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10.10.2023

VDI ZRE: Studie zu rezyklatbasierten Verpackungen veröffentlicht

Bis 2030 sollen in der EU 55 % der Kunststoffverpackungen werterhaltend recycelt werden. Inwieweit sich Rezyklate dabei für die Herstellung hochwertiger Verpackungsprodukte eignen und wann die Umstellung auf Recyclingkunststoffe für KMU wirtschaftlich sinnvoll ist, darüber informiert das VDI Zentrum Ressourceneffizienz im Rahmen einer neuen Studie.

Die Verwendung von Kunststoffen geht mit hohen Aufwänden an Primärressourcen bei der Werkstoffherstellung einher. Kunststoffrecycling stellt daher einen Schwerpunkt der politischen und regulatorischen Bestrebungen dar, um eine weitgehende stoffliche Verwertung von Kunststoffabfällen bis 2030 zu etablieren.
 
Um die Wiedereinsatzquote recycelter Kunststoffabfälle im Verpackungssektor zu erhöhen und Kunststoffkreisläufe nachhaltig zu schließen, braucht es Rezyklate, die u. a. mit Blick auf die gebotene Qualität eine möglichst geringe Schwankungsbreite aufweisen. Zugleich müssen die Preise für Rezyklate konkurrenzfähig gegenüber sogenannten virgin plastics (Kunststoffneuware) sein.

Bis 2030 sollen in der EU 55 % der Kunststoffverpackungen werterhaltend recycelt werden. Inwieweit sich Rezyklate dabei für die Herstellung hochwertiger Verpackungsprodukte eignen und wann die Umstellung auf Recyclingkunststoffe für KMU wirtschaftlich sinnvoll ist, darüber informiert das VDI Zentrum Ressourceneffizienz im Rahmen einer neuen Studie.

Die Verwendung von Kunststoffen geht mit hohen Aufwänden an Primärressourcen bei der Werkstoffherstellung einher. Kunststoffrecycling stellt daher einen Schwerpunkt der politischen und regulatorischen Bestrebungen dar, um eine weitgehende stoffliche Verwertung von Kunststoffabfällen bis 2030 zu etablieren.
 
Um die Wiedereinsatzquote recycelter Kunststoffabfälle im Verpackungssektor zu erhöhen und Kunststoffkreisläufe nachhaltig zu schließen, braucht es Rezyklate, die u. a. mit Blick auf die gebotene Qualität eine möglichst geringe Schwankungsbreite aufweisen. Zugleich müssen die Preise für Rezyklate konkurrenzfähig gegenüber sogenannten virgin plastics (Kunststoffneuware) sein.

Hier setzt die neue Studie „Ökologische und ökonomische Bewertung des Ressourcenaufwands – Einsatz von rezyklierten Kunststoffen in Verpackungsmaterialien“ des VDI ZRE an. Sie bietet einen praxisrelevanten Überblick zu Aspekten der Nutzung von Kunststoffrezyklaten für die Herstellung hochwertiger Verpackungsprodukte – auch für Anwendungsbereiche mit hohen Anforderungen an Maßhaltigkeit und mechanische Eigenschaften.
 
Ein Beitrag zur Ressourcenschonung und zum Klimaschutz
Die ökologisch-ökonomische Bewertungsstudie, die in Zusammenarbeit mit Forschenden des Öko-Institut e. V. und der Institut cyclos-HTP GmbH ausgearbeitet wurde, richtet sich insbesondere an kleine und mittlere Unternehmen (KMU) der kunststoffverarbeitenden Industrie, die den Einstieg in die Verwendung von Rezyklaten erwägen. Die Studie beinhaltet zum einen eine ökobilanzielle Vergleichsrechnung nach den VDI-Richtlinien 4800 Blatt 1 und 2 sowie eine Sensitivitätsanalyse. Zum anderen liefert sie einen Kostenvergleich für die zwei gegenübergestellten kunststoffbasierten Verpackungsvarianten und gibt Empfehlungen zur Evaluierung.

Aus ökologischer Sicht zeigt sich, dass das Treibhausgaspotenzial des Produkts aus rezykliertem Polypropylen (PP) um 25 % geringer ausfällt als das der Produktvariante aus PP-Neuware. Aus ökonomischer Sicht hat der Einkaufspreis den größten Einfluss an den gesamten spezifischen Betriebskosten. Zum Zeitpunkt der Erhebung beliefen sie sich auf 54 % für die Produktvariante aus recyceltem PP und auf 62 % für das Produkt aus primärem PP.

Die Studie „Ökologische und ökonomische Bewertung des Ressourcenaufwands – Einsatz von rezyklierten Kunststoffen in Verpackungsmaterialien“ des VDI ZRE wurde im Auftrag des Bundesministeriums für Umwelt, Naturschutz, nukleare Sicherheit und Verbraucherschutz (BMUV) erarbeitet und kann kostenfrei heruntergeladen werden.

 

Source:

VDI Zentrum Ressourceneffizienz

Photo from Pixabay
09.10.2023

Otrium and Bleckmann launch garment repair partnership

Digital fashion outlet Otrium announces the launch of a dedicated garment refurbishment and repair programme for damaged returns following a successful pilot scheme. The initiative is being run in partnership with Bleckmann, experts in supply chain management for fashion and lifestyle brands. Working with Bleckmann’s team of circular fashion experts from The Renewal Workshop, Otrium is taking the next step in its strategic journey to help reduce the number of that might ultimately end up in landfills or destroyed.
 
Most of the returns that Otrium currently receives can be easily restored and put back on sale. However, in rare cases, returned items are damaged. “Preventing waste is an important part of Otrium’s DNA, and thanks to our partnership with Bleckmann and their Renewal Workshop team, we can now repair the majority of damaged returns and put them back into circulation,” said Kevin Carolan, Director of Logistics at Otrium. “We are happy that we can use our position in the fashion supply chain to create lasting change and accelerate towards our mission of reducing the volume of garments that go to landfill.”

Digital fashion outlet Otrium announces the launch of a dedicated garment refurbishment and repair programme for damaged returns following a successful pilot scheme. The initiative is being run in partnership with Bleckmann, experts in supply chain management for fashion and lifestyle brands. Working with Bleckmann’s team of circular fashion experts from The Renewal Workshop, Otrium is taking the next step in its strategic journey to help reduce the number of that might ultimately end up in landfills or destroyed.
 
Most of the returns that Otrium currently receives can be easily restored and put back on sale. However, in rare cases, returned items are damaged. “Preventing waste is an important part of Otrium’s DNA, and thanks to our partnership with Bleckmann and their Renewal Workshop team, we can now repair the majority of damaged returns and put them back into circulation,” said Kevin Carolan, Director of Logistics at Otrium. “We are happy that we can use our position in the fashion supply chain to create lasting change and accelerate towards our mission of reducing the volume of garments that go to landfill.”

Since 2020, Otrium is exploring refurbishment and repairs with their third-party logistics provider Bleckmann. In April 2023, both partners started a three-month pilot at Bleckmann’s facility in Almelo, the Netherlands, to expand the programme with a broader range of repairs and optimised processes through data use. During the pilot, the Renewal Workshop team at Bleckmann refurbished more than 1,000 returned garments, shoes and accessories for Otrium each month.

“With hundreds of high-end labels on the platform, we needed an efficient solution tailored to the needs of a wide range of products – from shoes and coats to bags,” explained Marlot Kiveron, Head of Sustainability at Otrium. “The Renewal Workshop team worked closely with us to develop a streamlined and scalable process that could grow in line with our ambitions, delivering like-new repairs at the speed of e-commerce. Their combination of purpose, professionalism, agility and expertise makes them the ideal partner for this kind of project.”
 
Bleckmann’s integrated data capabilities were also crucial to the success of the partnership. “Data collection and analysis can be vital in demonstrating the commercial viability of sustainability initiatives,” said Tamara Zwart, Director of Renewal at Bleckmann. “Using our advanced stock tracking systems, we determined that 70% of the renewed Otrium stock had been sold within seven weeks. We’re all delighted with the results!”
Furthermore, carbon-tracking software Vaayu calculated that on average, a refurbished return sold on Otrium avoids 2.760kg of carbon emissions and 69g of waste proofing that this programme can have a positive impact on both: the planet and the business.

Having established the business case, the team decided to expand the initiative beyond the pilot phase. “This project is a milestone in our sustainability journey,” concluded Marlot. “It’s a key part of our ongoing commitment to finding more ways to reduce our environmental impact while helping to ensure that more clothes get worn. By the end of 2023, we aim to repair at least 25,000 damaged garments. Together with Bleckmann and their renewal experts, we’re well on our way to proving that this circular business model can be a valuable part of our future growth.”

Source:

Otrium, Bleckmann

Freudenberg´s Colback ECO-R and Lutradur ECO-R backings contain a recycled content of between 51 and 90 %. (c) Freudenberg
Freudenberg´s Colback ECO-R and Lutradur ECO-R backings contain a recycled content of between 51 and 90 %.
05.10.2023

Freudenberg extends ECO range for sustainable carpet backings

Freudenberg Performance Materials (Freudenberg) is extending its recently-introduced ECO range of sustainable nonwoven carpet backings: Lutradur ECO-R and Colback ECO-R backings contain high percentages of recycled raw materials. With its ECO portfolio Freudenberg supports carpet manufacturers in their transition towards an increasingly sustainable product offering.

The company launched its ECO range for sustainable primary backings earlier this year with the introduction of the ECO-RE resource-efficient backings that use less raw materials and support end product recyclability. To achieve this, Freudenberg R&D teams further developed the company’s proprietary yarn production technology allowing for extremely thin filaments.

Freudenberg Performance Materials (Freudenberg) is extending its recently-introduced ECO range of sustainable nonwoven carpet backings: Lutradur ECO-R and Colback ECO-R backings contain high percentages of recycled raw materials. With its ECO portfolio Freudenberg supports carpet manufacturers in their transition towards an increasingly sustainable product offering.

The company launched its ECO range for sustainable primary backings earlier this year with the introduction of the ECO-RE resource-efficient backings that use less raw materials and support end product recyclability. To achieve this, Freudenberg R&D teams further developed the company’s proprietary yarn production technology allowing for extremely thin filaments.

ECO-R products
Freudenberg’s spunbond nonwoven primary and secondary carpet backings contribute to manufacturers’ easy and efficient production processes as well as to high-performance end products. The company is now extending its ECO range in Europe with Colback ECO-R and Lutradur ECO-R backings that contain a recycled content of between 51 and 90%. Replacing virgin raw materials with recycled polyester saves on natural resources and improves the carbon footprint of end products. The ECO-R backings are specifically suitable for carpet tiles, broadloom, dust control mats and automotive option mats.

Source:

Freudenberg Performance Materials Holding GmbH

IFM researchers Research Fellow Frank Chen, Research Fellow Marzieh Parhizkar, Research Engineer Amol Patil and Associate Professor Alessandra Sutti. Photo Deakin University
IFM researchers Research Fellow Frank Chen, Research Fellow Marzieh Parhizkar, Research Engineer Amol Patil and Associate Professor Alessandra Sutti.
20.09.2023

Deakin/Xefco: Dyeing jeans without a drop of water

Deakin University has signed a partnership agreement with Geelong-based company Xefco as part of its Recycling and Clean Energy Commercialisation Hub (REACH) to conduct new research to transform how our clothing, including jeans, get their colour.

Jeans are one of the most worn garments in the world, but they are also one of the least environmentally friendly, taking around 75 litres of water to dye just one pair.

Deakin’s work with Xefco is helping to explore if a waterless manufacturing process can replace the water intensive processes the clothing industry has used for hundreds of years. The new technology in development is called ‘Ausora’.

Associate Professor Alessandra Sutti, from Deakin’s Institute for Frontier Materials, said it was exciting to be on the commercialisation journey with Xefco, working with the company to discover what is possible and hopefully reduce the world’s fashion footprint.

“If successful, the Ausora technology, which colours fabrics without the need for large quantities of water, will put us a step closer to more efficient and sustainable clothing manufacturing,” Associate Professor Sutti said.

Deakin University has signed a partnership agreement with Geelong-based company Xefco as part of its Recycling and Clean Energy Commercialisation Hub (REACH) to conduct new research to transform how our clothing, including jeans, get their colour.

Jeans are one of the most worn garments in the world, but they are also one of the least environmentally friendly, taking around 75 litres of water to dye just one pair.

Deakin’s work with Xefco is helping to explore if a waterless manufacturing process can replace the water intensive processes the clothing industry has used for hundreds of years. The new technology in development is called ‘Ausora’.

Associate Professor Alessandra Sutti, from Deakin’s Institute for Frontier Materials, said it was exciting to be on the commercialisation journey with Xefco, working with the company to discover what is possible and hopefully reduce the world’s fashion footprint.

“If successful, the Ausora technology, which colours fabrics without the need for large quantities of water, will put us a step closer to more efficient and sustainable clothing manufacturing,” Associate Professor Sutti said.

Xefco CEO Tom Hussey said the company’s new pilot plant, housed at Deakin in Geelong, will test different materials, including specialised fabrics such as waterproof items like outdoor jackets and jeans.

“This is the first stage of Xefco’s vision for the technology, with the REACH project focused on demonstrating the commercial viability of the technology at pilot scale and developing processes so it can be scaled up for commercial production,” Mr Hussey said.

“Together, Deakin and Xefco will push the limits of innovation and see what is possible.”
Xefco’s pilot plant is co-located with Deakin researchers at ManuFutures, the state-of-the-art advanced manufacturing hub at Deakin’s Waurn Ponds campus.

Founded in 2018 Xefco now employs 17 people and its products are already making a difference across the world. Its XReflex technology, which reduces consumption of insulation materials, is being used by some of the world’s leading apparel and fashion brands including The North Face.

Backed by a $50 million grant from the Australian Government’s inaugural Trailblazer Universities Program, with industry and university support taking the total project value to $380 million, REACH is facilitating the development of greener supply chains and accelerating business success as markets move from a throughput economy to a circular economy.

Source:

Deakin University

04.09.2023

Spinnova reviews strategy: New licensing models

Spinnova has decided to evaluate its existing strategy to prioritise areas that in the short- to medium-term deliver the fastest time to positive cashflow generation and that create the most value for the company’s stakeholders.
 


The company expects to conclude the assessment of its strategy in the coming months, after which the results will be presented in more detail including key actions and any changes to medium- and long-term business targets. Financial guidance for full year 2023 is unchanged.

Spinnova has decided to evaluate its existing strategy to prioritise areas that in the short- to medium-term deliver the fastest time to positive cashflow generation and that create the most value for the company’s stakeholders.
 


The company expects to conclude the assessment of its strategy in the coming months, after which the results will be presented in more detail including key actions and any changes to medium- and long-term business targets. Financial guidance for full year 2023 is unchanged.

Spinnova’s unique sustainable technology is a key differentiator. To recognize the value of its technology offering, the company has decided to review opportunities to expand the licensing of its technology to new customers. In the future, Spinnova sees great potential in developing circular raw materials such as textile waste and agricultural waste, as well as recycled SPINNOVA® fibre. Initial tests show that refining these raw materials into micro fibrillated cellulose (MFC) may be more efficient than refining other raw materials Spinnova has worked with. The company has received significant interest from customers wanting to build plants that convert multiple circular raw materials into SPINNOVA® fibre.

Together with Suzano, Spinnova is gathering the learnings from the first Woodspin plant to support the decision making for the next Woodspin factory investment. At the same time Spinnova continues to further develop the technology concept to reduce capital expenditure per tonne of fibre produced compared to the first Woodspin plant. While Suzano develops its MFC process it is expected that the first Woodspin facility will mainly be used for R&D to test new MFC batches and that commercial production volumes will be limited in the short term. The market opportunity and ambition level with Suzano to scale Woodspin’s production capacity remains unchanged

Spinnova will continue to have the option to invest into all future Woodspin and Respin plants, as per the respective joint venture agreements. The company will evaluate whether it participates in these investments based on the value it creates for Spinnova’s shareholders compared to other opportunities to invest Spinnova’s capital. Regardless of whether Spinnova invests its own capital into future plants, Spinnova will continue to be the exclusive technology provider to Woodspin and Respin, and they will continue to be important technology customers of Spinnova.

More information:
Spinnova strategy paper licensing
Source:

Spinnova

DyStar Systainability Report 2022/23 DyStar Singapore Pte Ltd
25.08.2023

DyStar Releases 2022 – 2023 Integrated Sustainability Report

DyStar, a leading specialty chemical company announced the release of its thirteenth annual Integrated Sustainability Report. The report is prepared in accordance with the updated GRI Standards 2021: Core Options. Despite the challenging business landscape and economic situations, DyStar remains committed to delivering tangible values that the Group has strategically created through the six major capitals, using the Integrated Reporting <IR> framework.

DyStar’s business strategies have proven their effectiveness and delivered significant progress toward its 2025 targets. The company has successfully reduced its environmental footprint in Greenhouse Gas Emission intensity and Wastewater production intensity by more than 30%, compared to the baseline year 2011.

More specifically, DyStar’s Scope 1 and Scope 2 Greenhouse Gas (GHG) Emissions intensity was 45% lower (tCO2e per ton production) than the baseline year 2011, with a totaled GHG emission of 56.91 thousand tCO2e. This is also 9% lower when compared to FY2021.

DyStar, a leading specialty chemical company announced the release of its thirteenth annual Integrated Sustainability Report. The report is prepared in accordance with the updated GRI Standards 2021: Core Options. Despite the challenging business landscape and economic situations, DyStar remains committed to delivering tangible values that the Group has strategically created through the six major capitals, using the Integrated Reporting <IR> framework.

DyStar’s business strategies have proven their effectiveness and delivered significant progress toward its 2025 targets. The company has successfully reduced its environmental footprint in Greenhouse Gas Emission intensity and Wastewater production intensity by more than 30%, compared to the baseline year 2011.

More specifically, DyStar’s Scope 1 and Scope 2 Greenhouse Gas (GHG) Emissions intensity was 45% lower (tCO2e per ton production) than the baseline year 2011, with a totaled GHG emission of 56.91 thousand tCO2e. This is also 9% lower when compared to FY2021.

Similarly, for Wastewater production intensity, DyStar achieved a 52% reduction compared to baseline year 2011, and a 24% reduction from FY2021.

Some other key highlights and value-adds include (when compared to FY2021):

  • Financial Capital: The results of production efficiency and streamlining manufacturing indirectly contributed to the reduction of 5.8% in operating cost
  • Manufactured Capital: Apart from ensuring quality suppliers through DyStar’s internal audit, DyStar’s effort on environmental performance and climate impacts with the Institute of Public & Environmental Affairs (IPE) was recognized and ranked second by industry on IPE’s Green Supply Chain Corporate Information Transparency Index (CITI)
  • Intellectual Capital: The innovative Cadira® modules continue to support the supply chain with a lower carbon footprint
  • Human Capital: The full launch of DyStar University (DSU), a proprietary LMS, supports the learning and development of employees globally
  • Social Capital: DyStar’s culturally diverse workforce organized a variety of activities and events in support of its global community and made a total contribution of USD 128,946 to various corporate social responsibility (“CSR”) program.

Despite the harsh economic headwinds, these figures further demonstrated the effectiveness of DyStar’s initiatives that were installed throughout the reporting year.

DyStar maintains a cautious yet optimistic outlook on its global performance.

More information:
DyStar Sustainability Report
Source:

DyStar Singapore Pte Ltd

DITF: Textile structures regulate water flow of rain-retaining "Living Wall" (c) DITF
Outdoor demonstrator on the Research CUBUS. At the top is the textile water reservoir with all inputs and outputs and textile valve for rapid emptying. Below are the substrate blocks with integrated hydraulic textiles
30.06.2023

DITF: Textile structures regulate water flow of rain-retaining "Living Wall"

Climate change is causing temperatures to rise and storms to increase. Especially in inner cities, summers are becoming a burden for people. While densification makes use of existing infrastructure and avoids urban sprawl, it increases the amount of sealed surfaces. This has a negative impact on the environment and climate. Green facades bring more green into cities. If textile storage structures are used, they can even actively contribute to flood protection. The German Institutes of Textile and Fiber Research (DITF) have developed a corresponding "Living Wall".

The plants on the green facades are supplied with water and nutrients via an automatic irrigation system. The "Living Walls" operate largely autonomously. Sensory yarns detect the water and nutrient content. The effort for care and maintenance is low.

Climate change is causing temperatures to rise and storms to increase. Especially in inner cities, summers are becoming a burden for people. While densification makes use of existing infrastructure and avoids urban sprawl, it increases the amount of sealed surfaces. This has a negative impact on the environment and climate. Green facades bring more green into cities. If textile storage structures are used, they can even actively contribute to flood protection. The German Institutes of Textile and Fiber Research (DITF) have developed a corresponding "Living Wall".

The plants on the green facades are supplied with water and nutrients via an automatic irrigation system. The "Living Walls" operate largely autonomously. Sensory yarns detect the water and nutrient content. The effort for care and maintenance is low.

Innovative hydraulic textile structures regulate water flow. The rock wool plant substrate on which the plants grow has a large volume in a small space thanks to its structure. Depending on how heavy the precipitation is, the rainwater is stored in a textile structure and later used to irrigate the plants. In the event of heavy rainfall, the excess water is discharged into the sewage system with a time delay. In this way, the "Living Walls" developed at the DITF help to make efficient use of water as a resource in post-densified urban areas.

The research project also scientifically investigated the cooling performance of a green facade. Modern textile technology in the substrate promotes the "transpiration" of the plants. This creates evaporative cooling and lowers temperatures in the surrounding area.

The work of the Denkendorf research team also included a cost-benefit calculation and a life-cycle analysis. Based on the laboratory and outdoor studies, a "green value" was defined that can be used to evaluate and compare the effect of greening buildings as a whole.

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)

28.06.2023

Lectra joins United Nations Global Compact and presents CSR policy

Lectra supports the transformation of fashion, automotive and furniture companies by providing them with technological solutions that accelerate their transition to a more efficient and more sustainable Industry 4.0. In February, as part of the launch of its new roadmap, Lectra confirmed the importance of CSR in its strategy and presented its new priority measures for 2023-2025. By joining the UN Global Compact, Lectra demonstrates its commitment to reaching the Sustainable Development Goals of the United Nations.

Over the last few years, Lectra has stepped up its CSR initiatives. In 2011, the company implemented a CSR purchasing charter that covered 98% of its industrial purchases in 2022, excluding Gerber Technology (which was acquired in June 2021). In 2023, the new version of our CSR purchasing charter will be extended to Gerber suppliers, with the objective of enrolling 90% of all our industrial suppliers by 2025. Lectra also favors local procurement and production, as demonstrated by the recent inauguration of its manufacturing facility in Tolland, United States.

Lectra supports the transformation of fashion, automotive and furniture companies by providing them with technological solutions that accelerate their transition to a more efficient and more sustainable Industry 4.0. In February, as part of the launch of its new roadmap, Lectra confirmed the importance of CSR in its strategy and presented its new priority measures for 2023-2025. By joining the UN Global Compact, Lectra demonstrates its commitment to reaching the Sustainable Development Goals of the United Nations.

Over the last few years, Lectra has stepped up its CSR initiatives. In 2011, the company implemented a CSR purchasing charter that covered 98% of its industrial purchases in 2022, excluding Gerber Technology (which was acquired in June 2021). In 2023, the new version of our CSR purchasing charter will be extended to Gerber suppliers, with the objective of enrolling 90% of all our industrial suppliers by 2025. Lectra also favors local procurement and production, as demonstrated by the recent inauguration of its manufacturing facility in Tolland, United States.

Another example: knowing that textiles generate 90% of the CO2 emissions produced during the total lifecycle of a cutting room, Lectra strives to offer its customers solutions that optimize the use of materials. Lectra's equipment makes it possible to achieve material saving of 5 to 10%. In addition, to better inform consumers about product authenticity and provenant, the company has also expanded its software offer to material traceability, as show by the recent majority acquisition of TextileGenesis’ capital. Lectra is committed to systematically using eco-design principles by 2025 for its new equipment platforms in order to reduce its environmental footprint.

For 2023-2025, Lectra has decided to focus on 5 key areas through 12 measures:

  1. MEETING THE HIGHEST ETHICAL STANDARDS
    - Uncompromising business ethics
    - Extension of our CSR purchasing policy
  2. DESIGNING ECO-RESPONSIBLE OFFERS
    - Developing eco-designed products and services
    - Supplying products and services that help reduce our customers’ impact on the environment
    - Developing safe, accessible and easy-to-use solutions
  3. FOSTERING AN INCLUSIVE, DIVERSE AND STIMULATING WORKING CULTURE
    - Zero tolerance for discrimination and harassment and equal opportunities for everyone
    - A working environment conducive to employee engagement
    - Balance between work and private life
    - Sustainable development of talents, team expertise and professional careers
    - Employees’ health and safety
  4. REDUCING THE ENVIRONMENTAL FOOTPRINT OF OUR ACTIVITIES
    - Reducing the environmental impact of our company's activities
  5. SUPPORTING FUTURE GENERATIONS
    - Supporting the development of professional skills and the employability of future generations
Source:

Lectra

Photo: pixabay
21.06.2023

Bangladesh to stage climate event for fashion and textiles

Bangladesh will stage the world’s first climate conference for the fashion industry this autumn, on 12 October. The Bangladesh Climate Action Forum will convene policy makers, garment manufacturers, fashion retailers and other industry stakeholders to look at solutions for decarbonising global textile supply chains.

The event will focus on technological and financial challenges around reducing emissions. Most of the world’s leading fashion brands have now set ambitious targets for reducing supply chain emissions. These targets relate to 2030 by which time many brands aim to reduce emissions by 50 per cent, and 2050 where most fashion brands aim to be carbon neutral.

The Bangladesh Climate Forum Action will examine causes of climate crisis, its urgency, impacts we have already seen, and what we can expect under both businesses as usual and rapid decarbonisation scenarios.

Bangladesh will stage the world’s first climate conference for the fashion industry this autumn, on 12 October. The Bangladesh Climate Action Forum will convene policy makers, garment manufacturers, fashion retailers and other industry stakeholders to look at solutions for decarbonising global textile supply chains.

The event will focus on technological and financial challenges around reducing emissions. Most of the world’s leading fashion brands have now set ambitious targets for reducing supply chain emissions. These targets relate to 2030 by which time many brands aim to reduce emissions by 50 per cent, and 2050 where most fashion brands aim to be carbon neutral.

The Bangladesh Climate Forum Action will examine causes of climate crisis, its urgency, impacts we have already seen, and what we can expect under both businesses as usual and rapid decarbonisation scenarios.

Also presenting at the event will be the Government of Bangladesh, which will address Bangladesh’s actions to mitigate the impacts of the climate crisis. Bangladesh is particularly vulnerable to climate change and is ranked the seventh extreme disaster risk-prone country in the world according to a report from the Global Climate Risk Index 2021. Tropical cyclones, tornadoes, floods, coastal and riverbank erosion, droughts and landslides are the major climate-induced hazards in Bangladesh.

The Bangladesh Climate Forum Action will also look at approaches towards decarbonization, including NetZero goals and timelines. Speakers will discuss globally recognised pathways for electricity/transportation/industry decarbonisation.

Renewable energy will also be under discussion. If fashion brands are to hit climate targets, it is imperative that supply chains switch to renewable energy and away from gas and fossil fuels. The event will look at challenges around the de-carbonisation of the electricity grid in Bangladesh, as well as the rate of transition toward renewable resources by garment factories, including solar power.

A key element of the event will be evaluation of practical solutions for Bangladesh’s RMG industry. It will profile specific solutions such as energy efficiency, machine upgrades, the electrification of thermal loads, direct power purchase agreements and biomass fed thermal systems. It will also discuss the challenges faced in the industry including business climate (and cycles), pricing, financing challenges, target setting and execution, policy opportunities, knowledge gaps and availability/scaling of solutions.

Financial challenges around decarbonisation of supply chains are significant, and it is far from clear who will pay for the technological upgrades required. While some investment support systems exist – such as lower interest financing – these are not always available, accessible or affordable for the majority of the RMG companies.

The event will explore financial options, changes to business/pricing models, opportunities for de-risking/underwriting investments, direct investment and other tools that need to emerge to address financial challenges and plug the funding gap. The event will also explore opportunities to decouple climate action from business cycles so that the 2030 targets can be met.

Source:

Bangladesh Apparel Exchange

19.06.2023

AkzoNobel launches online energy savings calculator for powder coatings

An openly accessible online energy savings calculator for all users of powder coatings has been launched by AkzoNobel.

All powder coatings customers can instantly calculate the energy and carbon reduction they could achieve with the company’s Interpon products and related services.

It's the latest example of how the company is continuing to work towards its ambition of reducing carbon emissions across the full value chain by 50% by 2030. “Sustainability is critical for all of us and helping customers to reduce energy is one of the many ways we can work with – and for – them in order to meet our shared ambitions,” says Jeff Jirak, Director of AkzoNobel’s Powder Coatings business.

An openly accessible online energy savings calculator for all users of powder coatings has been launched by AkzoNobel.

All powder coatings customers can instantly calculate the energy and carbon reduction they could achieve with the company’s Interpon products and related services.

It's the latest example of how the company is continuing to work towards its ambition of reducing carbon emissions across the full value chain by 50% by 2030. “Sustainability is critical for all of us and helping customers to reduce energy is one of the many ways we can work with – and for – them in order to meet our shared ambitions,” says Jeff Jirak, Director of AkzoNobel’s Powder Coatings business.

To make using the tool as easy as possible, the calculator – currently only available in Europe – is supported by a detailed guide, which helps customers better understand how even making small changes in the powder coating process can have a big impact in terms of becoming more energy efficient. These include checking for leakages in compressed air systems, improving insulation and ensuring all process equipment is regularly serviced and maintained. Customers also receive expert support from Interpon’s technical service team.

Source:

AkzoNobel

(c) Autoneum
16.06.2023

Autoneum: Sustainable sound absorption for underbody shields

Silence and resource efficiency are the order of the day in the development and optimization of electric vehicles. On the one hand, ever stricter emissions regulations worldwide are increasing demand for components that reduce noise pollution while helping vehicle manufacturers meet their sustainability targets. On the other hand, the absence of noise from the combustion engine in e-cars amplifies the disruptive effects of other noise sources in the passenger compartment. With Ultra-
Silent Tune, Autoneum now presents a new lightweight and environmentally friendly technology for underbody shields that reduces tire rolling noise both outside and inside the vehicle, thus improving not only acoustic performance but also driver comfort in electric cars.

Silence and resource efficiency are the order of the day in the development and optimization of electric vehicles. On the one hand, ever stricter emissions regulations worldwide are increasing demand for components that reduce noise pollution while helping vehicle manufacturers meet their sustainability targets. On the other hand, the absence of noise from the combustion engine in e-cars amplifies the disruptive effects of other noise sources in the passenger compartment. With Ultra-
Silent Tune, Autoneum now presents a new lightweight and environmentally friendly technology for underbody shields that reduces tire rolling noise both outside and inside the vehicle, thus improving not only acoustic performance but also driver comfort in electric cars.

Autoneum's Ultra-Silent Tune technology owes its sound-absorbing performance to acoustic chambers of different shapes and sizes. The chambers are created by applying an embossed polyester foil to the side of the Ultra-Silent underbody shield facing away from the noise source: they capture the sound waves emitted by the car tires, modulate them according to their respective geometry and reflect them back onto the porous carrier material. Compared to conventional single-layer underbody shields, whose acoustic performance is mainly determined by the noise-reducing properties of the product side facing the tires, Ultra-Silent Tune exploits both sides of the component, which significantly improves its acoustic absorption. Autoneum thus makes innovative use of the proven concept of traditional chamber absorbers, reducing exterior tire rolling noise.

Moreover, Ultra-Silent Tune combines optimized acoustic performance with the sustainability benefits of Autoneum's Pure technology Ultra-Silent. In addition to the high proportion of recycled PET fibers, underbody shields made from Ultra-Silent Tune can be manufactured from 100% polyester and thus be fully recycled at the end of vehicle life. Furthermore, the thickness of the multilayer construction can be flexibly adapted to the packaging spaces of different vehicle models. Underbody shields made from Autoneum's new Ultra-Silent Tune technology are already in pre-development at various vehicle manufacturers in Europe.

Source:

Autoneum Management AG

12.06.2023

Circular Polymers by Ascend launches Cerene™

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

Nylon 6, nylon 6,6, polypropylene, PET and calcium carbonate are available through the company’s proprietary carpet recycling process

Circular Polymers by Ascend, a market-leading recycler of post-consumer carpet, today the launch of Cerene™, a line of recycled polymers and materials made from the company’s proprietary carpet reclaiming technology. Cerene is available as polyamide 6 and 66, PET, polypropylene and calcium carbonate as a consistent,
sustainable feedstock for many applications, including molding and compounding.
Recycling experts from Circular Polymers will be showcasing Cerene at Compounding World Expo on June 14-15 at the Messe Essen in Germany.

Ascend Performance Materials, a fully integrated producer of durable high-performance materials and the majority owner of Circular Polymers by Ascend, is known for its innovations in nylon 6,6. Cerene will continue that legacy with offerings in nylon 6,6 while also bringing to market recycled polymers such as nylon 6, PET and PP.

“Customers around the globe are seeking consistent and reliable post-consumer recycled materials,” said Maria Field, business director of Circular Polymers by Ascend. “Cerene is mechanically recycled using a process that minimizes our carbon footprint and environmental impact.”

Circular Polymers by Ascend converts post-consumer carpet into fiber and pellets. The company uses a proprietary process in its California-based facilities to achieve high efficiency in recycling, successfully providing a new life for virtually every component of the carpet and backing. The company has redirected 85 million pounds of carpet from landfills into new goods since 2018.

Source:

Circular Polymers by Ascend

05.06.2023

Resource-efficient dyeing solutions for sustainable PA fibers

CHT and Fulgar have collaborated to support the goal of reducing the carbon footprint with an effective and sustainable solution for the textile market.

Combining FULGAR’s circular economy ready yarns with CHT’s resource-saving dyeing techniques significantly reduces the usage of natural resources and leads to lower environmental impact and ultimately a lower carbon footprint. The combined process needs less water, uses less energy, and saves time while meeting the color fastness standards for finished textile products.

The combination of 100 % biobased polyamide EVO® by FULGAR yarns with CHT sustainable dyeing application can save water up to 64 %, energy use up to 50 % and process time up to 50 %, when compared to standard dyeing processes. Sustainable dyeing of EVO® is promoted using CHT’s soy-based dyeing auxiliary SARABID TS 300. SARABID TS 300 has accredited a C2C Certified Material Health Certificate at Gold level and USDA Certified Biobased Product Certification.

CHT and Fulgar have collaborated to support the goal of reducing the carbon footprint with an effective and sustainable solution for the textile market.

Combining FULGAR’s circular economy ready yarns with CHT’s resource-saving dyeing techniques significantly reduces the usage of natural resources and leads to lower environmental impact and ultimately a lower carbon footprint. The combined process needs less water, uses less energy, and saves time while meeting the color fastness standards for finished textile products.

The combination of 100 % biobased polyamide EVO® by FULGAR yarns with CHT sustainable dyeing application can save water up to 64 %, energy use up to 50 % and process time up to 50 %, when compared to standard dyeing processes. Sustainable dyeing of EVO® is promoted using CHT’s soy-based dyeing auxiliary SARABID TS 300. SARABID TS 300 has accredited a C2C Certified Material Health Certificate at Gold level and USDA Certified Biobased Product Certification.

EVO® by FULGAR, the totally renewable yarn based on castor plants, does not require high amounts of water - 4 times less compared to cotton. In addition to the sustainable aspect, EVO® by FULGAR offers characteristics like lower fiber weight, particular moisture management and higher stretch often without the need for elastomer fiber. This helps to avoid material mixes for better recycling opportunities. EVO® provides greater user comfort, mainly for performance and casual apparel.

More information:
CHT Evo by Fulgar Fulgar
Source:

CHT Germany GmbH

(c) KARL MAYER GROUP
02.06.2023

KARL MAYER GROUP with sustainable technical textiles at ITMA

KARL MAYER GROUP will be presenting a WEFTTRONIC® II G at the ITMA with new features and upgrades for greater efficiency. This warp knitting machine with weft insertion produces lattice structures from high-strength polyester, which are firmly established in the construction industry in particular. With a working width of 213", it offers productivity and further advantages through design innovations. New features include weft thread tension monitoring, management and the new VARIO WEFT laying system. The component for the weft insertion aims at maximum flexibility. It allows the patterning of the weft yarn to be changed quickly and easily electronically, without mechanical intervention during yarn insertion and without limits on repeat lengths. In addition, there is less waste.

KARL MAYER GROUP will be presenting a WEFTTRONIC® II G at the ITMA with new features and upgrades for greater efficiency. This warp knitting machine with weft insertion produces lattice structures from high-strength polyester, which are firmly established in the construction industry in particular. With a working width of 213", it offers productivity and further advantages through design innovations. New features include weft thread tension monitoring, management and the new VARIO WEFT laying system. The component for the weft insertion aims at maximum flexibility. It allows the patterning of the weft yarn to be changed quickly and easily electronically, without mechanical intervention during yarn insertion and without limits on repeat lengths. In addition, there is less waste.

The KARL MAYER GROUP also supports its customers with well thought-out Care Solutions. The new support offers include retrofit packages for retrofitting control and drive technology for weft insertion and composite machines, and service packages that bundle various services. These include machine inspections and the replacement of all drive belts. The customer benefits from fixed prices that cover the costs of technician assignments, various discount options and transparent services.

A new solution for the vertical greening of cities is presented from the field of application for technical textiles. The core of the innovation is a grid textile produced on warp knitting machines with weft insertion by KARL MAYER Technische Textilien GmbH. The knitted lattice fabric is made of flax. It is used as a climbing aid for fast-growing plants, and after the greening phase, in autumn, it can be recycled together with these plants as biomass in pyrolysis plants to produce electricity and activated carbon. In summer, the planted sails lower the ambient temperature through evaporation effects. In addition, photosynthesis creates fresh air and binds CO2. Other important advantages are low soil requirements and flexible placement in public spaces. The greening system was developed by the company Micro Climate Cultivation, OMC°C, with the support of KARL MAYER Technische Textilien.

The KARL MAYER GROUP will also be exhibiting a sustainable composite solution made from natural fibres. The reinforcing textile of the innovative lightweight material is a multiaxial non-crimp fabric, which was also produced from the bio-based raw material flax on a COP MAX 4 from KARL MAYER Technische Textilien. The boatbuilding specialist GREENBOATS uses natural fibre composites to achieve sustainable products. The fact that it succeeds in this is shown, for example, by the Global Warming Potential (GWP): 0.48 kg of CO2 per kilogram of flax reinforcement compares with 2.9 kg of CO2 per kilogram of glass textile.

Source:

KARL MAYER Verwaltungsgesellschaft mbH

Graphic IVL
01.06.2023

Indorama Ventures and Carbios: MOU for PET biorecycling plant in France

Indorama Ventures Public Company Limited (IVL) and Carbios, a biotech company developing and industrializing biological solutions to reinvent the life cycle of plastic and textiles, announce the signing of a non-binding Memorandum of Understanding (MOU) to form a Joint Venture for the construction of the world’s first PET biorecycling plant in France.  

Based on and subject to the comprehensive terms set out in the MOU, Indorama Ventures plans to mobilize about €110 million for the Joint Venture in equity and non-convertible loan financing , pending final engineering documentation and final economic feasibility studies. Both parties have acknowledged their mutual support for the implementation of the project and their intent to finalize contract documentation before end 2023.

Subject to the successful performance of this first plant in France, Indorama Ventures confirms its intention to potentially expand the technology to other PET sites for future developments.

Indorama Ventures Public Company Limited (IVL) and Carbios, a biotech company developing and industrializing biological solutions to reinvent the life cycle of plastic and textiles, announce the signing of a non-binding Memorandum of Understanding (MOU) to form a Joint Venture for the construction of the world’s first PET biorecycling plant in France.  

Based on and subject to the comprehensive terms set out in the MOU, Indorama Ventures plans to mobilize about €110 million for the Joint Venture in equity and non-convertible loan financing , pending final engineering documentation and final economic feasibility studies. Both parties have acknowledged their mutual support for the implementation of the project and their intent to finalize contract documentation before end 2023.

Subject to the successful performance of this first plant in France, Indorama Ventures confirms its intention to potentially expand the technology to other PET sites for future developments.

Under the agreement signed June 1, Carbios, which filed for plant permitting in December 2022, should acquire 13ha land from Indorama Ventures’ existing PET plant at Longlaville and expects to be granted permits by Q3 2023, allowing start of construction by end of 2023 and targeted commissioning in 2025.  The land surface offers the possibility to double capacity. Pursuant to this MOU, Indorama Ventures shall ensure 100% of output repolymerization and both partners shall collaborate to secure feedstock supply.

The total capital investment for the new plant is re-estimated to be around €230 million, taking into account recent impact from inflation. Project costs shall be financed by the sums mobilized by Indorama Ventures, the French State and Grand-Est Region subsidies available for the project , and by equity capitalization of the Joint Venture by Carbios. Part of Carbios’ equity injection into the Joint Venture shall be financed by a portion of Carbios’ current cash position (i.e. €86 million as of 30 April 2023). Carbios is actively examining the best options to finance its remaining equity injection into the Joint Venture and will choose the most appropriate solution and timeline based on market conditions.

The project is part of Indorama Ventures’ Vision 2030 ambition to build on its leadership as a global sustainable chemical company. The company’s ESG commitments include spending $1.5 billion to increase its recycling capacity to 50 billion PET bottles per year by 2025 and 100 billion bottles per year by 2030. To meet these goals, Indorama Ventures, the world’s largest producer of recycled PET resin used in beverage bottles, is investing in new recycling technologies, including advanced recycling, in addition to expanding its global footprint of mechanical recycling sites, including two in France.

Carbios has developed a disruptive enzymatic depolymerization technology that enables efficient and solvent-free recycling of PET plastic and textile waste into virgin-like products with an aim to achieve true circularity. Carbios has ambitious plans to become a leading technology provider in advanced recycling of PET by 2035. After successful ongoing operations in its demonstration plant in Clermont-Ferrand in France, Carbios has been collaborating with Indorama Ventures for over a year to assess the commercial and technical feasibility of the technology. The world’s first industrial-scale enzymatic PET recycling plant at Longlaville will have a capacity to process about 50,000 tons of post-consumer PET waste per year, including waste that is not recyclable mechanically, equivalent to 2 billion PET colored bottles or 2.5 billion PET trays.

More information:
IVL Carbios biorecycling PET
Source:

IVL

© PantherMedia / Sasha2109
01.06.2023

VDI ZRE: Produktvarianten ressouceneffizient bewerten und vergleichen

Mit der Entwicklung von neuen Produkten erschließen Unternehmen neue Märkte und bestehen im Wettbewerb. Es lohnt sich jedoch nicht, alle Produktkonzepte gleichermaßen weiterzuentwickeln. Mit dem neuen Webtool „Ressourcen-orientierte Konzeptbewertung“ des VDI Zentrums Ressourceneffizienz (VDI ZRE) lassen sich Konzepte für Produkte qualitativ bewerten und vergleichen – nach technischen, wirtschaftlichen und ressourcenbezogenen Kriterien.
 
Die (Weiter-)Entwicklung von Produktideen kann ein äußerst ressourcenintensiver Prozess sein. Doch für welches Konzept lohnt der Aufwand?

Mit der Entwicklung von neuen Produkten erschließen Unternehmen neue Märkte und bestehen im Wettbewerb. Es lohnt sich jedoch nicht, alle Produktkonzepte gleichermaßen weiterzuentwickeln. Mit dem neuen Webtool „Ressourcen-orientierte Konzeptbewertung“ des VDI Zentrums Ressourceneffizienz (VDI ZRE) lassen sich Konzepte für Produkte qualitativ bewerten und vergleichen – nach technischen, wirtschaftlichen und ressourcenbezogenen Kriterien.
 
Die (Weiter-)Entwicklung von Produktideen kann ein äußerst ressourcenintensiver Prozess sein. Doch für welches Konzept lohnt der Aufwand?
In der frühen Phase der Entwicklung von Produkten werden Varianten auf Basis definierter Anforderungen an das zukünftige Produkt erstellt. Die Fokussierung auf wenige Produktkonzepte zur Weiterentwicklung spart Zeit, Material und Energie. Für eine fundierte Auswahl empfiehlt sich eine rationale Betrachtung der unterschiedlichen Lösungsansätze. Mit dem neuen Online-Werkzeug „Ressourcenorientierte Konzeptbewertung“ des VDI ZRE lassen sich Produktkonzepte qualitativ bewerten und vergleichen – mit Blick auf den gesamten Lebensweg. Das intensive Bewertungsverfahren ist eine Kombination aus Nutzwertanalyse und Technisch-Wirtschaftlicher Bewertung nach der VDI-Richtlinie 2225 Blatt 3.

Ressourcenorientierte Konzeptbewertung als Webtool
Mit dem Webtool können Produktkonzepte ganzheitlich nach Kriterien zur Konstruktion, technischen Funktionsweise, Wirtschaftlichkeit, Erfüllung von Kundenbedürfnissen sowie zur Ressourceneffizienz und Nachhaltigkeit bewertet werden. Die zur Beurteilung ausgewählten Kriterien werden für die Analyse gewichtet. In einer Nutzwertmatrix lassen sich die Konzepte danach bewerten, wie sie die zuvor gewählten Bewertungskriterien erfüllen. Entsprechend der eigenen Gewichtung ergeben sich der gesamte Nutzwert und die Wertigkeiten der einzelnen Kategorien. Abschließend werden die Bewertungsergebnisse aller Konzepte in einem Spinnennetzdiagramm dargestellt.

Es bietet sich an, dieses intensive Bewertungsverfahren am Ende der Konzeptphase im Rahmen der Produktentwicklung durchzuführen. Ziel ist es, den Lösungsraum einzugrenzen und ein geeignetes Konzept auszuwählen. Dieses wird in der anschließenden Entwurfsphase weiterentwickelt. Sofern nur ein Konzept zur Bewertung vorliegt, erfolgt die Bewertung im Vergleich mit der Ideallösung.
Die Durchführung und die individuellen Ergebnisse lassen sich abschließend in einem PDF darstellen und downloaden.

Das vom Bundesumweltministerium beauftragte Webtool steht zur Verfügung unter www.ressource-deutschland.de/werkzeuge/loesungsentwicklung/ressourcenorientierte-konzeptbewertung

Source:

VDI Zentrum Ressourceneffizienz

01.06.2023

ERCA, Patagonia® and YKK announce implementation of ERCA’s REVECOL®

ERCA, Patagonia® and YKK announce the implementation of ERCA’s REVECOL®, a sustainable, innovative chemical agent, in YKK’s dyeing processes at their Vietnam production sites transforms common waste material, such as exhausted vegetable cooking oil, into an upcycled, certified high performance, safe textile chemical. ERCA has invested in circular practices to take waste material and use them as feedstocks to create new responsible chemical products.

Always searching for new sustainable innovations, REVECOL® caught the attention of Patagonia®. Driven by the goal to utilize non-extractive chemistry in their supply chain wherever possible, the brand teamed up with ERCA and trim supplier YKK to deploy REVECOL®.

REVECOL® LV-TS has a carbon footprint that is 72% lower* than the more conventional chemical auxiliaries produced by ERCA. Today ERCA produces a wide range of high-performance chemical auxiliaries made from used vegetable oil that are ZDHC, bluesign® approved and GRS certified.

ERCA is one of the first companies to have GRS certified chemical products, opening the door to circular chemical auxiliaries.

ERCA, Patagonia® and YKK announce the implementation of ERCA’s REVECOL®, a sustainable, innovative chemical agent, in YKK’s dyeing processes at their Vietnam production sites transforms common waste material, such as exhausted vegetable cooking oil, into an upcycled, certified high performance, safe textile chemical. ERCA has invested in circular practices to take waste material and use them as feedstocks to create new responsible chemical products.

Always searching for new sustainable innovations, REVECOL® caught the attention of Patagonia®. Driven by the goal to utilize non-extractive chemistry in their supply chain wherever possible, the brand teamed up with ERCA and trim supplier YKK to deploy REVECOL®.

REVECOL® LV-TS has a carbon footprint that is 72% lower* than the more conventional chemical auxiliaries produced by ERCA. Today ERCA produces a wide range of high-performance chemical auxiliaries made from used vegetable oil that are ZDHC, bluesign® approved and GRS certified.

ERCA is one of the first companies to have GRS certified chemical products, opening the door to circular chemical auxiliaries.

As part of their Sustainability Vision 2050, YKK is constantly working to deploy more sustainable chemical processes in their production. The ability to replace a commonly used dye chemical with a lower impact version was a no-brainer for YKK’s Vietnam management. REVECOL® is not only more sustainable, it is also more efficient, reducing the use of the dyeing auxiliary by 20% to 30%, thus  helping to lower YKK’s overall chemical usage.

* bluesign® Product Carbon Footprint Report

Source:

ERCA SPA

Photo: CHT
26.05.2023

BEZAKTIV ONE: New Reactive dyes range by CHT

  • Reactive dyes for water and energy saving dye processes with significantly shortened process time

BEZAKTIV ONE covers a broad color spectrum with tinctorial very strong dyes. This enables a cost-efficient dye process with significantly less dye and salt. The excellent wash-off behavior allows short rinse cycles at lower temperatures and therefore offers further ecological and economic advantages. The dyes are particularly suitable for durable textiles due to their good multiple wash fastness.

Cellulosic fibers are often dyed with reactive dyes, as these are commercially available in a wide range of colors that result in dyeings with high wash fastness. However, reactive dyeings require a lot of water due to the necessary rinsing processes. Due to increased ecological requirements, the development of energy and water saving processes is not just a trend, but rather a core prerequisite for new dyes.

A minimal number of rinsing baths and generally lower temperatures for dye exhaust, rinsing and soaping contribute to an overall efficient water and energy saving dyeing processes.

  • Reactive dyes for water and energy saving dye processes with significantly shortened process time

BEZAKTIV ONE covers a broad color spectrum with tinctorial very strong dyes. This enables a cost-efficient dye process with significantly less dye and salt. The excellent wash-off behavior allows short rinse cycles at lower temperatures and therefore offers further ecological and economic advantages. The dyes are particularly suitable for durable textiles due to their good multiple wash fastness.

Cellulosic fibers are often dyed with reactive dyes, as these are commercially available in a wide range of colors that result in dyeings with high wash fastness. However, reactive dyeings require a lot of water due to the necessary rinsing processes. Due to increased ecological requirements, the development of energy and water saving processes is not just a trend, but rather a core prerequisite for new dyes.

A minimal number of rinsing baths and generally lower temperatures for dye exhaust, rinsing and soaping contribute to an overall efficient water and energy saving dyeing processes.

BEZAKTIV ONE dyes can be dyed, rinsed and soaped between 40 and 60 °C. Therefore, the BEZAKTIV ONE exhaust dyeing process is significantly shorter compared to conventional reactive dyeing processes, where temperatures between 60 and 98 °C are required. This advantage means savings in process time and higher productivity for the textile dyer.

The advantages become particularly clear when dyeing medium to dark shades with the BEZAKTIV ONE process. Due to the high fixation level in combination with good color build-up dark shades can be matched with lower dye concentrations of BEZAKTIV ONE than with conventional bifunctional reactive dyes. The addition of the auxiliary COTOBLANC SEL in the second soap bath has an additional positive effect, so that a washing process with low water and energy consumption generates excellent wet fastness properties on the textile.

(c) Beaulieu International Group
22.05.2023

B.I.G. Yarns launches Sustainable Yarns at Clerkenwell Design Week

B.I.G. Yarns unveils its new “SustainableYarns” platform, with Clerkenwell Design Week visitors the first to be invited to get on board and focus on what matters most for the design and manufacture of sustainable soft floorings.

The expert in polyamide (PA) 1 step 3 ply yarns offers a range of options for manufacturers to introduce sustainable yarns into carpet solutions and reach sustainability targets faster and more efficiently.

The Sustainable Yarns range creates opportunities to design with recycled content yarn (EqoCycle), to work with renewable resources (EqoBalance), and, following the launch of new polyamide 6 (PA6) EqoYarn at Clerkenwell Design Week, to also leverage the low-impact value chain.

New addition EqoYarn is a new low-impact PA6 carpet yarn based on the most recent innovations in polymer production, which enable yarn manufacturers to lower their carbon footprint by nearly 50% and give carpet manufacturers more options to reduce their impact.

B.I.G. Yarns unveils its new “SustainableYarns” platform, with Clerkenwell Design Week visitors the first to be invited to get on board and focus on what matters most for the design and manufacture of sustainable soft floorings.

The expert in polyamide (PA) 1 step 3 ply yarns offers a range of options for manufacturers to introduce sustainable yarns into carpet solutions and reach sustainability targets faster and more efficiently.

The Sustainable Yarns range creates opportunities to design with recycled content yarn (EqoCycle), to work with renewable resources (EqoBalance), and, following the launch of new polyamide 6 (PA6) EqoYarn at Clerkenwell Design Week, to also leverage the low-impact value chain.

New addition EqoYarn is a new low-impact PA6 carpet yarn based on the most recent innovations in polymer production, which enable yarn manufacturers to lower their carbon footprint by nearly 50% and give carpet manufacturers more options to reduce their impact.

For its EqoYarn Bulk Continuous Filament (BCF) production process, B.I.G. Yarns has selected the few best-in-class partners that have made major steps forward in terms of sustainability, and reduced their greenhouse gas emissions thanks to continuous investments in process efficiency, green energy, heat optimization and waste reduction. The result is EqoYarn with a carbon footprint of 4 kg CO2 eq/kg yarns, which is a CO2 reduction of up to 50% compared to conventional PA yarns.

EqoBalance PA6 yarns enable customers to reach an even higher CO2 reduction of up to 75%. Manufactured with polymers made from renewable resources such as organic waste from cooking oil instead of virgin or fossil feedstock, these yarns have a carbon footprint of 1.98 kg CO2 eq./ kg yarns. They help carpet manufacturers to create products with an extremely low carbon footprint.

EqoCycle PA6 yarns are fully recyclable and incorporate 75% recycled content originating from recycled and regenerated PA6 granules. With a carbon footprint of 4.64 kg CO2 eq./ kg yarns, they deliver the same high-quality performance of virgin PA6 yarn with the benefit of 37% CO2 reduction. EqoCycle yarns offer carpet manufacturers a sustainable alternative to help reduce the ecological footprint of their products and move towards a circular economy without jeopardizing the end-product quality.

In addition to the different CO2-reducing options, B.I.G. Yarns’ customers can access an unlimited colour range to elevate their designs. Its BCF technology for polyamide yarns, twisted and heat-set yarns, one-colour to multi-colour, between 650 and 15000 dTex, along with its colour studio, are available to support their creation of customised collections.

Source:

Beaulieu International Group