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Photo: Freudenberg Performance Apparel
24.11.2022

Freudenberg Performance Materials Apparel: Rooftop photovoltaic coverage at Nantong

Freudenberg recently completed the installation of 13,000m2 of photovoltaic cells on the roof of its new Nantong factory. With a total capacity of 1.6 MW, the new rooftop installation is projected to produce 1.5 million kWh of green electricity each year. In addition to reduced energy consumption from the grid, this new installation will lower CO2 emissions by approximately 1,200 tons/year.

Freudenberg recently completed the installation of 13,000m2 of photovoltaic cells on the roof of its new Nantong factory. With a total capacity of 1.6 MW, the new rooftop installation is projected to produce 1.5 million kWh of green electricity each year. In addition to reduced energy consumption from the grid, this new installation will lower CO2 emissions by approximately 1,200 tons/year.

Beyond the photovoltaic installation, Freudenberg has integrated sustainability into the Nantong factory’s design, with advances in energy conservation and emissions and loss reduction.
The factory uses valley voltage to cool water in its reservoir that is applied to A/C and machine temperature management during working hours. The new waste gas treatment technology enables hot water collected by heat exchangers to be directly reused in production, thereby reducing thermal energy waste. Furthermore, the factory applies a new multi-phase waste gas treatment technology to reduce volatile organic compounds (VOC) emissions. The factory has also incorporated new methods to improve the A-grade rates of bi-elastic interlinings and shirt interlinings, further reducing waste while improving garment quality.

As part of the Group’s sustainable development strategy, Freudenberg Apparel has also launched its House of Sustainability to minimize the impact of production processes on the environment and help customers achieve their sustainability goals, with responsible products across the seasons.

Source:

Freudenberg Performance Apparel

02.11.2022

Swiss textile manufacturer Schoeller Textil AG with new branding

  • Focus on the guiding principle of "textile intelligence" and sustainability

Long before sustainability became a trend in the textile industry, Schoeller Textil AG, which has been innovating technical fabrics and smart textile finishing technologies for more than 150 years, made it its mission to develop textile innovations in harmony with nature. Now the company is undergoing an extensive rebranding, whilst unveiling its strong brand foundation in the process. The result embodies the newly defined guiding principle of “Textile Intelligence” - the development and successful implementation of innovative textiles and intelligent textile technologies.

Innovations in the textile industry must meet requirements on several levels – offering both new and optimized solutions to sociological, ecological, and economic challenges of our time. Creating this holistic added value is firmly rooted in the Schoeller brand origin and is still the top priority in textile product development today. The brand essence has thus remained the same, but it has been embodied anew.

  • Focus on the guiding principle of "textile intelligence" and sustainability

Long before sustainability became a trend in the textile industry, Schoeller Textil AG, which has been innovating technical fabrics and smart textile finishing technologies for more than 150 years, made it its mission to develop textile innovations in harmony with nature. Now the company is undergoing an extensive rebranding, whilst unveiling its strong brand foundation in the process. The result embodies the newly defined guiding principle of “Textile Intelligence” - the development and successful implementation of innovative textiles and intelligent textile technologies.

Innovations in the textile industry must meet requirements on several levels – offering both new and optimized solutions to sociological, ecological, and economic challenges of our time. Creating this holistic added value is firmly rooted in the Schoeller brand origin and is still the top priority in textile product development today. The brand essence has thus remained the same, but it has been embodied anew.

“At the beginning of the rebranding process, it was clear to us we had to root ourselves in (Swiss) tradition in order to fully realize Schoeller’s entire brand potential and successfully explore new, digital paths,” said Antonio Gatti Balsarri, Schoeller chief commercial officer.

“The goal of the rebranding is to communicate our traditional brand values in a completely new brand presence. The result was a sharpened brand profile, a clear brand strategy and tonality, as well as a clean, modern corporate design. We will specifically address our sustainability commitment through the expansion of digital touchpoints, their cross-media use, and an increased online presence. Simplified, straightforward, sustainable - in accordance with our greatest source of inspiration: nature.”

Transparency and Sustainability
Paramount to Schoeller’s corporate identity is the full disclosure of brand principles and transparency around all business divisions. A simplified logo design was established by reducing logo elements and colors for a modern look and feel that can be produced in a much more resource-efficient manner. Schoeller’s new brand mantra of “Textile Intelligence” speaks to its company mission of more than 150 years.

Schoeller has been a bluesign system partner from the very beginning and uses the Higg Facility Environmental Module (FEM) to assess sustainable performance. In addition to environmentally-friendly manufacturing processes and careful material selection, the highest quality and sustainability standards in production also mean guaranteeing fair working conditions. Schoeller follows a Code of Conduct that guarantees transparent production chains, environmental protection, and fair working conditions.

“Zero Textile Waste” becomes a targeted brand strategy. While the production of textiles and textile technologies is continuously being optimized to preserve resources, the manufacturing processes are often costly and complex. To this end, Schoeller offers new approaches to efforts around Zero Waste in the industry. Its new online shop, “Schoeller re-Fabric” sells textile remnants from production directly to designers and smaller productions to increase its overall production volume efficiency and avoid textile waste.

Source:

Schoeller Textil AG

10.10.2022

OETI: 55 years of testing, certifying, accreditation and notification

As an accredited testing and certification body, the “OETI - Institut fuer Oekologie, Technik und Innovation GmbH“ (OETI for short) has been successfully responding to prevailing market requirements for 55 years and, in the process, has made a name for itself worldwide. To mark its anniversary, this international centre of excellence with its origins in Austria is taking a look back at the most important milestones in its history as well as providing interesting insights into future developments.

As renowned flooring manufacturers founded the Austrian Carpet Institute on 25th of September 1967, no one could have imagined how successful the company would become. But even back then, one thing was clear to the experts: the need to establish a carpet research and testing centre in the form of an association. Today, over five decades later, OETI is a testing and certification services provider for OEKO-TEX® certificates and labels, textiles, leather, due diligence along the textile and leather supply chain as well as for personal protective equipment (PPE), flooring technology, furnishings and indoor air quality.

As an accredited testing and certification body, the “OETI - Institut fuer Oekologie, Technik und Innovation GmbH“ (OETI for short) has been successfully responding to prevailing market requirements for 55 years and, in the process, has made a name for itself worldwide. To mark its anniversary, this international centre of excellence with its origins in Austria is taking a look back at the most important milestones in its history as well as providing interesting insights into future developments.

As renowned flooring manufacturers founded the Austrian Carpet Institute on 25th of September 1967, no one could have imagined how successful the company would become. But even back then, one thing was clear to the experts: the need to establish a carpet research and testing centre in the form of an association. Today, over five decades later, OETI is a testing and certification services provider for OEKO-TEX® certificates and labels, textiles, leather, due diligence along the textile and leather supply chain as well as for personal protective equipment (PPE), flooring technology, furnishings and indoor air quality.

In 1992, OETI was a founding member of the ‘International OEKO-TEX® Association for Research and Testing in the Field of Textile and Leather Ecology’ with independent certifications and product labels. Ever since, OEKO-TEX® has enabled companies along the textile and leather supply chain and every consumer to make responsible decisions for safe, environmentally friendly and fairly manufactured products.

In line with its focus on sustainability, OETI and its Swiss parent company, TESTEX AG, wanted to build the new OETI headquarters using low energy construction techniques and ensure its carbon-neutral operation. To achieve these goals, the highest possible thermal insulation and energy optimisation standards were applied, while the carbon-neutral power supply is generated by its in-house photovoltaics system as well as domestic renewable energy.

The new headquarters, which the company moved into in 2021, provides space for 75 employees over 2,500m2 and boasts bright and perfectly equipped office areas. The laboratory areas, the analytical/chemical laboratory and the physical / fire laboratory were also designed based on the latest methods and technologies. This makes OETI, alongside its Swiss parent company TESTEX, the second fully fledged laboratory site in the entire, global TESTEX Group.

More information:
OETI Testex
Source:

OETI

(c) Lenzing AG
03.10.2022

Lenzing: Ground-mounted photovoltaic system becomes operational

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

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

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

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

More information:
Lenzing energy consumption CO2
Source:

Lenzing AG

(c) AZL. Comparison of battery casing in modular design and “cell-to-pack” design
Comparison of battery casing in modular design and “cell-to-pack” design
02.09.2022

AZL: Plastic-based multi-material solutions for cell-to-pack battery enclosures

The future of e-mobility will be determined in particular by safe battery enclosures. As batteries for electric vehicles become more performant, higher volumetric energy density plays a crucial role. If more energy is to be stored in less installation space, new material and design solutions are required. The development of suitable enclosures made of safe and highly robust lightweight materials is also required. This is a case for the Aachen Centre for Integrative Lightweight Production (AZL). A project on cell-to-pack battery enclosures for battery-electric vehicles, which has been eagerly awaited in the industry, will start in October this year there.

The future of e-mobility will be determined in particular by safe battery enclosures. As batteries for electric vehicles become more performant, higher volumetric energy density plays a crucial role. If more energy is to be stored in less installation space, new material and design solutions are required. The development of suitable enclosures made of safe and highly robust lightweight materials is also required. This is a case for the Aachen Centre for Integrative Lightweight Production (AZL). A project on cell-to-pack battery enclosures for battery-electric vehicles, which has been eagerly awaited in the industry, will start in October this year there.

The design of battery housings is crucial for safety, capacity, performance, and economics. The Cell-to-Pack project, which is starting now, will focus on developing concepts for structural components and for producing them based on a variety of materials and design approaches. The concepts will be compared in terms of performance, weight and production costs, creating new know-how for OEMs, producers and their suppliers throughout the battery vehicle value chain. Companies are now invited to participate in this new cross-industry project to develop battery enclosure concepts for the promising and trend-setting cell-to-pack technology.

The basis for the project is the lightweight engineering expertise of the AZL experts, which they have already demonstrated in previous projects for multi-material solutions for module-based battery housings. Together with 46 industry partners, including Audi, Asahi Kasei, Covestro, DSM, EconCore, Faurecia, Hutchinson, Johns Manville, Magna, Marelli and Teijin, 20 different multi-material concepts were optimized in terms of weight and cost and compared with a reference component made from aluminum. All production steps were modelled in detail to obtain reliable cost estimates for each variant. Result: depending on the concept, 20% weight or 36% cost savings potential could be identified by using multi-material composites compared to the established aluminum reference.

It is expected that the design concept of battery enclosures will develop in the direction of a more efficient layout. In this case, the cells are no longer combined in modules in additional production steps, but are integrated directly into the battery housing. The elimination of battery modules and the improved, weight-saving use of space will allow for higher packing density, reduced overall height and cost saving. In addition, various levels of structural integration of the battery housing into the body structure are expected. These new designs bring specific challenges, including ensuring protection of the battery cells from external damage and fire protection. In addition, different recyclability and repair requirements may significantly impact future designs. How the different material and structural options for future generations of battery enclosures for the cell-to-pack technology might look like and how they compare in terms of cost and environmental impact will be investigated in the new AZL project. In addition to the material and production concepts from the concept study for module-based battery enclosures, results from a currently ongoing benchmarking of different materials for the impact protection plate and a new method for determining mechanical properties during a fire test will also be incorporated.

The project will start on October 27, 2022 with a kick-off meeting of the consortium, interested companies can still apply for participation until then.

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

Adient: Cooperation with H2 Green Steel to reduce carbon footprint

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

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

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

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

Source:

Adient

10.08.2022

Launch of international in-store collection program at Mustang

Today’s system of «take – make – waste» needs to change. New textiles are produced used and discarded instead of putting them to a second use. The production of new textiles requires natural resources that are limited, and the current system has a significant negative impact on our planet. The transition to a circular system, where garments are kept in use for longer, is an opportunity to harness untapped potential around customer loyalty, economic growth, and ecological sustainability.

To move away from the linear system and enable products to be made out of post-consumer textile waste, TEXAID continues to expand its offering for in-store collection programs throughout Europe and the USA.

TEXAID is partnering with Mustang to offer an in-store collection program. At scale and paired with TEXAID, in-store collection of used clothing enables conservation of resources because it allows items to be directly sorted for their next and most environmentally friendly lifecycle. This service can now be found in over 70 Mustang stores across Germany, Austria, Belgium, Switzerland, Czech Republic, France, Hungary, the Netherlands, and Poland.

Today’s system of «take – make – waste» needs to change. New textiles are produced used and discarded instead of putting them to a second use. The production of new textiles requires natural resources that are limited, and the current system has a significant negative impact on our planet. The transition to a circular system, where garments are kept in use for longer, is an opportunity to harness untapped potential around customer loyalty, economic growth, and ecological sustainability.

To move away from the linear system and enable products to be made out of post-consumer textile waste, TEXAID continues to expand its offering for in-store collection programs throughout Europe and the USA.

TEXAID is partnering with Mustang to offer an in-store collection program. At scale and paired with TEXAID, in-store collection of used clothing enables conservation of resources because it allows items to be directly sorted for their next and most environmentally friendly lifecycle. This service can now be found in over 70 Mustang stores across Germany, Austria, Belgium, Switzerland, Czech Republic, France, Hungary, the Netherlands, and Poland.

More information:
Texaid Mustang circularity
Source:

TEXAID

25.07.2022

Carbios: Strengthening its leadership in the biorecycling of plastics and textiles

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

  • Exceptional achievement of research work on the use of Nuclear Magnetic Resonance (NMR) spectroscopy for understanding PET depolymerization enzymes

Carbios (Euronext Growth Paris: ALCRB), a pioneer in the development of enzymatic solutions dedicated to the end-of-life of plastic and textile polymers, announces the publication of an article entitled “An NMR look at an engineered PET depolymerase” in the scientific journal Biophysical Journal.

The article describes the use of Nuclear Magnetic Resonance (NMR) spectroscopy to study the thermal stability of PET depolymerization enzymes and the mechanism of adsorption of the enzyme on the polymer. This innovative approach, which required months of development, is a world first and opens up new ways of improving these enzymes. This publication confirms Carbios' international lead in the development of the most efficient enzymes for the depolymerization and recycling of plastics.

Prof. Alain Marty, Chief Scientific Officer of Carbios and co-author of the article, explains: “ Nearly 25 researchers are currently working on our unique enzymatic technology. It is based on academic collaborations with the world's leading experts in their fields..”

Dr. Guy Lippens, CNRS Research Director and co-author of the artcle, adds: “Nuclear Magnetic Resonance (NMR) is an extraordinary biophysical technique for visualizing an enzyme directly in solution. Our study is the first to use NMR as a complementary technique to crystallography and molecular modeling to observe a PETase. This gives new perspectives to better understand the functioning of these enzymes and it makes it possible to imagine new ways of improving these enzymes. ”

More information:
Carbios de-polymerization
Source:

Carbios

Photo: ACIMIT
13.07.2022

Italian textile machinery sector returning to pre-Covid levels

  • Annual assembly of ACIMIT, the Association of Italian Textile Machinery Manufacturers

  • Digitalization and Sustainability Key to Resiliency for Italian Textile Machinery Sector

The objective critical issues faced by Italy as a whole throughout the course of 2021, primarily dictated by a pandemic that upset any and all pre-existing equilibriums, have not slowed or halted the Italian textile machinery sector.

Indeed, data presented during the annual assembly of ACIMIT, the Association of Italian Textile Machinery Manufacturers, held on 1 July proved decidedly positive, showing that in 2021 the sector recovered significantly compared to 2020, to the point of returning to pre-Covid levels.

Specifically, Italian textile machinery production amounted to 2.388 billion euros (+35% over 2020 and + 5% over 2019), with total exports amounting to 2.031 billion euros (+37% over 2020 and +9% over 2019).

  • Annual assembly of ACIMIT, the Association of Italian Textile Machinery Manufacturers

  • Digitalization and Sustainability Key to Resiliency for Italian Textile Machinery Sector

The objective critical issues faced by Italy as a whole throughout the course of 2021, primarily dictated by a pandemic that upset any and all pre-existing equilibriums, have not slowed or halted the Italian textile machinery sector.

Indeed, data presented during the annual assembly of ACIMIT, the Association of Italian Textile Machinery Manufacturers, held on 1 July proved decidedly positive, showing that in 2021 the sector recovered significantly compared to 2020, to the point of returning to pre-Covid levels.

Specifically, Italian textile machinery production amounted to 2.388 billion euros (+35% over 2020 and + 5% over 2019), with total exports amounting to 2.031 billion euros (+37% over 2020 and +9% over 2019).

However, these results do not cancel the obstacles that companies are still facing. Looking to the near future, expectations are for a rather uncertain outlook, as underscored by ACIMIT President Alessandro Zucchi: “2022 remains a year replete with unknown factors, starting with the Russian-Ukrainian conflict, along with the persistence of the pandemic, which seriously risk delaying expected growth consolidation for businesses in the sector. Difficulties in finding raw materials and components negatively affect the completion and fulfilment of orders processed as far back as 2021. To boot, rising energy costs and inflationary trends affecting numerous commodities are depressing overall business confidence. So the outlook for the sector is not so good.”
As such, the two cornerstones through which ACIMIT aims to support the Italian textile machinery sector are digitilization and sustainability.

4.0: The textile machinery sector looks to the future
The road to digital transformation has already led numerous manufacturers to completely rethink their production processes, rendering them more efficient and l ess expensive. The digital world is moving ahead at a decisive rate in the textile machinery sector, where the buzzwords are increasingly, for instance, the Internet of Things connecting to a company’s ecosystem, machine learning algorithms applied to production, predictive maintenance, and the integrated cloud management of various production departments. It is no coincidence that ACIMIT has focused decisively on its Digital Ready project, through which Italian textile machinery that adopt a common set of data are certified, with the aim of facilitating integration with the operating systems of client companies (ERP, MES, CRM, etc.).

A green soul
Combining production efficiency and respect for the environment: a challenge ACIMIT has made its own and which it promotes among its members through the Sustainable Technologies project. Launched by the association as early as 2011, the project highlights the commitment of Italian textile machinery manufacturers in the area of sustainability. At the heart of the project is the Green Label, a form of certification specifically for Italian textile machinery which highlights its energy and environmental performance. An all-Italian seal of approval developed in collaboration with RINA, an international certification body.
The assembly held on 1 July provided an opportunity to take stock of the Sustainable Technologies project, more specifically, with the presentation of the Rina Consulting survey on the Green Label’s evolution and impact in recent years.

The results have confirmed the initiative’s extreme validity. The technological advances implemented by the association’s machinery producers participating in the project have effectively translated into benefits in terms of environmental impact (reduction of CO2 equivalent emissions for machinery), as well as economic advantages for machinery users.

With reference to the year 2021, a total of 204,598 tons of CO2 emissions avoided on an annual basis have been quantified, thanks to the implementation of improvements on machinery. This is a truly significant reduction which, for the sake of comparison, corresponds to the carbon dioxide emissions generated by 36,864 automobiles travelling an average of 35,000 km a year. In terms of energy savings, the use of green labeled textile machinery has provided excellent performances in allowing for a reduction of up to 84% in consumption.

A round table discussion on the Green Label’s primary purpose
The environmental and economic impact generated in production processes for Italian textile machinery through the use of Green Label technologies was the focus of the round table which concluded the ACIMIT assembly.

Moderated by Aurora Magni (professor of the Industrial Systems Sustainability course at the LIUC School of Engineering), the debate involved Gianluca Brenna (Lipomo Printing House administrator and Vice President of the Italian Fashion System for Welfare), Pietro Pin (Benetton Group consultant and President of UNI for the textile-clothing area), Giorgio Ravasio (Italy Country Manager for Vivienne Westwood), as well as ACIMIT President Alessandro Zucchi.

Called on to compare common factors in their experiences relating to environmental transition processes for their respective companies, the participants were unanimous: the future of Italian textile machinery can no longer ignore advanced technology developments capable of offering sustainable solutions with a low environmental impact while also reducing production costs. This philosophy has by now been consolidated, and has proven to lead directly to a circular economy outlook.

The upcoming ITMA 2023 exhibition
Lastly, a word on ITMA 2023, the most important international exhibition for textile machinery, to be held in Italy from 8 to 14 June 2023 at Fiera-Milano Rho. Marking the 19th edition of ITMA, this trade fair is an essential event for the entire industry worldwide, providing a global showcase for numerous innovative operational solutions on display. A marketplace that offers participants extraordinary business opportunities. The participation of Italian companies is managed by ACIMIT.

(c) AkzoNobel
13.07.2022

AkzoNobel launches tool to drive bodyshop sustainability

Bodyshops can now take advantage of the vehicle refinish industry’s first repair calculator to measure, manage and reduce carbon emissions, which has been developed by AkzoNobel.

Designed to help customers improve their carbon footprint when using the company’s premium refinish products, the CO2eRepairCalculator* is part of a new initiative which aims to encourage bodyshops to become more sustainable.

The tool is the latest digital innovation from AkzoNobel focused on making a long-lasting difference to customers. It identifies the carbon levels associated with the painting and drying process – including the energy consumed – and is linked directly to the vehicle refinishing products being used. It also provides data relating to the emission of volatile organic compounds (VOCs), therefore helping customers to understand where improvements can be made.

When using the tool, the emissions and energy consumed are calculated based on a controlled two-panel repair in a spray booth to Greenhouse Gas Protocol accounting standards. The results are presented in an online dashboard, which allows local energy prices to be factored in.

Bodyshops can now take advantage of the vehicle refinish industry’s first repair calculator to measure, manage and reduce carbon emissions, which has been developed by AkzoNobel.

Designed to help customers improve their carbon footprint when using the company’s premium refinish products, the CO2eRepairCalculator* is part of a new initiative which aims to encourage bodyshops to become more sustainable.

The tool is the latest digital innovation from AkzoNobel focused on making a long-lasting difference to customers. It identifies the carbon levels associated with the painting and drying process – including the energy consumed – and is linked directly to the vehicle refinishing products being used. It also provides data relating to the emission of volatile organic compounds (VOCs), therefore helping customers to understand where improvements can be made.

When using the tool, the emissions and energy consumed are calculated based on a controlled two-panel repair in a spray booth to Greenhouse Gas Protocol accounting standards. The results are presented in an online dashboard, which allows local energy prices to be factored in.

The launch means it will now be easier for bodyshops to take positive action in an effort to meet their sustainability and carbon reduction targets. This is becoming increasingly important, as insurance companies are putting greater pressure on preferred bodyshop partners to cut their emissions in line with supply chain ambitions that meet the UN Sustainable Development Goals.

The CO2eRepairCalculator is currently being introduced in the UK market to Sikkens customers (with Lesonal to follow shortly). It will be rolled out across markets in Europe during the next few months.

*CO2e stands for carbon dioxide and equivalent gases. The tool measures carbon dioxide (CO2) and equivalent gases such as methane (CH4) and nitrous oxide (N2O), which all fall under the term greenhouse gases (GHGs).

More information:
AkzoNobel Coatings Automotive
Source:

AkzoNobel

ANDRITZ Nonwoven Wetlace CP-Linie Photo: Andritz
28.06.2022

ANDRITZ: First nonwovens pilot line for wipes with integrated wetlaid pulp process

International technology group ANDRITZ has established a new inline Wetlace™ CP pilot line with an original design at its center of competence in Montbonnot, France. The line combines both spunlace and wetlaid technologies.

From now on, partners will be able to conduct trials and test all options available for wipes production – from carded staple fibers to pulp and various combinations thereof. The combination of both spunlace and wetlaid technologies offers to move forward to more sustainable options while maintaining a high level of product quality, in particular by achieving high CD strength and good linting properties.

Over the past few decades, ANDRITZ has continued to innovate with various nonwoven processes, like spunlace, WetlaceTM and Wetlace™ CP, with the aim of optimizing the use of raw materials and focusing on sustainability by reducing the synthetic fiber content. Facing the growing demand for bio-wipes in parallel with enforcement of the EU’s single-use plastics directive last year, ANDRITZ has decided to support its customers making their investment decisions.

International technology group ANDRITZ has established a new inline Wetlace™ CP pilot line with an original design at its center of competence in Montbonnot, France. The line combines both spunlace and wetlaid technologies.

From now on, partners will be able to conduct trials and test all options available for wipes production – from carded staple fibers to pulp and various combinations thereof. The combination of both spunlace and wetlaid technologies offers to move forward to more sustainable options while maintaining a high level of product quality, in particular by achieving high CD strength and good linting properties.

Over the past few decades, ANDRITZ has continued to innovate with various nonwoven processes, like spunlace, WetlaceTM and Wetlace™ CP, with the aim of optimizing the use of raw materials and focusing on sustainability by reducing the synthetic fiber content. Facing the growing demand for bio-wipes in parallel with enforcement of the EU’s single-use plastics directive last year, ANDRITZ has decided to support its customers making their investment decisions.

The Montbonnot pilot line has been rebuilt to integrate the new headbox inside the spunlace line. Pulp can be fed in directly and entangled with carded staple fibers to produce unique nonwoven fabrics designed for end uses as bio-wipes.

Source:

Andritz

(c) Coperion GmbH
24.06.2022

Coperion: New Development for Plastic Fiber and Flake Recycling

With the goal of making recycling of lightweight, high-volume fiber and flake recyclate much more economical and, in some cases even possible, Coperion has developed a new version of its ZS-B side feeder. Using the innovative ZS-B MEGAfeed, plastic recyclate with a bulk density under 200 kg/m³, long considered intake-limited and thus not worth recycling, can be reliably fed in large quantities into Coperion’s ZSK twin screw extruder and be concurrently recycled and compounded.

The ZS-B side feeder’s novel design makes it possible to feed very high rates of fiber and flakes, such as PA, PE, PET, and PP. As a result, the ZSK twin screw extruder’s high capacity can be fully exploited when the ZS-B MEGAfeed is used. Very high throughputs in both mechanical and chemical recycling of post-industrial and post-consumer waste are achieved.

With the goal of making recycling of lightweight, high-volume fiber and flake recyclate much more economical and, in some cases even possible, Coperion has developed a new version of its ZS-B side feeder. Using the innovative ZS-B MEGAfeed, plastic recyclate with a bulk density under 200 kg/m³, long considered intake-limited and thus not worth recycling, can be reliably fed in large quantities into Coperion’s ZSK twin screw extruder and be concurrently recycled and compounded.

The ZS-B side feeder’s novel design makes it possible to feed very high rates of fiber and flakes, such as PA, PE, PET, and PP. As a result, the ZSK twin screw extruder’s high capacity can be fully exploited when the ZS-B MEGAfeed is used. Very high throughputs in both mechanical and chemical recycling of post-industrial and post-consumer waste are achieved.

Increased Throughput in Numbers
With a ZSK 58 Mc18 twin screw extruder, the throughput increase and thus the potential of the new ZS-B MEGAfeed becomes very clear. When recycling PA fibers with a bulk density of ~40-50 kg/m3, throughputs of 70 kg/h were previously achieved using conventional equipment. When the PA fibers were fed into the ZSK extruder using the ZS-B MEGAfeed, throughputs increased about fourteenfold to 1,000 kg/h. Similar results were achieved recycling carbon fibers with a bulk density of ~50-70 kg/m3; in this case, throughputs increased from 50 kg/h to 2,500 kg/h using the ZS-B MEGAfeed. When recycling PCR (Post-Consumer Recycled) flakes, throughputs increased from 50 kg/h to 700 kg/h, and from 80 kg/h to 1,300 kg/h with multilayer film flakes.

Key to Economical Recycling of A Wide Variety of Plastics
Plastics previously considered not recyclable are becoming a valuable raw material using the new Coperion ZS-B MEGAfeed. For example, PCR flakes or recyclate from carbon fiber-reinforced plastics can now be fed into the ZSK extruder at high feed rates and recycled economically.

In the case of mechanical upcycling, upstream processes necessary for compounding, such as compacting, melting and agglomeration, are completely eliminated using the ZS-B MEGAfeed technology. In this recycling process, flakes and fibers can be fed directly into the ZSK extruder, where they are melted, compounded, devolatilized, and filtered in a single step. In so doing, both investment costs and energy consumption drop. The production process becomes significantly more efficient. Moreover, the thermal product stress is reduced and recyclate quality increases.

Even when recycling PET, the feed rate is no longer a limiting factor. With the ZS-B MEGAfeed, PET flakes and fibers can be fed into the ZSK twin screw extruder in large quantities with no pre-drying or crystallizing, where they can be processed with the highest degree of profitability.

The ZS-B MEGAfeed can also feed large quantities of post-consumer waste, adding appreciable value to the chemical recycling process with the ZSKs. ZSK throughput rates are very high with the ZS-B MEGAfeed. Preheating of the recyclate via mechanical energy input of the twin screws thus becomes even more economical for further processing in the reactor.

Existing Coperion extruders can be retrofitted with ZS-B MEGAfeed technology to greatly expand their spectrum of applications and increase their throughput rates.

Source:

Coperion GmbH / Konsens Public Relations GmbH & Co. KG

(c) Bemberg™ by Asahi Kasei / C.L.A.S.S.
14.06.2022

Bemberg™ at Pitti Uomo 102 in partnership with MagnoLab

Bemberg™ is teaming up with MagnoLab, a network of Biella-based companies apt to carry out projects related to sustainability and circular economy, to create and display T-shirts that combine environmental responsibility and aesthetic research at the 102nd edition of Pitti Uomo.

Bemberg™ is used in shirts, cocktail dresses, dust coats, coordinates, outerwear and more by international brands operating in the fashion and luxury industries. To demonstrate its journey and evolution in contemporary style, Bemberg™ has collaborated with MagnoLab to develop a project that resulted in contemporary cut I-shirts presented both in sheer and blends with other certified fibers, including GOTS cottons and RWS wools, capable of enhancing both the hand of the final garment and the performance of the yarn.

Bemberg™ is teaming up with MagnoLab, a network of Biella-based companies apt to carry out projects related to sustainability and circular economy, to create and display T-shirts that combine environmental responsibility and aesthetic research at the 102nd edition of Pitti Uomo.

Bemberg™ is used in shirts, cocktail dresses, dust coats, coordinates, outerwear and more by international brands operating in the fashion and luxury industries. To demonstrate its journey and evolution in contemporary style, Bemberg™ has collaborated with MagnoLab to develop a project that resulted in contemporary cut I-shirts presented both in sheer and blends with other certified fibers, including GOTS cottons and RWS wools, capable of enhancing both the hand of the final garment and the performance of the yarn.

The project conceived for Pitti Uomo 102 stems from the spirit of Bemberg™ and fits perfectly into the philosophy of MagnoLab, whose mission is to carry out projects related to environmental responsibility through a joint and participatory approach of partners, and to create value by developing innovative products and processes with rapid testing cycles, according to a lean management model.

Source:

Bemberg™ by Asahi Kasei / C.L.A.S.S.

08.06.2022

TEXAID enables Circularity Project R[ECO]LLECT

TEXAID with its Spanish subsidiary PERCENTIL enable Springfield to put its commitment to sustainability into action through implementing a circularity pilot project with the aim of giving a second life to second-hand garments. As part of the Tendam Group, who operates more than 2000 stores in 79 countries, Springfield partners with the TEXAID group, leading in the industry of collecting, sorting, reselling and recycling used garments, to launch the R[ECO]LLECT initiative.

Take-Back Program R[ECO]LLECT
With "the future is circular" as their call to action, the project is called R[ECO]LLECT and refers directly to the collection of all second-hand garments in good condition, to meet three clear sustainability objectives of Springfield: reduce the pressure on natural resources, reduce CO2 emissions and reduce the amount of textile waste.

R[ECO]LLECT was launched in May 2022 as a pilot project in 16 Springfield stores in Spain across different cities and provinces.

TEXAID with its Spanish subsidiary PERCENTIL enable Springfield to put its commitment to sustainability into action through implementing a circularity pilot project with the aim of giving a second life to second-hand garments. As part of the Tendam Group, who operates more than 2000 stores in 79 countries, Springfield partners with the TEXAID group, leading in the industry of collecting, sorting, reselling and recycling used garments, to launch the R[ECO]LLECT initiative.

Take-Back Program R[ECO]LLECT
With "the future is circular" as their call to action, the project is called R[ECO]LLECT and refers directly to the collection of all second-hand garments in good condition, to meet three clear sustainability objectives of Springfield: reduce the pressure on natural resources, reduce CO2 emissions and reduce the amount of textile waste.

R[ECO]LLECT was launched in May 2022 as a pilot project in 16 Springfield stores in Spain across different cities and provinces.

TEXAID’s Spanish subsidiary PERCENTIL is a strategic partner of Springfield in this step towards sustainability. The motto of PERCENTIL is that "there is nothing more sustainable than what you already have in your closet", and it is an intermediary between people who want to get rid of clothes and those who are looking to buy almost new clothes from brands recognized for their design and quality, but at a much lower price. In this way, textile overproduction is reduced, and the environmental impact is reduced. In addition, PERCENTIL receives the clothes, sorts them and takes care of giving them a second life.

More information:
Texaid Springfield circularity
Source:

Texaid

10.05.2022

Stahl releases annual ESG report with focus on sustainability and transparency

Stahl, an active proponent of responsible chemistry, has published its 2021 Environment, Social, and Governance (ESG) Report. The report outlines the company’s sustainable development ambitions and its achievements over the year. It also features Stahl’s ambitious climate mitigation targets for 2030, such as the transition to more renewable feedstocks.

Stahl, an active proponent of responsible chemistry, has published its 2021 Environment, Social, and Governance (ESG) Report. The report outlines the company’s sustainable development ambitions and its achievements over the year. It also features Stahl’s ambitious climate mitigation targets for 2030, such as the transition to more renewable feedstocks.

The 2021 Stahl ESG Report is a cornerstone of Stahl’s commitment to reporting transparently on its progress toward a more sustainable chemicals value chain. This acknowledges the important role that industry must play in tackling climate change while enabling a higher quality of life for more people. A key focal point of the new report is a progress update on Stahl’s ESG Roadmap. Introduced last year, this ten-year plan outlines the company’s ESG commitments and targets for 2023 and 2030.
 
Climate action
Stahl is focused on mitigating climate change by reducing greenhouse gas (GHG) emissions from all activities over which it has influence. This includes investing in renewable energy and process efficiencies to lower the GHG emissions caused directly by Stahl’s own operations and the energy used to power them. On this point, progress was made toward the 2023 and 2030 targets in 2021, including a reduction in Scope 1 and 2 CO2 emissions of 15%. Also covered are Stahl’s indirect value-chain impacts, for example, from the raw materials it buys. Looking beyond Stahl’s direct environmental impacts and fostering greater supply-chain transparency will be vital for tackling emissions on a wider scale.

Creating responsible chemistry, together
In 2021, advances were made regarding the company’s diversity and safety targets, which are areas of continuous improvement. Stahl is committed to ensuring a safe working environment, as well as nurturing a diverse and inclusive workplace to continuously improve employee skills.

EcoVadis Gold rating
Fostering ethical behavior through exemplary leadership and governance is key to Stahl’s ambitions. Achieving the EcoVadis Gold rating was an important milestone in this respect. This well-established award reflects the company’s ongoing commitment to supply chain transparency and working with partners to improve the sustainability of its products and operations.

Source:

Stahl Holdings B.V.

22.04.2022

Haelixa marks and traces sustainable cotton from Costach and Creditex in Peru

Under the United Nations Economic Commission for Europe (UNECE) initiative to enhance transparency and traceability in the garment and footwear industry, Haelixa realizes a pilot project with Costach Cooperative and Peruvian textile company Creditex to give sustainable rural cotton producers in Peru more visibility in the value chain.

Under the United Nations Economic Commission for Europe (UNECE) initiative to enhance transparency and traceability in the garment and footwear industry, Haelixa realizes a pilot project with Costach Cooperative and Peruvian textile company Creditex to give sustainable rural cotton producers in Peru more visibility in the value chain.

In 2019, UNECE and United Nations Centre for Trade Facilitation and Electronic Business (UN/CEFACT) have set up an initiative to drive transparency and traceability for sustainable value chains in the garment and footwear industry. The initiative is jointly implemented with the International Trade Centre (ITC) with financial support by the European Union. Haelixa is proud to be part of the group of experts that develops policy recommendations, traceability standards, and conducts projects to set traceability benchmarks. With the support of the +Cotton Project, implemented by the Food and Agriculture Organization of the United Nations (FAO) and the Brazilian Cooperation Agency (ABC) a pilot is being realized in this context to mark and trace the finest Pima cotton for Creditex directly at the gin in Piura, Peru. Haelixa’s DNA marker connects the actual lint cotton to the entry on a blockchain system provided by UNECE. The Haelixa technology ensures that the information about the product’s origin and the journey of the product along the value chain is always safely embedded into the product itself. The marked cotton will be used to make exclusive pajamas sets for Cat´s Pajamas. DNA traceability will enable the verification of the premium origin of Peruvian Pima cotton in the final garment produced using sustainable practices by family farmers associated with the Costach cooperative.

Costach is the main cooperative of cotton farmers in Peru. The cooperative consists of 5,200 family farmers in the Piura region, producing mostly extra-long fiber of Pima Cotton. Since 2017, the +Cotton project has been supporting the farmers with training on sustainable practices and has been providing technical assistance for improved markets access.

Creditex is vertically integrated from cotton ginning to fine thread, up to the production of high quality apparel for international premium brands. The company takes social responsibility and environmental stewardship very seriously and therefore makes a strong partner for this project, empowering the cotton family farmers that hold the majority of cotton production in Peru.

Source:

Haelixa Ltd

(c) Officina+39
20.04.2022

Officina39 presents Trustainable™ collection FW 23 at Kingpins

Chemistry plus creativity” is Officina39’s new tagline expressing the most important values at the core of the company’s approach, founded on a deep understanding of sustainability. Embracing the “plus” that used to feature as part of the Officina39 logo, it now takes the shape of a true formula of innovation that echoes throughout the renovated brand look that the company is introducing for the first time at Kingpins.

The latest addition to the Trustainable™ collection is Aqualess Fade, a technology that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which is reducing resource consumption and environmental impact. This innovation completes and integrates Aqualess Mission, a combination of technologies that allows garment laundry processes to reduce 75% of the water use.

Chemistry plus creativity” is Officina39’s new tagline expressing the most important values at the core of the company’s approach, founded on a deep understanding of sustainability. Embracing the “plus” that used to feature as part of the Officina39 logo, it now takes the shape of a true formula of innovation that echoes throughout the renovated brand look that the company is introducing for the first time at Kingpins.

The latest addition to the Trustainable™ collection is Aqualess Fade, a technology that recreates the bleaching effect of chlorine on fabrics, a waterless special compound for the discoloration of denim on indigo/black garments which is reducing resource consumption and environmental impact. This innovation completes and integrates Aqualess Mission, a combination of technologies that allows garment laundry processes to reduce 75% of the water use.

Traditional systems usually use about 52 liters of water for a pair of jeans, while Officina39’s cutting-edge technology employs only 12.5 liters without affecting the quality of the final product. Until now, the process included three eco-friendly technologies: Novascraper Indigo, a laser finishing technique that adds a natural, vintage look to denim garments; OZ-ONE Powder, an advanced product to give garments a bleached yet eco-friendly treatment, for a worn and distressed look; and Aqualess Aged, a waterless compound to give denim abrasion effects.

“In our field, the word “less” is to be found pretty much everywhere you look: less water, less energy, less impact and the list goes on. So I asked myself if we could work on implementing the word “plus” in this collection.” stated Stefano Parrotta, Officina39 Technical Manager. “And the answer, of course, was yes: we thought of all the ways in which the idea of more (plus) best represents what we do – more passion, more creativity, more collaboration, more inspiration, more Officina39. I think it is important to look for what the industry needs more of and the word “plus” perfectly embodies that!”

Source:

Officina+39

Photo: Pixabay
30.03.2022

EURATEX comments “Strategy for Sustainable Textile” calling for a realistic implementation

Today, March 30, the European Commission released its long-awaited Strategy for Sustainable Textile, with the ambition to move the sector towards the path of sustainability. EURATEX welcomes the EU ambitions to act on sustainable textiles and investments, in order to change how textiles are made, chosen and recovered, but calls for a smart and realistic implementation. Many European companies have already chosen this path, therefore the strategy should support them in this process, especially considering today’s energy crisis.

The strategy recognises the strategic importance of textiles, which are not only used as apparel or furniture, but applied in cars, medical equipment, agriculture, etc. It acknowledges the European Industry pro-active initiatives to tackle microplastics, to solve challenges of market surveillance and the skills needs. More cooperation is needed for re-use and recycling of textiles and to set up an EU market for secondary raw materials. On this last point, EURATEX ReHubs initiative is developing proposals to size EPR potential, to transform waste into value, and create a new capacity and jobs.

Today, March 30, the European Commission released its long-awaited Strategy for Sustainable Textile, with the ambition to move the sector towards the path of sustainability. EURATEX welcomes the EU ambitions to act on sustainable textiles and investments, in order to change how textiles are made, chosen and recovered, but calls for a smart and realistic implementation. Many European companies have already chosen this path, therefore the strategy should support them in this process, especially considering today’s energy crisis.

The strategy recognises the strategic importance of textiles, which are not only used as apparel or furniture, but applied in cars, medical equipment, agriculture, etc. It acknowledges the European Industry pro-active initiatives to tackle microplastics, to solve challenges of market surveillance and the skills needs. More cooperation is needed for re-use and recycling of textiles and to set up an EU market for secondary raw materials. On this last point, EURATEX ReHubs initiative is developing proposals to size EPR potential, to transform waste into value, and create a new capacity and jobs.

The proposed “transition pathways”, which will translate the strategy into action, will be critical in this respect: how will these sustainability targets be reached, what will the cost for SMEs be, how can companies be supported in that green transition, what about the impact on global competitiveness? These are essential questions to be addressed in the coming months.
The Textile strategy is part of much broader package, including as many as 16 new legislative actions and other policies which will directly impact on textile value chain. In particular the Sustainable Product Initiative Regulation released on March, 30 includes game-changing provisions on Digital Product Passport, Eco-Design, SMEs and Green Public Procurement.  The Regulation has an overwhelming ambition and, to be realistic, it would require a new way of joint working between institutions and business, and which builds on lessons learned on data flow across value chains, interoperability, conformity assessment and effective measures to support SMEs.

If wrongly implemented, such an unprecedented wave may cause a complete collapse of the European textile value chain under the burden of restrictions, requirements, costs and unlevel playing field. On the contrary, the changes ahead can boom the entire textile ecosystem and create a model of successful green and digital transition in manufacturing, which starts in Europe and expands globally.

Already in 2019, EURATEX asked policy makers to work together and remove barriers to circular economy, solve the market surveillance paradox in which laws are made but not checked, and to help create scale economies to make sustainable textiles affordable, hence the norm.

For example, there are 28 billion products circulating per year in EU, which is an impressive task for market surveillance authorities including customs. EURATEX has been stressing non-sufficient market surveillance and it is actively working on solutions for a fair and effective market surveillance of textile products through Reach4Textiles. EURATEX very much welcomes that the European Commission recognizes our work and the need for market surveillance by establishing more harmonised efforts in the EU.

EURATEX also welcomes the establishment of the Digital Product Passport. It has a high potential to improve every step in the textile value chain, from design and manufacturing to recycling and purchasing. At the same time, EURATEX calls the co-legislators to take into account the role of SME’s in this transition and to put forward pragmatic initiatives, supporting SME’s across the EU in a systematic approach.

Alberto Paccanelli, EURATEX President, concludes: EURATEX calls for true cooperation with all policy makers and other stakeholders across the value chains to advise, pressure-test and use this opportunity for a successful transition. Our ambition must be to reconcile sustainability, resilience and competitiveness; we know it can be done”.

Source:

EURATEX

30.03.2022

ISKO™ signs Dutch Denim Deal

ISKO has signed the Dutch Denim Deal for circular denim. The Denim Deal, a public-private initiative, was launched by the Dutch government following the EU Green Deal and the Circular Action Plan and includes agreements to make the denim textile chain more circular. In the deal, more than 40 parties, such as Scotch & Soda, PVH and Soorty, are working together to improve post-consumer textiles in the denim industry and make fiber recycling the new norm. The signatories cover a wide range of manufacturing companies, brands and stores, collectors, sorters, cutters, and weavers.

The main objective is to collectively produce a total of 3 million jeans with (a minimum of 20%) post-consumer recycled cotton (PCR) by the end of 2023. In addition, all parties have agreed that they will work together towards the standard of at least 5% recycled textiles in all denim garments as quickly as possible. The Denim Deal is also an opportunity to set up a 'reverse supply chain' for recycled cotton and create a systemic change to close the denim cycle.

ISKO has signed the Dutch Denim Deal for circular denim. The Denim Deal, a public-private initiative, was launched by the Dutch government following the EU Green Deal and the Circular Action Plan and includes agreements to make the denim textile chain more circular. In the deal, more than 40 parties, such as Scotch & Soda, PVH and Soorty, are working together to improve post-consumer textiles in the denim industry and make fiber recycling the new norm. The signatories cover a wide range of manufacturing companies, brands and stores, collectors, sorters, cutters, and weavers.

The main objective is to collectively produce a total of 3 million jeans with (a minimum of 20%) post-consumer recycled cotton (PCR) by the end of 2023. In addition, all parties have agreed that they will work together towards the standard of at least 5% recycled textiles in all denim garments as quickly as possible. The Denim Deal is also an opportunity to set up a 'reverse supply chain' for recycled cotton and create a systemic change to close the denim cycle.

Although the denim industry still has a negative image due to its high carbon footprint, in recent years many good steps have been taken in the field of recycling. But these steps are on a small scale, limiting the overall impact.
"The Dutch Denim Deal fits perfectly into ISKO's circular strategy," says Marc Lensen, ISKO Head of Global Communication. "Our scale and knowledge of sustainable technological solutions will increase the overall impact and accelerate circularity in the denim chain.”

Source:

ISKO / Menabò Group

24.03.2022

Polyester recycling: Thai Polyester ordered four VacuFil recycling systems from BB Engineering

BB Engineering GmbH (Germany), a subsidiary of Oerlikon Textile, is pleased to announce that Thai Polyester Co., Ltd (Thailand) has placed a major order for four VacuFil systems for recycling bottle flakes with connected direct spinning. The polyester manufacturer, established in 2001 and with an overall annual capacity of 316,800 tons, is one of Thailand’s leading producers and exclusively uses German technology. To this end, the company already operates Oerlikon Barmag and Oerlikon Neumag systems. The BB Engineer-ing VacuFil systems will be deployed to convert existing spinning plant equipment from processing polyester to processing PET bottle flakes without loss of performance.

BB Engineering GmbH (Germany), a subsidiary of Oerlikon Textile, is pleased to announce that Thai Polyester Co., Ltd (Thailand) has placed a major order for four VacuFil systems for recycling bottle flakes with connected direct spinning. The polyester manufacturer, established in 2001 and with an overall annual capacity of 316,800 tons, is one of Thailand’s leading producers and exclusively uses German technology. To this end, the company already operates Oerlikon Barmag and Oerlikon Neumag systems. The BB Engineer-ing VacuFil systems will be deployed to convert existing spinning plant equipment from processing polyester to processing PET bottle flakes without loss of performance.

BB Engineering supplies the complete recycling process – from the drying stage and extrusion, all the way through to the spinning plant-appropriate fine filtration stage. Thanks to decades of experi-ence in spinning plant technology, the German machine construc-tor also provides comprehensive spinning plant know-how and is aware of how the recycling process must be designed to ensure that the product manufactured using the spinning plant ultimately has the right quality. The four new VacuFil systems will be integrated into the existing building infrastructure and process landscape at Thai Polyester, with a total output of approx. 4,000 kg/h. The Vacu-Fil systems will be complemented by BB Engineering 3DD mixers for directly feeding dyes into the recycled melt flow. Commissioning has been scheduled for 2023.

Thai Polyester will be using the new VacuFil systems to manufac-ture its ‘EcoTPC’ recycling-brand yarns. 100% of these polyester yarns are produced from bottle, fiber and yarn waste and are all GRS certified.

Source:

BB Engineering