The textile machinery companies organised in the VDMA are geared towards a functioning circular economy. With our highly efficient technologies we are an indispensable partner in this transition process”, explained Regina Brückner, Chairwoman of the VDMA Textile Machinery Association and Managing Associate of Brückner Trockentechnik.  

In a position paper published on 22 October 2021, the companies organised in the VDMA Textile Machinery Association welcome the ambitions of the EU to promote climate protection, in particular the approach of combining the goals for the EU textile and clothing industry into a sector-specific strategy.

Up to now, the increasing textile consumption around the world, due to growing population and purchasing power has been accompanied by a rising use of resources. “The textile machinery companies organised in the VDMA are geared towards a functioning circular economy. With our highly efficient technologies we are an indispensable partner in this transition process”, explained Regina Brückner, Chairwoman of the VDMA Textile Machinery Association and Managing Associate of Brückner Trockentechnik.  

In the new position paper, the executive board of the VDMA Textile Machinery Association emphasises that the new framework must be practicable. Ms Brückner said: “The EU must strike the right balance between necessary, yet also minimal, legislative regulation. A successful transition requires a level playing field which sets out fair rules for sustainability, thereby enabling European companies to nonetheless increase their international competitiveness.”

You can find the complete position paper in the attachment.

Source:

VDMA e. V

Renewcell and Kelheim Fibres form collaboration to establish a European closed loop for fashion
Logo
20.10.2021

Renewcell and Kelheim Fibres form collaboration to establish a European closed loop for fashion

Renewcell and Kelheim Fibres Gmbh have signed a Letter of Intent for a long term commercial collaboration to add the crucial missing link for a circular economy for textiles in Europe. Together, the two technology leaders will collaborate on developing com mercial scale production of superior quality viscose fibers from up to 10 000 tonnes of Renewcell’s 100% textile recycled material Circulose® annually. The collaboration paves the way toward a fully European closed loop in which textile waste is collected, recycled and regenerated into new Circulose® fibers for people that want to reduce their fashion footprint significantly.

Renewcell and Kelheim Fibres Gmbh have signed a Letter of Intent for a long term commercial collaboration to add the crucial missing link for a circular economy for textiles in Europe. Together, the two technology leaders will collaborate on developing com mercial scale production of superior quality viscose fibers from up to 10 000 tonnes of Renewcell’s 100% textile recycled material Circulose® annually. The collaboration paves the way toward a fully European closed loop in which textile waste is collected, recycled and regenerated into new Circulose® fibers for people that want to reduce their fashion footprint significantly.

"European fashion consumption has great impact on climate and the environment globally. It also contributes to tremendous amounts of waste going into landfill and incinerators either in Europe or abroad after export. We will now work with Kelheim to prevent waste and reduce the need for virgin resources, while also enabling a fully regional supply of low impact circular fibers for text iles” comments Patrik Lundström, CEO of Renewcell. “We are thrilled for the opportunity to work closely with a partner like Kelheim, who is at the leading edge of innovation and sustainability in this industry” he adds.

Craig Barker, CEO at Kelheim Fibres adds: "We see an excellent fit between our two companies, not only on the technical side with Renewcell we have found a highly professional partner who shares our vision for future forward technologies that enable full circularity in the textile chain. Finding the answers to the challenges of our times is what drives us every day. Our recycled cellulose fibre solution made of Renewcell’s Circulose® and manufactured using environmentally sound processes at our Kelheim plant is an answer to the fashi on industries need for sustainable, resource and waste reducing solutions, and a more regional and reliable supply chain."

Source:

Kelheim Fibres GmbH

18.10.2021

SABIC presents new Portfolio for Nonwovens at INDEX

SABIC has announced that the newly formed Hygiene & Healthcare segment of its Petrochemicals business will showcase its extensive portfolio of SABIC PURECARES™ polypropylene (PP) and polyethylene (PE) polymers for high-purity nonwovens and hygiene films at the upcoming INDEX™ Expo in Geneva, Switzerland, from October 19 through 22, 2021. The company will also present enabling solutions developed with partners to address the issue of plastic waste and support the transformation of the industry towards a circular economy with closed-loop initiatives and certified circular polymers under its TRUCIRCLE™ portfolio and services.

SABIC has announced that the newly formed Hygiene & Healthcare segment of its Petrochemicals business will showcase its extensive portfolio of SABIC PURECARES™ polypropylene (PP) and polyethylene (PE) polymers for high-purity nonwovens and hygiene films at the upcoming INDEX™ Expo in Geneva, Switzerland, from October 19 through 22, 2021. The company will also present enabling solutions developed with partners to address the issue of plastic waste and support the transformation of the industry towards a circular economy with closed-loop initiatives and certified circular polymers under its TRUCIRCLE™ portfolio and services.

During INDEX, SABIC will exhibit a wide range of PP polymers targeted at these needs. Highlights on display will include dedicated PP and PE grades for lightweight nonwoven fabrics using the latest spunbond and meltblown processes, and a new ultra-high melt flow PP product engineered for meltblown fibers in nonwoven fabrics. The nonwoven focus will be complemented by industry proven polyolefins for cast and blown film applications in hygiene webs and laminates, providing desirable back and top sheet properties such as water tightness, breathability and elasticity.

In addition, SABIC will also present ISCC Plus certified fiber and film polymers based on circular and renewable PP and PE polymer technology as part of the company’s TRUCIRCLE portfolio for advancing the transformation of the plastics industry from a linear to a truly circular economy. Examples of this comprehensive initiative include collaborations with various market leaders in the field. Together with Fibertex Personal Care, one of the world’s largest manufacturers of spunbond nonwovens for the hygiene industry, SABIC is creating a range of high-purity nonwovens for the hygiene market using ISCC PLUS certified circular PP polymer derived from post-consumer plastic waste. In another project, Fraunhofer Institute, SABIC and Procter & Gamble (P&G) joined forces to develop and demonstrate the feasibility of an advanced close-loop recycling process for used nonwoven facemasks.

Source:

SABIC / Marketing Solutions NV

07.10.2021

Lenzing rated “sustainability champion” by MSCI ESG

The Lenzing Group, leading supplier of wood-based specialty fibers, has received further recognition of its performance in sustainability. The prestigious rating agency MSCI has upgraded its rating for the Lenzing Group from “A” to “AA” as at September 2021. As a result, Lenzing ranks among the top 6 percent of companies rated in its peer group.

The upgrade to the MSCI ESG rating will also lead to a reduction in Lenzing’s interest expense. Lenzing placed a bonded loan worth EUR 500 mn in November 2019, which is linked to its sustainability performance. In accordance with its commitment under the bonded loan placement, the company will donate the full amount of the interest expense saved thanks to the rating revision to a project it supports.

The rating agency MSCI, whose rating determines the interest rate for the bonded loan, cited the company's ambitious climate targets, its approach to promoting a circular economy and exceptionally good governance structure as the main reasons for the upgrade.

The Lenzing Group, leading supplier of wood-based specialty fibers, has received further recognition of its performance in sustainability. The prestigious rating agency MSCI has upgraded its rating for the Lenzing Group from “A” to “AA” as at September 2021. As a result, Lenzing ranks among the top 6 percent of companies rated in its peer group.

The upgrade to the MSCI ESG rating will also lead to a reduction in Lenzing’s interest expense. Lenzing placed a bonded loan worth EUR 500 mn in November 2019, which is linked to its sustainability performance. In accordance with its commitment under the bonded loan placement, the company will donate the full amount of the interest expense saved thanks to the rating revision to a project it supports.

The rating agency MSCI, whose rating determines the interest rate for the bonded loan, cited the company's ambitious climate targets, its approach to promoting a circular economy and exceptionally good governance structure as the main reasons for the upgrade.

More information:
Lenzing Sustainability
Source:

Lenzing AG

Recycling secures raw materials for a climate-neutral Europe © ALBA Group
Newly published: the studie “resources SAVED by recycling”.
06.10.2021

Recycling secures raw materials for a climate-neutral Europe

Recycling is the key factor in achieving the EU climate targets. This is shown by the results of the "resources SAVED by recycling" study published today, which Fraunhofer UMSICHT prepared on behalf of the ALBA Group, one of the ten leading recycling companies worldwide. According to the study, 3.5 million tons of greenhouse gas emissions and 28.8 million tons of primary resources could be saved in 2020 alone. Further potential could be raised, for example, through minimum quotas for the use of recycled raw materials.

Recycling is the key factor in achieving the EU climate targets. This is shown by the results of the "resources SAVED by recycling" study published today, which Fraunhofer UMSICHT prepared on behalf of the ALBA Group, one of the ten leading recycling companies worldwide. According to the study, 3.5 million tons of greenhouse gas emissions and 28.8 million tons of primary resources could be saved in 2020 alone. Further potential could be raised, for example, through minimum quotas for the use of recycled raw materials.

“Fit for 55” thanks to the circular economy: the recycling of raw materials leads to a systematic reduction in the greenhouse gas emissions of our civilisation – and can therefore make a key contribution to achieving the EU climate goals. This is the outcome of the “resources SAVED by recycling” study presented today, which the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT prepared on behalf of the ALBA Group. Thanks to the closed-loop circulation of 4.8 million tonnes of recyclable materials, the ALBA Group succeeded in preventing some 3.5 million tonnes of climate-damaging greenhouse gas emissions in the year 2020 alone. This amount is equivalent to the emissions from some five million return flights between Frankfurt am Main and Mallorca. At the same time, recycling also secures valuable raw materials for the industry: in 2020, in comparison with primary production, recycling saved 28.8 million tonnes of resources, such as crude oil and iron ore.

“The circular economy is one of the strongest pace-setters on the journey to achieving climate neutrality,” highlights Dr. Axel Schweitzer, CEO of the ALBA Group. “We will only achieve the goal of reducing greenhouse gas emissions by at least 55 per cent throughout Europe by 2030 if we make consistent use of recycled raw materials.” This includes the area of plastics, for example: compared with primary plastics made from crude oil, the use of high-quality recycled plastics achieves a reduction of greenhouse gas emissions of more than 50 per cent. “It is now necessary to lever this potential,” explains Schweitzer. “We are expecting the new Federal Government in Germany to act decisively and push ahead directly with the transition to a circular economy. The environmental benefits of recycling due to its clearly superior CO2 balance should also find reflection in prices. As immediate climate protection measures, clear industry standards for recyclates combined with minimum quotas on the use of recycled raw materials in products and packaging are also urgently necessary. Last but not least, the state sector is also called upon to prioritise resource protection in the area of procurement. Sustainable procurement can ultimately provide a significant boost to the circular economy”.

Plastics, metals, waste electrical (and electronic) equipment, wood, paper, cardboard, cartons or glass: the Fraunhofer UMSICHT has now been researching the specific benefits of recycling for 14 years. Detailed comparisons have also been made of the primary processes and recycling processes for the various material flows. “This means we can precisely quantify the extent to which the recycling activities of the ALBA Group can contribute to reducing the burden on the environment,” explains Dr.-Ing. Markus Hiebel, Director of the Department for Sustainability and Participation at Fraunhofer UMSICHT. Hiebel believes that the greatest savings can be achieved if the entire value chain is aligned consistently with the circular principle: “The transformation towards a genuine circular economy requires completely new thinking. Products should be designed and managed to ensure that they contain recycled raw materials right from the start – which enables them to be recycled appropriately.”

Source:

Fraunhofer-Institut für Umwelt-, Sicherheits- und Energietechnik UMSICHT

 

RadiciGroup: Producing apparel from waste oil (c) RadiciGroup
30.09.2021

RadiciGroup: Producing apparel from waste oil

RadiciGroup demonstrates the feasibility of industrial-scale production of polyamides (nylon) starting from bio adipic acid obtained from renewable raw materials, including waste oil and by-products of the oil industry. Potential application sectors for the process and products are textile/fashion, automotive, design, electrical and electronics.

The research was conducted through the Ulysses project and experimentation was performed in collaboration with research centres and universities. Partial funding was received from the Region of Piedmont, within the scope of the “Call for Proposals IR2 (Industrialization of research results)”. The ambitious, innovative multiyear project was launched in March 2018 and stemmed from RadiciGroup's desire to increase the sustainability of its products, whilst delivering the same quality and performance as required by product standards. What is more, the Group wanted to meet the demand coming from its various strategic sectors, in line with the European targets for the development of low-emission businesses and a circular economy.

RadiciGroup demonstrates the feasibility of industrial-scale production of polyamides (nylon) starting from bio adipic acid obtained from renewable raw materials, including waste oil and by-products of the oil industry. Potential application sectors for the process and products are textile/fashion, automotive, design, electrical and electronics.

The research was conducted through the Ulysses project and experimentation was performed in collaboration with research centres and universities. Partial funding was received from the Region of Piedmont, within the scope of the “Call for Proposals IR2 (Industrialization of research results)”. The ambitious, innovative multiyear project was launched in March 2018 and stemmed from RadiciGroup's desire to increase the sustainability of its products, whilst delivering the same quality and performance as required by product standards. What is more, the Group wanted to meet the demand coming from its various strategic sectors, in line with the European targets for the development of low-emission businesses and a circular economy.

Source:

RadiciGroup

(c) ROICA™ by Asahi Kasei
20.09.2021

Bemberg™ and ROICA™ by Asahi Kasei will showcase at Filo

ROICA™ by Asahi Kasei, specialized in sustainable premium stretch fibers, and Bemberg™, a fiber made from the smart-tech transformation of cotton linters pre-consumer materials and converted through a traceable and transparent closed loop process, have been invited to showcase at Filo, the international fair of orthogonal weaving yarns for clothing and furnishings, circular knitwear and technical textiles from the 29-30th of September.

ROICA™ will show its main innovations and four key pieces of the modern and sustainable contemporary wardrobe able to enhance the versatility of the fibers, applied to fashion, sportswear, legwear and underwear.
The brand will also be the protagonist of “The contemporary consumer: Stretch your imagination with ROICA™ by Asahi Kasei smart innovation” speech on September 30th, 11am, organized by the fair to tell its sustainable story.

ROICA™ by Asahi Kasei, specialized in sustainable premium stretch fibers, and Bemberg™, a fiber made from the smart-tech transformation of cotton linters pre-consumer materials and converted through a traceable and transparent closed loop process, have been invited to showcase at Filo, the international fair of orthogonal weaving yarns for clothing and furnishings, circular knitwear and technical textiles from the 29-30th of September.

ROICA™ will show its main innovations and four key pieces of the modern and sustainable contemporary wardrobe able to enhance the versatility of the fibers, applied to fashion, sportswear, legwear and underwear.
The brand will also be the protagonist of “The contemporary consumer: Stretch your imagination with ROICA™ by Asahi Kasei smart innovation” speech on September 30th, 11am, organized by the fair to tell its sustainable story.

Bemberg™ will be at Filo showing some selected fabric innovation, and three responsible-driven designers representing different and complementary part of contemporary consumer wardrobe: ZEROBARRACENTO, Maurizio Miri and WAXEWUL.
Bemberg™ will be also involved in two speeches – entitled “Il viaggio di Bemberg™ by Asahi Kasei verso una moda contemporanea, premium e responsabile” - organized by the fair (Sept. 29th and 30th at 4pm), where it will share its story made of creation, production and process, as well as product performance, aspects related to sustainability and circular economy approach.

Source:

Asahi Kasei / GB Network / C.L.A.S.S.

Starlinger recoSTAR universal 165 H-VAC iV+ (c) Starlinger & Co Gesellschaft m.b.H.
15.09.2021

Recycled polyester filament yarn made in Turkey

Korteks, one of the world’s biggest yarn producers based in Bursa, Turkey, has started the production of recycled polyester filament yarn in its production facility using a Starlinger recycling line.

With the new recycling facility, which comprises a total closed area of 17,000 m² and has a monthly production capacity of 600 tons, Korteks was able to reduce the production waste at its virgin PES yarn site to zero.

The Starlinger recoSTAR universal 165 H-VAC iV+, which is part of Korteks’ 10 million dollars investment in a new polymer recycling facility, took up operation in May 2021. It has a production capacity of 7,200 tons per year and currently processes clean in-house polyester fibers from production scrap together with washed post-consumer PET flakes at a ratio of 50/50. Korteks uses the polyester regranulate at a share of 100 % for its new polyester filament yarn line it is going to market under the name “TAÇ Reborn”. With this investment, the company has made an important step towards establishing a circular economy in the Turkish textile industry.

Korteks, one of the world’s biggest yarn producers based in Bursa, Turkey, has started the production of recycled polyester filament yarn in its production facility using a Starlinger recycling line.

With the new recycling facility, which comprises a total closed area of 17,000 m² and has a monthly production capacity of 600 tons, Korteks was able to reduce the production waste at its virgin PES yarn site to zero.

The Starlinger recoSTAR universal 165 H-VAC iV+, which is part of Korteks’ 10 million dollars investment in a new polymer recycling facility, took up operation in May 2021. It has a production capacity of 7,200 tons per year and currently processes clean in-house polyester fibers from production scrap together with washed post-consumer PET flakes at a ratio of 50/50. Korteks uses the polyester regranulate at a share of 100 % for its new polyester filament yarn line it is going to market under the name “TAÇ Reborn”. With this investment, the company has made an important step towards establishing a circular economy in the Turkish textile industry.

The Starlinger recycling line is the first of its kind in Turkey and is equipped with special components for filament yarn recycling. A RSC (Rapid Sleeve Changer) candle filter developed by Starlinger ensures finest melt filtration down to 15 μm. It has been specially designed for polyester recycling and reaches an output of 1000 kg/h. For continuous operation the filter elements are changed “on the fly” without interrupting production, which significantly limits melt loss.

The viscoSTAR SSP unit at the end of the recycling process guarantees consistent IV increase according to the first-in-first-out principle. This makes sure that the produced regranulate has the ideal properties required for filament yarn production. The technical configuration of the line does not only allow the processing of a polyester fiber/PET flake mix as input materials, but also 100 % polyester filament scrap or 100 % PET bottle flakes.

Korteks expects the recycling market in general to grow as there is increased acceptance for recycled products in the society, and predicts the need for recycling solutions also for other synthetic and natural fibers.

Source:

Starlinger & Co Gesellschaft m.b.H.

Bemberg™ by Asahi Kasei at Filo to unveil its smart DNA story that meet contemporary consumer needs (c) Bemberg™
Waxewul proposal using Bemberg™.
15.09.2021

Bemberg™ by Asahi Kasei at Filo to unveil its smart DNA story that meet contemporary consumer needs

  • FILO, 29th-30th September 2021, booth C5

Bemberg™ by Asahi Kasei has been invited to showcase at Filo fair, the international exhibition of orthogonal weaving yarns for clothing and furnishings, circular knitwear and technical textiles, in a new special area, a dedicated open space reserved to sustainable fibers that will allow visitors to discover all their production cycle and performances, in full relax and transparency.

Bemberg™, an exceptional fiber made from the smart-tech transformation of cotton linters pre-consumer materials and converted through a traceable and transparent closed loop process, will brings to Filo its history, experience, know-how and market partnerships to prove its versatility and design-driven look and touch Last but not least we are talking about a true circular economy-oriented ingredient, with certified sustainable performance: Bemberg™ is biodegradable and compostable material as verified by the INNOVHUB 3rd party test and it has GRS (Global Reycled Standard) certification from Textile Exchange proving recycling authenticity.

  • FILO, 29th-30th September 2021, booth C5

Bemberg™ by Asahi Kasei has been invited to showcase at Filo fair, the international exhibition of orthogonal weaving yarns for clothing and furnishings, circular knitwear and technical textiles, in a new special area, a dedicated open space reserved to sustainable fibers that will allow visitors to discover all their production cycle and performances, in full relax and transparency.

Bemberg™, an exceptional fiber made from the smart-tech transformation of cotton linters pre-consumer materials and converted through a traceable and transparent closed loop process, will brings to Filo its history, experience, know-how and market partnerships to prove its versatility and design-driven look and touch Last but not least we are talking about a true circular economy-oriented ingredient, with certified sustainable performance: Bemberg™ is biodegradable and compostable material as verified by the INNOVHUB 3rd party test and it has GRS (Global Reycled Standard) certification from Textile Exchange proving recycling authenticity.

Bemberg™ application history starts with high-quality suit lining, but today we can find it in many other applications such as fashion couture, outerwear, innerwear, bedding, and sportswear where its amazing unique touch and quality is offering a distinctive performance.

And to prove all of this, Bemberg™ will be at Filo showing some selected fabric innovation, and three responsible-driven designers representing different and complementary part of contemporary consumer wardrobe: ZEROBARRACENTO, Maurizio Miri and WAXEWUL - who have all chosen Bemberg™ fiber to create special collections. Three different ways to see and represent how sustainability and style – even if completely different ones – together can be highly successful, performing and interesting to the new consumer.

ZEROBARRACENTO, a gender-neutral emerging outerwear brand focusing on zero-waste product development, selects Bemberg™ for two fundamental reasons: firstly, from a stylistic point of view for its extreme versatility: in the various collections we have adopted it to create Kimonos, padded jackets, wrap dresses as well as for the interiors of our garments, which are intended to be soft embraces for total physical and mental comfort. The second but no less important reason is that this fibre has circular values in line with their zero-waste commitment.

The concept of the brand "Maurizio Miri" has a strong personality and a clear intent: to create a product that stimulates the wearer towards beauty. A garment should not simply be worn, but it has also to create a perfect symbiosis with the person wearing it and generate an exchange of positive energies. The purpose is to make the individual feel in perfect harmony with their own image. With this aim in mind, the designer selects extremely precious Bemberg™ linings for their sophisticated tailor jackets. 

Finally, WAXEWUL, a brand of sartorial clothing and artisan accessories with an urban-afro soul that has environmental and social sustainability as its basic ethics. WAXEWUL will bring to Filo its brand-new product, the J_Hood Bag: a doubleface jacket with a comfortably removable hood that can be transformed into a finely hidden doubleface bag. An exclusive, innovative and sustainable garment with minimal impact on the environment made of BemBAZIN™ - a new generation of bazin created, patented and produced by Brunello which is composed by the high-tech and responsible fibers of Bemberg™ - on one side and of wax on the other, traceable and certified, guaranteeing a reduction in waste (two jackets in one) and a long-life cycle.

(c) Isko
06.09.2021

ISKO and MoRe Research: New possibilities for cellulose-based materials

As one of the driving forces helping to create a fully circular fashion industry, ISKO has partnered with Swedish research and development company MoRe Research, a part of RISE Research Institutes of Sweden, to investigate and develop new, sustainable technologies made from cellulosic-based materials, derived from waste textiles, for the company’s 25,000+ range of products. It is hoped that this research will also help make the production of cellulose-based materials more sustainable.

The work with MoRe Research feeds into ISKO’s Responsible Innovation™ strategy and will link with various sustainability projects the company is working on. For example, ISKO recently signed an agreement with HKRITA to license its Green Machine – a unique technology that fully separates and recycles cotton and polyester blends at scale.

As one of the driving forces helping to create a fully circular fashion industry, ISKO has partnered with Swedish research and development company MoRe Research, a part of RISE Research Institutes of Sweden, to investigate and develop new, sustainable technologies made from cellulosic-based materials, derived from waste textiles, for the company’s 25,000+ range of products. It is hoped that this research will also help make the production of cellulose-based materials more sustainable.

The work with MoRe Research feeds into ISKO’s Responsible Innovation™ strategy and will link with various sustainability projects the company is working on. For example, ISKO recently signed an agreement with HKRITA to license its Green Machine – a unique technology that fully separates and recycles cotton and polyester blends at scale.

ISKO will leverage MoRe Research!s expertise and resources to find ways of repurposing the clean and toxic-free cellulose powders that are created from the decomposed cotton, as well as the recycled polyester and reintegrate this back into fabric production. By using all of the outputs from the recycling of textiles back into textiles, the prospect of a closed-loop system becomes more feasible.

The investment in this new technology is the latest in ISKO’s ongoing drive for advancements in sustainability. As part of the company’s R-TWO™ program ISKO is also working to develop fabrics with a guaranteed minimum +50% GRS (Global Recycle Standard) recycled content blend. This will significantly reduce the carbon and water footprint of a fabric, as well as make it easy to trace a garment’s sustainable journey step-by-step from the beginning of the supply chain through to the end product.

Source:

menabo for Osko

31.08.2021

DSM and SABIC: Creating recycled-based Dyneema®

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, and SABIC, a global leader in the chemical industry, announced a collaboration to create recycled-based Dyneema®. Through a joint pilot with multiple CirculariTeam® members, the manufacturing and usage of Dyneema® using mixed plastic waste as feedstock (via mass balance approach) will be successfully demonstrated. It is an important step toward the future goal of fully closing the loop by delivering Dyneema® made from ultra-high molecular weight polyethylene (UHMwPE) waste. This collaboration underlines DSM’s and SABIC’s efforts to accelerate a circular economy for materials.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, and SABIC, a global leader in the chemical industry, announced a collaboration to create recycled-based Dyneema®. Through a joint pilot with multiple CirculariTeam® members, the manufacturing and usage of Dyneema® using mixed plastic waste as feedstock (via mass balance approach) will be successfully demonstrated. It is an important step toward the future goal of fully closing the loop by delivering Dyneema® made from ultra-high molecular weight polyethylene (UHMwPE) waste. This collaboration underlines DSM’s and SABIC’s efforts to accelerate a circular economy for materials.

By working together with members of CirculariTeam®, DSM will produce recycled-based Dyneema® made using SABIC’s certified circular ethylene as a pilot project in both a sailing rope and a pelagic trawl net application. The circular ethylene, from SABIC’s TRUCIRCLE™ portfolio, uses mixed plastic waste as feedstock (mass balance approach), which not only contributes to preventing valuable plastic from becoming waste and the avoidance of carbon emissions compared to incineration, but it will also help preserve fossil resources. These pilots are an important early-stage milestone in the journey toward making fully circular Dyneema® from HMPE post-production and post-consumer waste.

Jon Mitchell, Managing Director at Marlow Ropes: “We’re proud to be one of the first manufacturers to integrate recycled-based Dyneema® within our products and demonstrate the material’s feasibility. By collaborating with materials science pioneers such as DSM and SABIC, we are able to create products that not only deliver superlative functional performance but also have a lower environmental impact. Our products are trialed and tested by professional offshore sailing teams including 11th Hour Racing Team, a proud partner of ours at Marlow, with whom we share a progressive approach to seeking sustainable solutions: no more business as usual."

Klaus Walther, Managing Director at Gleistein: “Warm congratulations to DSM and SABIC for pushing the boundaries of science to deliver a truly unique product. We’re proud that our ropes can be produced from what once was typical household plastic waste. This is an important stepping stone towards becoming circular. It will enable our customer Maritiem BV to further develop high-tech fishing gear whilst contributing to the circular economy. Not to forget Cornelis Vrolijk Fishing Company, who again illustrate their commitment to Corporate Social Responsibility by introducing this concept in fishery.”

More information:
DSM Dyneema SABIC plastic waste
Source:

EMG for DSM

30.08.2021

The Renewable Carbon Initiative RCI is joining forces

  • From fossil to renewable materials: Members advocate policy analysis and focused implementation of the renewable carbon strategy

The members of the Renewable Carbon Initiative (RCI) (www.renewable-carbon-initiative.com), founded in September 2020, have joined forces to shape the transition from the fossil to the renewable age for the chemical and materials industry. This means spreading the concept of renewable carbon and developing new value chains based on renewable carbon as a feedstock.

In the meantime, several activities have started from which future members can benefit as well. First and foremost is the kick-off to comprehensive policy analysis. What influence will forthcoming regulation have on chemicals, plastics, and other materials? When and where should the renewable carbon idea be emphasized and referred to?

The policy analysis will examine pending policies in the European Union – and a later expansion to America and Asia is planned as well.

  • From fossil to renewable materials: Members advocate policy analysis and focused implementation of the renewable carbon strategy

The members of the Renewable Carbon Initiative (RCI) (www.renewable-carbon-initiative.com), founded in September 2020, have joined forces to shape the transition from the fossil to the renewable age for the chemical and materials industry. This means spreading the concept of renewable carbon and developing new value chains based on renewable carbon as a feedstock.

In the meantime, several activities have started from which future members can benefit as well. First and foremost is the kick-off to comprehensive policy analysis. What influence will forthcoming regulation have on chemicals, plastics, and other materials? When and where should the renewable carbon idea be emphasized and referred to?

The policy analysis will examine pending policies in the European Union – and a later expansion to America and Asia is planned as well.

A particular focus will be placed on upcoming policies and regulations and how they impact renewable carbon. The members are currently deciding on where to start specifically, but questions that may be considered are: What does the new climate law and the “Fit for 55-Package” mean for chemicals and materials? What can be expected from REACH and microplastics restrictions? How relevant is the “Sustainable Products Initiative” and the coming restrictions for Green Claims? Circular Economy, Zero Pollution and Sustainable Financing are keywords of the future European landscapes, which might become very concrete for chemistry and materials in the next few years. To what extent the concept of renewable carbon for materials is considered in policy already and how it could be further introduced in future legislation are two of the main questions investigated in the working group “Policy”.

This working group is open to all members of RCI. Policy experts provide the respective analysis as a foundation, organising discussions between members of the policy group and plan meetings with policymakers to introduce the Renewable Carbon concept.

Additional working groups have been created, one with a focus on communication, the other looking at the development of a renewable carbon label. In early September, a renewable carbon community will be launched as a starting point for even more interaction between the members, to discuss strategies, create new value chains and start project consortia.

The Renewable Carbon Initiative (RCI) is a dynamic and ambitious group of interested parties. Membership numbers have now more than doubled since the launch almost a year ago, with RCI now boasting 25 members, 6 partners and over 200 supporters. It welcomes all companies that are on the way to transform their resource base from fossil to renewable.

More information:
Renewable Carbon Initiative
Source:

nova-Institut für politische und ökologische Innovation GmbH für RCI

Graphical material: Borealis
26.08.2021

Drinking cups using chemically recycled polypropylene

Swiss dairy company Emmi is partnering with Borealis and Greiner Packaging to produce iced coffed drinking cups using chemically recycled polypropylene.

The cups are produced by Greiner Packaging and the chemically recycled material comes from Borealis, one of the world’s leading providers of advanced and circular polyolefin solutions based in Vienna, Austria.

Emmi, Switzerland’s largest milk processor is committed to climate protection and the circular economy. The dairy company has the stated goal to make all of its packaging 100% recyclable and is committed to various measures to promote circularity such as packaging that contains at least 30% recyclate by 2027.

Swiss dairy company Emmi is partnering with Borealis and Greiner Packaging to produce iced coffed drinking cups using chemically recycled polypropylene.

The cups are produced by Greiner Packaging and the chemically recycled material comes from Borealis, one of the world’s leading providers of advanced and circular polyolefin solutions based in Vienna, Austria.

Emmi, Switzerland’s largest milk processor is committed to climate protection and the circular economy. The dairy company has the stated goal to make all of its packaging 100% recyclable and is committed to various measures to promote circularity such as packaging that contains at least 30% recyclate by 2027.

From September 2021 Emmi will use at least 100 tonnes of plastic based on the recycled material each year. Chemical recycling renews plastic back to plastic creating recycled materials with a level of purity equivalent to fossil-fuel based PP and hence, fit for protective, food-safe and other demanding applications. In this way, Emmi is utilizing difficult to recycle feedstock preventing plastic waste that would be likely landfilled or incinerated. In the future, depending on the availability of suitable material, the amount of recycled plastic in packaging is to be further increased.

The new technology to recover the polypropylene is currently still in its infancy, where Greiner Packaging and Borealis are leading the way. Only limited quantities of chemically recycled polypropylene are currently available, and Emmi is one of only a few food manufacturers to have secured a share of the chemically recycled polypropylene plastic through its early commitment and long-standing collaboration with the development companies.

The chemically recycled material used for the cups consists entirely and solely of ISCC (International Sustainability & Carbon Certification) material, on a mass balance basis. Mass balance is a methodology that makes it possible to track the amount and sustainability characteristics of circular and/or bio-based content in the value chain and through each step of the process. This provides transparency ultimately also to the consumers, enabling them to know that the product they are buying is based on this renewable material.

More information:
Polypropylen Borealis
Source:

Borealis

26.08.2021

Kelheim Fibres at Dornbirn GFC WEBINAR WEEK

  • Circular economy at Kelheim Fibres: Examples of innovation from raw material, product design and all the way to “end of life”

Kelheim Fibres, the world's first viscose fibre manufacturer with an EMAS-certified environmental management system, is continuously working on optimising its special fibres. These can be functionalised as needed - in many cases to save further processing steps (such as dyeing or coating) and thus energy, water and chemicals - and are completely biodegradable at the end of their product life in a short time (according to OECD Test 301 B).

Currently, the specialists in Kelheim are working on the development of alternative raw materials for the production of viscose fibres, such as recycled cellulose as well as other cellulose-containing starting materials. One approach to closing the product cycle in the textile sector is the use of pulp produced from recycled post-consumer waste materials.

  • Circular economy at Kelheim Fibres: Examples of innovation from raw material, product design and all the way to “end of life”

Kelheim Fibres, the world's first viscose fibre manufacturer with an EMAS-certified environmental management system, is continuously working on optimising its special fibres. These can be functionalised as needed - in many cases to save further processing steps (such as dyeing or coating) and thus energy, water and chemicals - and are completely biodegradable at the end of their product life in a short time (according to OECD Test 301 B).

Currently, the specialists in Kelheim are working on the development of alternative raw materials for the production of viscose fibres, such as recycled cellulose as well as other cellulose-containing starting materials. One approach to closing the product cycle in the textile sector is the use of pulp produced from recycled post-consumer waste materials.

In production, Kelheim Fibres focuses on resource conservation by minimising emissions and waste through closed-loop recovery systems, as well as through highly efficient energy generation and the corresponding operation of the plants.

Dr. Roland Scholz, Project Manager Fibre and Application Development at Kelheim Fibres, will present details of this on Wednesday, 15 September, at 5.50 p.m., in Hall B of the 60th Dornbirn GFC WEBINAR WEEK.


Translated with www.DeepL.com/Translator (free version)

Source:

Kelheim Fibres

(c) Andritz AG
02.08.2021

ANDRITZ to supply textile recycling line to Renaissance Textile (F)

International technology Group ANDRITZ has received an order from Renaissance Textile to deliver a recycling line for their first recycling platform, located in Laval, France. Start-up of the recycling line from ANDRITZ Laroche is scheduled for the end of Q2 2022.

First of all, postconsumer waste fibers will be opened, then mixed with virgin fibers and spun once again in order to ultimately produce new textiles. The specific design of this line is the outcome of close collaboration between experts from ANDRITZ Laroche and the customer, with customized trials being conducted at the ANDRITZ technical center in Cours, France.

Renaissance Textile’s target is to become the first French recycling platform dedicated to end-of-life
textiles, and the company will soon open the new 12,000 sqm plant.

International technology Group ANDRITZ has received an order from Renaissance Textile to deliver a recycling line for their first recycling platform, located in Laval, France. Start-up of the recycling line from ANDRITZ Laroche is scheduled for the end of Q2 2022.

First of all, postconsumer waste fibers will be opened, then mixed with virgin fibers and spun once again in order to ultimately produce new textiles. The specific design of this line is the outcome of close collaboration between experts from ANDRITZ Laroche and the customer, with customized trials being conducted at the ANDRITZ technical center in Cours, France.

Renaissance Textile’s target is to become the first French recycling platform dedicated to end-of-life
textiles, and the company will soon open the new 12,000 sqm plant.

More information:
Andritz Andritz AG circular economy
Source:

Andritz AG

22.07.2021

ISKO joins the Ellen MacArthur Foundation’s Jeans Redesign project

ISKO, a global, leading premium denim ingredient brand, announced its participation in The Jeans Redesign – a project, established by the Ellen MacArthur Foundation’s Make Fashion Circular initiative, to encourage and guide the denim industry to transform the way jeans are made and move towards a circular economy for fashion.

ISKO meets the requirements for participation set by The Jeans Redesign guidelines and has made a commitment that 85% of its entire fabric production will consist of recycled material content made from pre-consumer and post-consumer recycled materials. This production will be independently verified by Textile Exchange audit bodies.

ISKO, a global, leading premium denim ingredient brand, announced its participation in The Jeans Redesign – a project, established by the Ellen MacArthur Foundation’s Make Fashion Circular initiative, to encourage and guide the denim industry to transform the way jeans are made and move towards a circular economy for fashion.

ISKO meets the requirements for participation set by The Jeans Redesign guidelines and has made a commitment that 85% of its entire fabric production will consist of recycled material content made from pre-consumer and post-consumer recycled materials. This production will be independently verified by Textile Exchange audit bodies.

This achievement is made possible using ISKO’s R-TWO™ technology which is created through a patented and exclusive yarn spinning technique that retains the unique properties and benefits found in ISKO’s statement fabrics. ISKO’s R-TWO™ is the embodiment of its Responsible Innovation™ mindset and aligns with the principles of a circular economy espoused by the Ellen MacArthur Foundation – to ensure durability, material health, recyclability and traceability. R-TWO™ positions ISKO as a sustainability leader and enables it to exceed the project guidelines to create denim that is designed to be used more, made to be made again and made from safe and recycled or renewable inputs.

More information:
Isko
Source:

menabo for ISKO

Photo: norda: DSMPMPR010
14.07.2021

norda™: Flagship product with DSM’s bio-based Dyneema® fiber

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, confirmed the introduction of the first seamless trail running shoe made with bio-based Dyneema® fiber by norda™, a Canadian shoe brand.

Designed for runners by runners, norda™ was founded under the mission to empower athletes to unlock their peak potential through innovation and cutting-edge technology. The brand’s flagship product, norda™001, utilizes bio-based Dyneema® fiber to enhance performance and sustainability in a lightweight construction.

The shoe upper is seamlessly constructed with Dyneema® fabric, which benefits from the intrinsic properties of Dyneema®, the world’s strongest fiber™. Dyneema® fiber is engineered at the molecular level to provide high strength, low weight, waterproof and breathable properties – fusing the technical performance of ultra-light materials with aesthetic design that does not sacrifice strength or durability.

Royal DSM, a global science-based company in Nutrition, Health and Sustainable Living, confirmed the introduction of the first seamless trail running shoe made with bio-based Dyneema® fiber by norda™, a Canadian shoe brand.

Designed for runners by runners, norda™ was founded under the mission to empower athletes to unlock their peak potential through innovation and cutting-edge technology. The brand’s flagship product, norda™001, utilizes bio-based Dyneema® fiber to enhance performance and sustainability in a lightweight construction.

The shoe upper is seamlessly constructed with Dyneema® fabric, which benefits from the intrinsic properties of Dyneema®, the world’s strongest fiber™. Dyneema® fiber is engineered at the molecular level to provide high strength, low weight, waterproof and breathable properties – fusing the technical performance of ultra-light materials with aesthetic design that does not sacrifice strength or durability.

In addition to the increased foot stability and wearer comfort of the upper, Dyneema® fibers are also used to increase abrasion resistance and stretch in the shoe laces – providing four times the level of strength when compared to standard lace materials like nylon and polyester.

“When we set out to create the norda™ 001, our mission was to design an ultra-strong and durable high performance trail running shoe, and do it as sustainably as possible,” states Willamina and Nick Martire, Co-Founders, norda™. “To achieve our goal, we had to look outside of the standard materials used by the footwear industry. We realized the properties of bio-based Dyneema® beat everything available today.”

In line with DSM’s commitment to protect people and the environment they live in, bio-based Dyneema® boasts the same exact performance as conventional Dyneema® with a carbon footprint that is 90 percent lower than generic HMPE. Sourced from renewable, bio-based feedstock, DSM’s latest advancement in fiber technology uses the mass balance approach to further reduce the reliance on fossil fuel based resources, while still contributing to a more circular economy.

Source:

EMG for DSM

Borealis: Innovative Recycling Solutions with Renasci N.V. (c) Renasci
01.07.2021

Borealis: Innovative Recycling Solutions with Renasci N.V.

  • Borealis deepens partnership with innovative recycling solutions provider Renasci N.V., acquiring a 10% minority stake in the Belgium-based creator of the Smart Chain Processing (SCP) concept
  • Deal supports Borealis integrated approach to achieve a true circular economy of plastics in the most eco-efficient way, as defined by its circular cascade model
  • EverMinds™ in action: Game-changing collaboration to accelerate plastics circularity

Borealis announces that it has entered into a multi-dimensional partnership with Renasci N.V., a provider of innovative recycling solutions and creator of the novel Smart Chain Processing (SCP) concept. The partnership is another key enabler for Borealis to realise its ambitions to bring circular base chemicals and polyolefins to market, and to deliver on its promise to bring 350 kilotons of recycled polyolefins into circulation by 2025.

  • Borealis deepens partnership with innovative recycling solutions provider Renasci N.V., acquiring a 10% minority stake in the Belgium-based creator of the Smart Chain Processing (SCP) concept
  • Deal supports Borealis integrated approach to achieve a true circular economy of plastics in the most eco-efficient way, as defined by its circular cascade model
  • EverMinds™ in action: Game-changing collaboration to accelerate plastics circularity

Borealis announces that it has entered into a multi-dimensional partnership with Renasci N.V., a provider of innovative recycling solutions and creator of the novel Smart Chain Processing (SCP) concept. The partnership is another key enabler for Borealis to realise its ambitions to bring circular base chemicals and polyolefins to market, and to deliver on its promise to bring 350 kilotons of recycled polyolefins into circulation by 2025.

SCP concept leaves no waste behind
The SCP concept developed by Renasci is a proprietary method of maximising material recovery in order to achieve zero waste. It is unique because it enables the processing of multiple waste streams using different recycling technologies – all under one roof. At the newly-built Renasci SCP facility in Oostende, Belgium, mixed waste – plastics, metals, and biomass – is automatically selected and sorted multiple times.

After sorting, plastic waste is first mechanically recycled, and then in a second step any remaining material is chemically recycled into circular pyrolysis oil and lighter product fractions, which are used to fuel the process.

Other types of sorted waste such as metals and organic refuse are further processed using other technologies. In the end, only 5% of the original waste remains, and even this residual material is not landfilled, but used as filler in construction materials. Because of this extremely efficient way of processing, the overall CO2 footprint of these waste streams is greatly reduced – yet another advantage of the circular SCP concept.

The cascade model is Borealis’ integrated circular approach
Borealis circular cascade model sits at the heart of its ambition to achieve a truly circular economy, by combining carefully chosen technologies in a complementary and cascading way to achieve full circularity. In this way, Borealis aims to give plastic products multiple lifetimes in the most sustainable way possible. Starting with optimising product design, first for eco-efficiency, then for re-use and finally for recycling. Once a product has reached its end of life, we must close the plastics loop: first with mechanical recycling to make products with the highest possible value, quality and lowest carbon footprint; then utilising chemical recycling, as a complement to mechanical recycling, to further valorise residual streams which would otherwise go to incineration, or even worse to landfills. The valorised material from mechanical and chemical recycling is then processed with Borealis Borcycle™ recycling technology consisting of Borcycle M for mechanical recycling and Borcycle C for chemical recycling, providing high quality solutions for more sophisticated applications, such as food packaging and healthcare.

The SCP concept is aligned to Borealis’ ambition to close the loop on plastic waste as encapsulated in its circular cascade model.

Source:

Borealis

Lenzing supports school competition on circular economy and climate protection (c) Lenzing
VCÖ BRG SolarCity Linz Gruppenfoto
22.06.2021

Lenzing supports school competition on circular economy and climate protection

  • Excellent project to encourage ingenuity among young students
  • Experiment on biodegradability of textiles and nonwovens produces impressive results
  • EUR 30,000 in prize money for a total of 209 participating schools in and outside Austria
  • Lenzing views supporting these kinds of projects as part of its sustainability mission

Lenzing – The Association of Chemistry Teachers in Austria – known by its German abbreviation, VCÖ – has been holding project competitions that thrill students and take them beyond the traditional syllabus for 30 years. Every two years, it highlights a key topic for ninth- and tenth-graders to explore by conducting special experiments and learning from their observations and conclusions.

  • Excellent project to encourage ingenuity among young students
  • Experiment on biodegradability of textiles and nonwovens produces impressive results
  • EUR 30,000 in prize money for a total of 209 participating schools in and outside Austria
  • Lenzing views supporting these kinds of projects as part of its sustainability mission

Lenzing – The Association of Chemistry Teachers in Austria – known by its German abbreviation, VCÖ – has been holding project competitions that thrill students and take them beyond the traditional syllabus for 30 years. Every two years, it highlights a key topic for ninth- and tenth-graders to explore by conducting special experiments and learning from their observations and conclusions.

This year, the 16th installment of the competition is called, “Achieving a cleaner climate and a circular economy with chemistry”. These topics are also near and dear to the heart of globally active fiber manufacturer Lenzing. That’s why the company promptly announced that it was prepared to support this project competition in several different ways. First, Lenzing made a contribution toward the sponsorship fund totaling EUR 30,000. Second, it initiated a special prize on biodegradability – a topic of growing importance given the huge challenges involved in reducing plastic waste. Finally, Lenzing placed a recognized expert at the students’ disposal to provide assistance and answer questions: Michaela Kogler, Project Manager Nonwovens & Technical Products.

Teaming up with rainworms

Two teams were tasked with biodegrading different fibers – just like those used to produce textiles and nonwovens – with the active participation of worms. Students at BRG solarCity in Linz buried fiber nonwovens, a basic material used in wet wipes and other products, in soil that was populated with numerous rainworms, while students at Vöcklabruck Junior High School for Sports and Integration layered textiles into a vermicomposting bin. Both experiments intended to determine the extent to which certain materials would biodegrade quickly. As it turned out, both projects showed that wood-based fibers, like those that Lenzing manufactures for the textile and nonwoven industry, break down very rapidly into natural constituents that swiftly pass into the soil. In contrast, fossil-based plastics such as polyester or polyethylene cannot be decomposed by worms or bacteria but remain in the soil, sometimes for hundreds of years.

The prizes for this year’s competition were awarded on June 11. The competition attracted entries from no fewer than 209 schools, including 11 from outside Austria. For more information on the projects and the winners, visit www.vcoe.or.at.