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Carbios published Sustainability Report for 2022 (c) Carbios
29.12.2023

Carbios published 2022 Sustainability Report

CARBIOS published its second Sustainability Report with 2022 as the reference year. Like the first, this report is not subject to any publication obligation for the company, confirms CARBIOS' commitment and desire for transparency in terms of environmental, social and governance (ESG) initiatives.

In 2022, several objectives were achieved:

CARBIOS published its second Sustainability Report with 2022 as the reference year. Like the first, this report is not subject to any publication obligation for the company, confirms CARBIOS' commitment and desire for transparency in terms of environmental, social and governance (ESG) initiatives.

In 2022, several objectives were achieved:

  • Increase of the number of independent directors on the Board of Directors,
  • Completion of the first carbon footprint report to sustainably reduce greenhouse gas emissions,
  • Consolidation of the life cycle analysis (LCA) of the PET enzymatic depolymerization process,
  • Continuation of employee training in safety and environmental issues.

In October 2023, CARBIOS appointed Bénédicte Garbil as Senior Vice President of Corporate Affairs and Sustainability: "In 2022, CARBIOS strengthened its governance, building a solid foundation for our continued growth and commitment to Corporate Social Responsibility (CSR). This strategic development demonstrates our commitment to operational excellence and transparency. We have integrated the principles of sustainability, ethics and environmental responsibility at the heart of our governance, putting CSR at the forefront of our actions."

Source:

Carbios

23.06.2023

DOMO Chemicals publishes sustainability report

DOMO Chemicals, a global leader in polyamide-based engineered material solutions and services, has published its latest annual Sustainability Report, detailing progress on its sustainability journey, including notable reductions in greenhouse gas emissions. DOMO’s mission is to engineer polyamide solutions that contribute to a better, more sustainable world. In publishing its second annual Sustainability Report, DOMO enters a new phase in its decarbonization quest, with confidence in its long-term aspiration to set the standard for sustainability in the industry by 2030.

Notably, the Sustainability Report details DOMO’s achievements in 2022 toward realizing its 2030 sustainability goals. In terms of decarbonization and broader environmental achievements, against a 2019 baseline, the company:

DOMO Chemicals, a global leader in polyamide-based engineered material solutions and services, has published its latest annual Sustainability Report, detailing progress on its sustainability journey, including notable reductions in greenhouse gas emissions. DOMO’s mission is to engineer polyamide solutions that contribute to a better, more sustainable world. In publishing its second annual Sustainability Report, DOMO enters a new phase in its decarbonization quest, with confidence in its long-term aspiration to set the standard for sustainability in the industry by 2030.

Notably, the Sustainability Report details DOMO’s achievements in 2022 toward realizing its 2030 sustainability goals. In terms of decarbonization and broader environmental achievements, against a 2019 baseline, the company:

  • Reduced scope 1 and 2 greenhouse gas emissions by 27%, making significant progress toward its target of 40% reduction by 2030 and carbon neutrality by 2050
  • Increased renewable electricity throughout operations to 12%
  • Reduced waste by 24%
  • Lowered water intake by 4.5%

In addition, as a provider of polyamide-based sustainable and circular solutions, DOMO:

  • Achieved more than 11% of engineered materials sales based on sustainable feedstock, making excellent progress toward its 2030 target of 20%
  • Allocated 25% of research and development resources to enhanced recycling

Moreover, fostering talent and ensuring the well-being of its workforce as a responsible employer is essential for sustainable growth, and 2022 highlights include:

  • Increased share of women in senior positions from 22% in 2021 to 30% in 2022
  • Providing a safe and inclusive working environment that encourages personal and professional development as well as a global safety culture
Source:

DOMO Chemicals

(c) TNO/Fraunhofer UMSICHT
02.06.2023

Fraunhofer: New guide to the future of plastics

How does a future-proof, circular and sustainable plastics economy look like? The answer is a balance ranging from plastics reduction to a sustainable use of recyclable plastics. After all, the increasing demand for plastics in high-value applications such as food packaging, car parts or synthetic textiles requires a holistic change. With four strategic approaches, researchers from the German institute Fraunhofer UMSICHT and the Dutch institute TNO now provide insights into how this future scenario could look like in their recently published white paper "From #plasticfree to future-proof plastics". Both organizations also start a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP aimed at removing existing barriers and sharing of promising solutions.

How does a future-proof, circular and sustainable plastics economy look like? The answer is a balance ranging from plastics reduction to a sustainable use of recyclable plastics. After all, the increasing demand for plastics in high-value applications such as food packaging, car parts or synthetic textiles requires a holistic change. With four strategic approaches, researchers from the German institute Fraunhofer UMSICHT and the Dutch institute TNO now provide insights into how this future scenario could look like in their recently published white paper "From #plasticfree to future-proof plastics". Both organizations also start a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP aimed at removing existing barriers and sharing of promising solutions.

Versatile and inexpensive materials with low weight and very good barrier properties: That's what plastics are. In addition to their practical benefits, however, the materials are also associated with a significant share of mankind's greenhouse gas emissions. The production and use of plastics cause environmental pollution and microplastics, deplete fossil resources and lead to import dependencies. At the same time, alternatives - such as glass packaging - could cause even more environmental burden or have poorer product properties.

Researchers from TNO and Fraunhofer UMSICHT have elaborated a white paper that provides a basis for the transformation of plastics production and use. They consider the integration of the perspectives of all stakeholders and their values and the potential of current and future technologies. In addition, the functional properties of the target product, the comparison with alternative products without plastics, and their impact in a variety of environmental, social and economic categories over the entire life cycle are crucial. In this way, a systematic assessment and ultimately a systematic decision as to where we can use, reject or replace plastics can be realized.

Strategies for the Circular Economy
As a result, the researchers describe four strategic approaches for transforming today's largely linear plastics economy into a fully circular future: Narrowing the Loop, Operating the Loop, Slowing the Loop, and Closing the Loop. By Narrowing the Loop, the researchers recommend, as a first step, to reduce the amount of materials mobilized in a circular economy. Operating the Loop refers to using renewable energy, minimizing material losses, and sourcing raw materials sustainably. For Slowing the Loop, measures are needed to extend the useful lifetime of materials and products. Finally, for Closing the Loop, plastics must be collected, sorted and recycled to high standards.

Individual strategies fall under each of the four approaches. While the ones under Operating the Loop (O strategies) should be applied in parallel and as completely as possible. According to the researchers, the decision for the strategies in the other fields (R strategies) requires a complex process: “Usually, more than one R-strategy can be considered for a given product or service. These must be carefully compared in terms of their feasibility and impact in the context of the status quo and expected changes”, explains Jürgen Bertling from Fraunhofer UMSICHT. The project partners have therefore developed a guiding principle for prioritization based on the idea of the waste hierarchy.

A holistic change, as we envision it, can only succeed if science, industry, politics and citizens work together across sectors. “This implies several, partly quite drastic changes at 4 levels: legislation and policy, circular chain collaboration, design and development, and education and information. For instance, innovations in design and development include redesign of polymers to more oxygen rich ones based on biomass and CO2 utilisation. Current recycling technologies have to be improved for high quantity and quality recycling,” explains Jan Harm Urbanus from TNO.

Hands-on platform for cross-sector collaboration
“Therefore, in a next step, TNO and Fraunhofer UMSICHT are building a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP," explains Esther van den Beuken, Principal Consultant from TNO. It will give companies, associations and non-governmental organizations the opportunity to work together on existing barriers and promising solutions for a Circular Plastics Economy. The platform will also offer its members regular hands-on workshops on plastics topics, roundtable discussions on current issues, and participation in multi-client studies on pressing technical challenges. Regular meetings will be held in the cross-border region of Germany and the Netherlands as well as online. The goal is to bring change to the public and industry.

Source:

Fraunhofer UMSICHT

08.11.2022

Ascend buys majority stake in recycler Circular Polymers

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

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

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

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

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

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

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

Source:

Ascend Performance Materials / EMG

02.09.2022

RGE: Closed-loop urban-fit textile-to-textile recycling solutions in Singapore

  • Aims to tackle the immense textile waste generated in urban environments, on the back of import bans of waste materials
  • Addresses the shortcomings of current textile recycling technologies, which are unsuitable for urban settings due to the use of heavy chemicals
  • Technologies developed by the newly-formed RGE-NTU Sustainable Textile Research Centre will be test-bedded in RGE’s pilot urban-fit textile recycling plant, projected for completion as early as 2024

Royal Golden Eagle (“RGE”), a global group of resource-based manufacturing companies, which includes a world-leading viscose fibre producers Sateri and Asia Pacific Rayon (APR), is developing urban-fit, closed-loop textile-to-textile recycling solutions, through the newly-formed RGE-NTU Sustainable Textile Research Centre (RGE-NTU SusTex). This is a five-year research collaboration between RGE and Nanyang Technological University, Singapore (“NTU”), to accelerate innovation in textile recycling that can be deployed in urban settings.

  • Aims to tackle the immense textile waste generated in urban environments, on the back of import bans of waste materials
  • Addresses the shortcomings of current textile recycling technologies, which are unsuitable for urban settings due to the use of heavy chemicals
  • Technologies developed by the newly-formed RGE-NTU Sustainable Textile Research Centre will be test-bedded in RGE’s pilot urban-fit textile recycling plant, projected for completion as early as 2024

Royal Golden Eagle (“RGE”), a global group of resource-based manufacturing companies, which includes a world-leading viscose fibre producers Sateri and Asia Pacific Rayon (APR), is developing urban-fit, closed-loop textile-to-textile recycling solutions, through the newly-formed RGE-NTU Sustainable Textile Research Centre (RGE-NTU SusTex). This is a five-year research collaboration between RGE and Nanyang Technological University, Singapore (“NTU”), to accelerate innovation in textile recycling that can be deployed in urban settings. The research centre will develop new technologies to recycle textile waste into fibre and create new, next-generation eco-friendly and sustainable textiles.

This move comes on the back of the tightening of waste import bans in countries such as China, India and Indonesia, which are among the world’s largest waste processors. The stricter import bans have left cities in need of viable local textile recycling solutions to tackle the immense textile waste generated.

RGE Executive Director, Mr Perry Lim, said, “Current textile recycling technologies, which rely primarily on a bleaching and separation process using heavy chemicals, cannot be implemented due to environmental laws. At the same time, there is an urgent need to keep textiles out of the brimming landfills.” He added, “As the world’s largest viscose producer, we aim to catalyse closed-loop, textile-to-textile recycling by developing optimal urban-fit solutions that can bring the world closer to a circular textile economy.”

Globally, an estimated 90 million tonnes of textile waste is generated and disposed of every year, with less than 1% being upcycled into new clothing or other textile materials. By 2030, the amount of global textile waste, which currently accounts for almost 10% of municipal solid waste, is expected to reach more than 134 million tonnes. The textile industry is also responsible for 10% of global greenhouse gas emissions – more than international flights and maritime shipping combined.

At present, most of the available textile recycling technologies are open-loop, where textile waste is typically downcycled to lower-quality products (insulating materials, cleaning cloths, etc.) or be used in waste-to-heat recycling.

“Closed-loop textile-to-textile recycling processes, particularly chemical recycling, are still under development. Scaling up the technologies to industrial scale remains a challenge. A key bottleneck is that refabricating textile waste into fibre needs purity standards for feedstock. However, most of the clothes that we wear are made of a mixture of different synthetic and natural fibres, which makes separating the complex blends of materials challenging for effective recycling.

“Our aim is to address this industry pain point by developing viable solutions that use less energy, fewer chemicals and produces harmless and less effluents, and then potentially scale up across our global operations,” Mr Lim said.

To tackle the key challenges in closed-loop textile recycling, RGE-NTU SusTex is looking into four key research areas, namely cleaner and more energy efficient methods of recycling into new raw materials, automated sorting of textile waste, eco-friendly dye removal, and development of a new class of sustainable textiles that is durable for wear and, at the same time, lends itself to easier recycling.

Technologies developed by RGE-NTU SusTex will be test bedded at RGE’s pilot urban-fit textile recycling plant in Singapore, which is projected for completion as early as 2024. If successful, RGE has plans to replicate the plant in other urban cities within its footprint.

 

Source:

Royal Golden Eagle

08.07.2022

Bluesign announces expanded services

  • Goal: to further reduce the textile value chain’s impact on people and planet      

As the textile industry continues to grapple with evolving regulations, increased consumer and stakeholder pressure to meet sustainability goals, and the lack of verified data, bluesign® has updated its service offerings to help brands, manufacturers and chemical companies to better understand and manage their value chains.

The new initiatives expand Bluesign’s core competencies of reducing impact across the supply chain, providing reliable, third-party verified data, mitigating the use of hazardous chemicals through input stream management and replacing substances with bluesign® APPROVED chemistry (a positive list of chemical products with less impact on people and planet). Bluesign’s high value services are available for all companies willing to reduce the impact of their value chain without compromising on quality.     

  • Goal: to further reduce the textile value chain’s impact on people and planet      

As the textile industry continues to grapple with evolving regulations, increased consumer and stakeholder pressure to meet sustainability goals, and the lack of verified data, bluesign® has updated its service offerings to help brands, manufacturers and chemical companies to better understand and manage their value chains.

The new initiatives expand Bluesign’s core competencies of reducing impact across the supply chain, providing reliable, third-party verified data, mitigating the use of hazardous chemicals through input stream management and replacing substances with bluesign® APPROVED chemistry (a positive list of chemical products with less impact on people and planet). Bluesign’s high value services are available for all companies willing to reduce the impact of their value chain without compromising on quality.     

Bluesign is extending its System Partnership services and launching DATA SERVICES and IMPACT SERVICES for brands and manufacturers. These tiered service packages provide expanded capabilities that enable brands to actively monitor and manage their supply chain through Bluesign verified impact data, covering the critical measures of water consumption, energy consumption, greenhouse gas emissions, chemical consumption, and waste.

DATA SERVICES allow brands and manufacturers to access data from its unique supply chain and give a snapshot of their impact. Through the IMPACT SERVICE package, companies are provided this data plus a foundational assessment of its overall performance and detailed analysis of its suppliers.

The new IMPACT SERVICE enables manufacturers to present their achievements in impact reduction and their excellence in resource management.  The new tiered packages will allow companies to incrementally implement Bluesign’s services with the ultimate goal of attaining full SYSTEM PARTNERSHIP which includes company-specific action plans. At all service levels, a yearly impact report or dashboard is provided; access to this data enables accurate analysis for decision-making and reporting both internally and externally.

More information:
bluesign® bluesign
Source:

Bluesign

05.07.2022

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

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

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

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

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

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

Source:

Stahl Holdings B.V.

21.06.2022

First comprehensive sustainable chemistry index for the textile industry

  • Bluesign announces partnership with SCTI

Bluesign has teamed up with Sustainable Chemistry for the Textile Industry (SCTITM) to develop a sustainable chemistry index that shall provide a standard communication guide for chemical suppliers, manufacturers, brands, and NGOs.

The first-of-its-kind index is intended to inspire change in the industry by making it easier for stakeholders to assess the sustainability of textile chemical products against the highest standards while safeguarding the intellectual property (IP) of participating chemical companies. IP protection is critical to ensuring ongoing investment in sustainable solutions.

Chemical products, such as dyes and textile auxiliaries, are often characterized with the attribute of “free of a certain substance”. Rather than prioritizing ingredients only, the bluesign® SYSTEM already goes beyond this. The chemicals and the production site where they were created must meet certain criteria regarding environmental performance, occupational health and safety, and product stewardship performance to be bluesign® APPROVED.

  • Bluesign announces partnership with SCTI

Bluesign has teamed up with Sustainable Chemistry for the Textile Industry (SCTITM) to develop a sustainable chemistry index that shall provide a standard communication guide for chemical suppliers, manufacturers, brands, and NGOs.

The first-of-its-kind index is intended to inspire change in the industry by making it easier for stakeholders to assess the sustainability of textile chemical products against the highest standards while safeguarding the intellectual property (IP) of participating chemical companies. IP protection is critical to ensuring ongoing investment in sustainable solutions.

Chemical products, such as dyes and textile auxiliaries, are often characterized with the attribute of “free of a certain substance”. Rather than prioritizing ingredients only, the bluesign® SYSTEM already goes beyond this. The chemicals and the production site where they were created must meet certain criteria regarding environmental performance, occupational health and safety, and product stewardship performance to be bluesign® APPROVED.

The sustainable chemistry index will be reserved for substances that offer transparency on a number of additional indicators including the chemical’s circularity viability, greenhouse gas emissions during production, and the source of the raw materials. The sustainable chemistry index will also require that the downstream use of the chemical is optimized, meaning, for example, that it promotes resource saving in textile finishing. Additionally, excellent corporate governance paired with well-defined environmental and social (ESG) goals will be a pre-condition.

SCTITM is an alliance of leading chemical companies that strives to empower the textile and leather industries to apply sustainable, state-of-the-art chemistry solutions that protect factory workers, local communities, consumers and the environment.

Bluesign will implement and manage the sustainable chemistry index as an independent authority with a holistic approach to helping companies throughout the textile supply chain improve their sustainability performance.

07.06.2022

EPTA World Pultrusion Conference 2022 explores composites sustainability

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

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

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

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

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

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

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

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

Source:

European Pultrusion Technology Association EPTA

(c) Beaulieu International Group
05.05.2022

B.I.G. Yarns at Clerkenwell Design Week with carpet tile collections

B.I.G. Yarns has secured its debut spot at the return of Clerkenwell Design Week (24-26 May 2022) and will showcase its sustainable contract flooring to carpet makers, architects and designers.

B.I.G. Yarns’ polyamide-based collections are high-performing with a strong emphasis on elevating design through remarkable colour contrasts and patterns: from bulk continuous filament (BCF) to twisted and heat-set yarns, one-colour to multi-colour, between 650 and 15000 dTex.

Designers can tap into the Class 33 resilience and various comfort levels of its one-step 3Ply Resilya, Softitude, and new two-step ColorMind solutions to meet application requirements, as well as access monthly inspiration care of #CatchtheColor. ColorMind offers yarn diversity to support a new level of design sophistication in high-end carpet segments. The ColorMind colour bank features predefined colours, always in stock, meaning short lead times. Manufacturers can also benefit from customized lot sizes and bobbin length, creating even more flexibility and design freedom.

B.I.G. Yarns has secured its debut spot at the return of Clerkenwell Design Week (24-26 May 2022) and will showcase its sustainable contract flooring to carpet makers, architects and designers.

B.I.G. Yarns’ polyamide-based collections are high-performing with a strong emphasis on elevating design through remarkable colour contrasts and patterns: from bulk continuous filament (BCF) to twisted and heat-set yarns, one-colour to multi-colour, between 650 and 15000 dTex.

Designers can tap into the Class 33 resilience and various comfort levels of its one-step 3Ply Resilya, Softitude, and new two-step ColorMind solutions to meet application requirements, as well as access monthly inspiration care of #CatchtheColor. ColorMind offers yarn diversity to support a new level of design sophistication in high-end carpet segments. The ColorMind colour bank features predefined colours, always in stock, meaning short lead times. Manufacturers can also benefit from customized lot sizes and bobbin length, creating even more flexibility and design freedom.

B.I.G. Yarns continues to extend its ranges to reduce fossil-carbon in the industry and encourage greater product circularity. Its EqoCycle PA6 yarns incorporate recycled content originating from recycled and regenerated PA6 and are fully recyclable, improving resource efficiency and other environmental benefits throughout the value chain. Carpet tufters can also contribute to a sustainable future through less use of fossil resources and reduced greenhouse gas emissions with EqoBalance yarns. Both ranges offer the same high-quality performance as virgin-based yarns.

Source:

Beaulieu International Group / EMG

Graphic: Global Fashion Agenda
17.03.2022

Global Fashion Agenda and UN Climate Change Secretariat join forces

Global Fashion Agenda (GFA), the non-profit organisation that fosters collaboration on sustainability in fashion to drive impact, has forged a new alliance with UN Climate Change secretariat (UNFCCC) to accelerate the fashion industry’s climate action.
 
The Fashion On Climate report projects that if the fashion industry does not accelerate its response to climate change, by 2030 it will produce around twice the volume of greenhouse gas emissions required to align with the Paris Agreement global warming pathways by 2050. With the urgent need for industry transformation, the new alliance between GFA and UNFCCC will accelerate the impact of the UN Fashion Industry Charter for Climate Action which aims to drive the fashion industry to net-zero emissions no later than 2050 in line with keeping global warming below 1.5 degrees.
 

Global Fashion Agenda (GFA), the non-profit organisation that fosters collaboration on sustainability in fashion to drive impact, has forged a new alliance with UN Climate Change secretariat (UNFCCC) to accelerate the fashion industry’s climate action.
 
The Fashion On Climate report projects that if the fashion industry does not accelerate its response to climate change, by 2030 it will produce around twice the volume of greenhouse gas emissions required to align with the Paris Agreement global warming pathways by 2050. With the urgent need for industry transformation, the new alliance between GFA and UNFCCC will accelerate the impact of the UN Fashion Industry Charter for Climate Action which aims to drive the fashion industry to net-zero emissions no later than 2050 in line with keeping global warming below 1.5 degrees.
 
The collaboration will be activated around the organisations’ prestigious forums including GFA’s Global Fashion Summit and UNFCCC’s annual Conference of Parties (COP). Through these forums, the organisations will collaborate to unite fashion leaders and core stakeholders to facilitate knowledge sharing, impactful partnerships, and the implementation of bold actions needed to meet the Fashion Charter targets.
 
Global Fashion Summit: Copenhagen Edition 2022, the leading international forum for sustainability in fashion, will take place on 7-8 June in the grand setting of the Royal Opera House, Copenhagen, Denmark. Under the theme ‘Alliances For a New Era’ - the Summit will endeavour to form previously inconceivable alliances within the fashion industry and also examine atypical cross-industry alliances, in a bid to accelerate the transition to a net positive reality.
 
UNFCCC will, through the Fashion Charter, contribute to the Summit content, where they will share insights on its progress and what further solutions are needed. UNFCCC will also hold its annual Fashion Charter meeting at the Summit, where the organisations will convene relevant experts to join resources and discuss tools that can enable the sector to achieve its climate targets laid out in the charter. The alliance will also continue for future editions Global Fashion Summit in other locations, in addition to Copenhagen.
 
Beyond the Summit, GFA and UNFCCC will continue to work together to elevate publications and reports, such as the Fashion CEO Agenda, and inform Fashion Charter meetings during COP27 to raise awareness among leaders on the most pressing issues and priorities and urging commitments from industry leaders to drive change within social, environmental and circular dimensions.
 
Federica Marchionni, CEO, Global Fashion Agenda, says: “GFA is striving to create impactful alliances that can accelerate the fashion industry’s transition to a net zero reality. We are therefore thrilled to be collaborating with UNFCCC as its Fashion Charter is an essential tool to mobilise the necessary industry transformation. Through our collaboration, we hope to bring together core fashion stakeholders, foster pre-competitive collaboration and provide even deeper insights and guidance to advance progress.”
 
Niclas Svenningsen, Climate Action manager, UNFCCC, says, “We are excited for this opportunity to reinforce our collaboration with the Global Fashion Agenda. The climate crisis is today the paramount issue for the fashion sector to address. While the Fashion Charter brings together a wide range of stakeholders to work collaboratively on solutions, the Global Fashion Agenda is an important venue for broader sustainability discussions in the fashion sector. We see many opportunities for further strengthening and highlighting both the sustainability and the climate work through this collaboration.”

03.03.2022

Lenzing opens lyocell plant in Thailand

  • Project delivered on schedule and at budget after two and a half years of construction despite challenges arising from a global pandemic
  • New state-of-the-art lyocell plant with a capacity of 100,000 tons will help serve the growing demand for sustainably produced fibers
  • Important milestone towards a carbon-free future has been set

The Lenzing Group is pleased to announce the completion of its key lyocell expansion project in Thailand. The new plant, one of the largest of its kind in the world with a nameplate capacity of 100,000 tons per year, started production on schedule and will help to even better meet the increasing customer demand for TENCEL™ branded lyocell fibers. For Lenzing, the project also represents an important step towards strengthening its leadership position in the specialty fiber market and into a carbon-free future.

  • Project delivered on schedule and at budget after two and a half years of construction despite challenges arising from a global pandemic
  • New state-of-the-art lyocell plant with a capacity of 100,000 tons will help serve the growing demand for sustainably produced fibers
  • Important milestone towards a carbon-free future has been set

The Lenzing Group is pleased to announce the completion of its key lyocell expansion project in Thailand. The new plant, one of the largest of its kind in the world with a nameplate capacity of 100,000 tons per year, started production on schedule and will help to even better meet the increasing customer demand for TENCEL™ branded lyocell fibers. For Lenzing, the project also represents an important step towards strengthening its leadership position in the specialty fiber market and into a carbon-free future.

The construction of the plant located at Industrial Park 304 in Prachinburi, around 150 kilometers northeast of Bangkok, started in the second half of 2019 and proceeded largely according to plan, despite the challenges arising from the COVID-19 pandemic. The recruiting and onboarding of new employees has been successful. Investments (CAPEX) amounted to approx. EUR 400 mn.

“The demand for our wood-based, biodegradable specialty fibers under the TENCEL™, LENZING™ ECOVERO™ and VEOCEL™ brands is growing very well. In Asia in particular, we see huge growth potential for our brands based on sustainable innovation. With the production start of the lyocell plant in Thailand, Lenzing reached an important milestone in its growth journey, supporting our ambitious goal to make the textile and nonwoven industries more sustainable”, said Robert van de Kerkhof, Member of the Managing Board.

In 2019, Lenzing made a strategic commitment to reducing its greenhouse gas emissions per ton of product by 50 percent by 2030. The target is to be climate-neutral by 2050. Due to the established infrastructure, the site in Thailand can be supplied with sustainable biogenic energy and contribute significantly to climate protection.

Together with the key project in Brazil and the substantial investments at the existing sites in Asia, Lenzing is currently implementing the largest investment program in its corporate history (with more than approx. EUR 1.5 bn). Lenzing will continue to drive the execution of its strategic projects, which are to make a significant contri-bution to earnings from 2022.

Source:

Lenzing AG

Political Tailwind for Alternative Carbon Sources (c) Renewable Carbon Initiative
European Policy under the new green deal
22.12.2021

Political Tailwind for Alternative Carbon Sources

  • More than 30 leading pioneers of the chemical and material sector welcome the latest political papers from Brussels, Berlin and Düsseldorf

The political situation for renewable carbon from biomass, CO2 and recycling for the defossilisation of the chemical and materials industry has begun to shift fundamentally in Europe. For the first time, important policy papers from Brussels and Germany take into consideration that the term decarbonisation alone is not sufficient, and that there are important industrial sectors with a permanent and even growing carbon demand. Finally, the need for a sustainable coverage of this carbon demand and the realisation of sustainable carbon cycles have been identified on the political stage. They are elemental to the realisation of a sustainable chemical and derived materials industry.

  • More than 30 leading pioneers of the chemical and material sector welcome the latest political papers from Brussels, Berlin and Düsseldorf

The political situation for renewable carbon from biomass, CO2 and recycling for the defossilisation of the chemical and materials industry has begun to shift fundamentally in Europe. For the first time, important policy papers from Brussels and Germany take into consideration that the term decarbonisation alone is not sufficient, and that there are important industrial sectors with a permanent and even growing carbon demand. Finally, the need for a sustainable coverage of this carbon demand and the realisation of sustainable carbon cycles have been identified on the political stage. They are elemental to the realisation of a sustainable chemical and derived materials industry.

The goal is to create sustainable carbon cycles. This requires comprehensive carbon management of renewable sources, which includes carbon from biomass, carbon from Carbon Capture and Utilisation (CCU) – the industrial use of CO2 as an integral part – as well as mechanical and chemical recycling. And only the use of all alternative carbon streams enables a true decoupling of the chemical and materials sector from additional fossil carbon from the ground. Only in this way can the chemical industry stay the backbone of modern society and transform into a sustainable sector that enables the achievement of global climate goals. The Renewable Carbon Initiative’s (RCI) major aim is to support the smart transition from fossil to renewable carbon: utilising carbon from biomass, CO2 and recycling instead of additional fossil carbon from the ground. This is crucial because 72% of the human-made greenhouse gas emissions are directly linked to additional fossil carbon. The RCI supports all renewable carbon sources available, but the political support is fragmented and differs between carbon from biomass, recycling or carbon capture and utilisation (CCU). Especially CCU has so far not been a strategic objective in the Green Deal and Fit-for-55.

This will change fundamentally with the European Commission's communication paper on “Sustainable Carbon Cycles” published on 15 December. The position in the paper represents an essential step forward that shows embedded carbon has reached the political mainstream – supported by recent opinions from members of the European parliament and also, apparently, by the upcoming IPCC assessment report 6. Now, CCU becomes a recognised and credible solution for sustainable carbon cycles and a potentially sustainable option for the chemical and  material industries. Also, in the political discussions in Brussels, the term “defossilation” is appearing more and more often, complementing or replacing the term decarbonisation in those areas where carbon is indispensable. MEP Maria da Graça Carvahlo is among a number of politicians in Brussels who perceive CCU as an important future industry, putting it on the political map and creating momentum for CCU. This includes the integration of CCU into the new Carbon Removal Regime and the Emission Trading System (ETS).

As the new policy documents are fully in line with the strategy of the RCI, the more than 30 member companies of the initiative are highly supportive of this new development and are ready to support policy-maker with data and detailed suggestions for active support and the realisation of sustainable carbon cycles and a sound carbon management. The recent political papers of relevance are highlighted in the following.

Brussels: Communication paper on “Sustainable Carbon Cycles”
On 15 December, the European Commission has published the communication paper “Sustainable Carbon Cycles” . For the first time, the importance of carbon in different industrial sectors is clearly stated. One of the key statements in the paper is the full recognition of CCU for the first time as a solution for the circular economy, which includes CCU-based fuels as well. The communication paper distinguishes between bio-based CO2, fossil CO2 and CO2 from direct air capture when addressing carbon removal and it also announces detailed monitoring of the different CO2 streams. Not only CCU, but also carbon from the bioeconomy is registered as an important pillar for the future. Here, the term carbon farming has been newly introduced, which refers to improved land management practices that result in an increase of carbon sequestration in living biomass, dead organic matter or soils by enhancing carbon capture or reducing the release of carbon. Even though the list of nature-based carbon storage technologies is non-exhaustive in our view, we strongly support the paper’s idea to deem sustainable land and forest management as a basis for the bioeconomy more important than solely considering land use as a carbon sink. Surprisingly, chemical recycling, which is also an alternative carbon source that substitutes additional fossil carbon from the ground (i.e. carbon from crude oil, natural gas or from coal), is completely absent from the communication paper.

Berlin: Coalition paper of the new German Government: “Dare more progress – alliance for freedom, justice and sustainability”
The whole of Europe is waiting to see how the new German government of Social Democrats, Greens and Liberals will shape the German climate policy. The new reform agenda focuses in particular on solar and wind energy as well as especially hydrogen. Solar energy is to be expanded to 200 GW by 2030 and two percent of the country's land is to be designated for onshore wind energy. A hydrogen grid infrastructure is to be created for green hydrogen, which will form the backbone of the energy system of the future – and is also needed for e-fuels and sustainable chemical industry, a clear commitment to CCU. There is a further focus on the topic of circular economy and recycling. A higher recycling quota and a product-specific minimum quota for the use of recyclates and secondary raw materials should be established at European level. In the coalition paper, there is also a clear commitment to chemical recycling to be found. A significant change for the industry is planned to occur in regards to the so-called “plastic tax” of 80 cents per kilogram of non-recycled plastic packaging. This tax has been implemented by the EU, but most countries are not passing on this tax to the manufacturers and distributors, or only to a limited extent. The new German government now plans to fully transfer this tax over to the industry.

Düsseldorf: Carbon can protect the climate – Carbon Management Strategy North Rhine-Westphalia (NRW)
Lastly, the RCI highly welcomes North Rhine-Westphalia (NRW, Germany) as the first region worldwide to adopt a comprehensive carbon management strategy, a foundation for the transformation from using additional fossil carbon from the ground to the utilisation of renewable carbon from biomass, CO2 and recycling. For all three alternative carbon streams, separate detailed strategies are being developed to achieve the defossilisation of the industry. This is all the more remarkable as North Rhine-Westphalia is the federal state with the strongest industry in Germany, in particular the chemical industry. And it is here, of all places, that a first master plan for the conversion of industry from fossil carbon to biomass, CO2 and recycling is implemented. If successful, NRW could become a global leader in sustainable carbon
management and the region could become a blueprint for many industrial regions.

(c) ITA
16.12.2021

International Sustainable Aviation and Energy Society Award for Professor Thomas Gries

On 27 November 2021, the Scientific Award for International Sustainable Aviation and Energy Society (SARES Award) was awarded to Professor Dr Thomas Gries from the Institut für Textiltechnik of RWTH Aachen University. The award ceremony took place during the closing ceremony of the International Symposium on Sustainable Aviation (ISSA) in a hybrid format online and simultaneously at Kasetsart University, Bangkok, Thailand.
 
With the award, the committee recognised the ongoing contribution of Pro-fessor Gries and the Institut für Textiltechnik to the digitisation and bio-transformation of the textile sector, as well as the Institute as a place of innovation for sustainable aviation.

On 27 November 2021, the Scientific Award for International Sustainable Aviation and Energy Society (SARES Award) was awarded to Professor Dr Thomas Gries from the Institut für Textiltechnik of RWTH Aachen University. The award ceremony took place during the closing ceremony of the International Symposium on Sustainable Aviation (ISSA) in a hybrid format online and simultaneously at Kasetsart University, Bangkok, Thailand.
 
With the award, the committee recognised the ongoing contribution of Pro-fessor Gries and the Institut für Textiltechnik to the digitisation and bio-transformation of the textile sector, as well as the Institute as a place of innovation for sustainable aviation.

Examples of this include the development of 3D braided ceramic matrix composite components for aircraft engines, which were researched together with partners in a Horizon 2020 project (EU project AllOxITD). The ongoing Chrysomallos research project as another example, funded under the national aeronautics research programme in Germany, aims to develop a completely new and sustainable high-performance insulator for aircraft cabins based on aerogels. These have a significantly lower weight than the glass fibre mats used up to now, while providing the same insulation performance, and solve the problem of the previously high manufacturing costs of aerogels. The aim of the project is to develop an insulation material with reduced density (reduction of more than 20 percent). To this end, a new type of insulation material based on aerogel is to be developed. The basis is an aerogel fleece (0.06 W/mK at 28 kg/m³), which has already been developed as part of a dissertation at the Institut für Textiltechnik of RWTH Aachen University (Mroszczok, J.: 2019).

The aviation industry is one of the fastest growing industries in the world. Due to this fact and its importance for society and the global economy, it needs to make special efforts towards sustainability. The ISSA, an international multi-disciplinary symposium, aims to address current issues in aviation such as improving aircraft fuel efficiency, promoting the use of biofuels, minimising environmental impact, mitigating greenhouse gas emissions and reducing engine and aircraft noise. ^

Through the award, SARES honours scientists and researchers whose work on sustainable aviation issues has made an important contribution at the international level. The selection is based on the scientific publications of the applicant or nominee, the h-index, i.e. the key figure for the worldwide perception of a scientist in professional circles, the project topics and the project results.

22.11.2021

Sappi invests in Kirkniemi Mill on decarbonisation journey

Sappi has approved an investment in Kirkniemi Mill in Lohja, Finland which enables a switch in its energy sourcing to renewable bioenergy. With this investment the mill’s direct fossil greenhouse gas emissions will reduce by ca. 90 percent, which is equivalent to 230 000 tons of carbon dioxide annually.

The project, set for completion in early 2023, will contribute significantly to Sappi Europe’s decarbonisation roadmap by exiting coal at one of its last facilities partially using this fuel type. Biomass will then be used in Kirkniemi’s multi-fuel boiler, built in 2015. The move advances Sappi towards its 2025 targets which include reducing specific greenhouse gas emissions (scope 1 and 2) by 25 percent and increasing renewable energy share to 50 percent in Europe compared to 2019.

The investment will establish the equipment needed to receive, store and handle woody biomass like the bark, sawdust and wood chips used for biofuel production. Such biomass types are by-products from the forest-based industry and utilising them for energy production derives further value from the forest resource.

Sappi has approved an investment in Kirkniemi Mill in Lohja, Finland which enables a switch in its energy sourcing to renewable bioenergy. With this investment the mill’s direct fossil greenhouse gas emissions will reduce by ca. 90 percent, which is equivalent to 230 000 tons of carbon dioxide annually.

The project, set for completion in early 2023, will contribute significantly to Sappi Europe’s decarbonisation roadmap by exiting coal at one of its last facilities partially using this fuel type. Biomass will then be used in Kirkniemi’s multi-fuel boiler, built in 2015. The move advances Sappi towards its 2025 targets which include reducing specific greenhouse gas emissions (scope 1 and 2) by 25 percent and increasing renewable energy share to 50 percent in Europe compared to 2019.

The investment will establish the equipment needed to receive, store and handle woody biomass like the bark, sawdust and wood chips used for biofuel production. Such biomass types are by-products from the forest-based industry and utilising them for energy production derives further value from the forest resource.

In addition to increasing share of renewable energy, Sappi’s mills are also focused on reducing energy consumption. Sappi Kirkniemi Mill is party to Finland’s National Energy Efficiency Agreement and consistently reaches their energy saving targets. Kirkniemi’s ISO 50001 certification provides further evidence of the mill’s systematic improvement in energy efficiency.

Source:

Sappi Europe

09.11.2021

Alchemie Technology asks fashion industry to reduce emissions

Alchemie Technology, an innovator of low energy, waterless, textile dyeing and finishing technology, is calling on COP26 leaders to support the global fashion industry in the adoption of new manufacturing technology, which will dramatically reduce carbon emissions and fashion’s impact on climate change.

While the fashion industry is one of the most polluting on the planet, second only to oil and gas, and greenhouse gas emissions from textile dyeing at around 3% of global emissions outweigh that of all international flights and maritime shipping combined, it is an industry that can also reduce CO2 emissions the fastest, just by changing the way it dyes fabrics.  

Alchemie Technology, an innovator of low energy, waterless, textile dyeing and finishing technology, is calling on COP26 leaders to support the global fashion industry in the adoption of new manufacturing technology, which will dramatically reduce carbon emissions and fashion’s impact on climate change.

While the fashion industry is one of the most polluting on the planet, second only to oil and gas, and greenhouse gas emissions from textile dyeing at around 3% of global emissions outweigh that of all international flights and maritime shipping combined, it is an industry that can also reduce CO2 emissions the fastest, just by changing the way it dyes fabrics.  

Fabric dyeing is the most polluting part of fashion and activewear manufacturing, involving industrial scale dye baths and huge amounts of dye chemicals, steam, electrical power, and consequent high CO2 emissions.  Repeated washing of the dyed fabric, required to remove dye residue, is responsible for 20% of the world’s wastewater pollution and excess dye is discharged into waterways, affecting the health of some of the world’s poorest communities. In more regulated areas, water pollution is reduced through reliance on energy intensive water treatment plants.

However, an environmental step change can be achieved by adopting new digital technology that can dye fabrics with an 85% reduction in energy consumption and a dramatic 95% reduction of the 1.3 trillion litres of water currently used by the industry each year.

For example, dyeing one polyester shirt using current methods generates 4.5 litres of wastewater and produces 0.17 Kg of CO2, compared to low energy digital technology, which uses less than 0.2 litres of water and reduces carbon emissions to 0.03 Kg.  Multiply these numbers by the billions of garments dyed each year and the scale of the environmental problem, if nothing changes, is clear to see. Equally, the amount by which the textile industry can improve its carbon footprint is dramatic and can be done quickly if action is taken now.

Source:

Alchemie Technology Ltd

(c) Alchemie Technology
03.11.2021

COPS26: Governments support critical to help fashion industry reduce emissions the fastest

  • Alchemie Technology asks world leaders to cut energy and CO2 emissions from global fashion industry

Alchemie Technology, innovator of low energy, waterless, textile dyeing and finishing technology, is calling on COP26 leaders to support the global fashion industry in the adoption of new manufacturing technology, which will dramatically reduce carbon emissions and fashion’s impact on climate change.

While the fashion industry is one of the most polluting on the planet, second only to oil and gas, and greenhouse gas emissions from textile dyeing at around 3% of global emissions outweigh that of all international flights and maritime shipping combined, it is an industry that can also reduce CO2 emissions the fastest, just by changing the way it dyes fabrics.  

  • Alchemie Technology asks world leaders to cut energy and CO2 emissions from global fashion industry

Alchemie Technology, innovator of low energy, waterless, textile dyeing and finishing technology, is calling on COP26 leaders to support the global fashion industry in the adoption of new manufacturing technology, which will dramatically reduce carbon emissions and fashion’s impact on climate change.

While the fashion industry is one of the most polluting on the planet, second only to oil and gas, and greenhouse gas emissions from textile dyeing at around 3% of global emissions outweigh that of all international flights and maritime shipping combined, it is an industry that can also reduce CO2 emissions the fastest, just by changing the way it dyes fabrics.  

Fabric dyeing is the most polluting part of fashion and activewear manufacturing, involving industrial scale dye baths and huge amounts of dye chemicals, steam, electrical power, and consequent high CO2 emissions.  Repeated washing of the dyed fabric, required to remove dye residue, is responsible for 20% of the world’s wastewater pollution and excess dye is discharged into waterways, affecting the health of some of the world’s poorest communities. In more regulated areas, water pollution is reduced through reliance on energy intensive water treatment plants.

However, an environmental step change can be achieved by adopting new digital technology that can dye fabrics with an 85% reduction in energy consumption and a dramatic 95% reduction of the 1.3 trillion litres of water currently used by the industry each year.

For example, dyeing one polyester shirt using current methods generates 4.5 litres of wastewater and produces 0.17 Kg of CO2, compared to low energy digital technology, which uses less than 0.2 litres of water and reduces carbon emissions to 0.03 Kg.  Multiply these numbers by the billions of garments dyed each year and the scale of the environmental problem, if nothing changes, is clear to see.  Equally, the amount by which the textile industry can improve its carbon footprint is dramatic and can be done quickly if action is taken now.
Dr Simon Kew, Managing Director, Alchemie Technology comments “The technology now exists to enable the textile industry to make a significant contribution to helping meet the world’s net zero, climate change goals. But it requires the support of governments through investment, grants and legislation and the critical effort of brands, and their manufacturing supply chains to work together to make the change.”

Source:

Alchemie Technology

(c) Textile Exchange
17.08.2021

Textile Exchange: Preferred Fiber and Materials Market Report 2021 released

  • Textile Exchange report shows growth of preferred fiber and materials market needs to be accelerated
  • With post-pandemic fiber production increasing, the transition to preferred fibers and materials must be a non-negotiable decision, notes Textile Exchange.

According to a new Textile Exchange report, the market share for preferred fiber and materials grew significantly in 2020. The Preferred Fiber and Materials Market Report 2021 outlines the market for plant fibers such as cotton, hemp, and linen; animal fibers and materials such as wool, mohair, cashmere, alpaca, down, silk, and leather; manmade cellulosics (MMCFs) such as viscose, lyocell, modal, acetate, and cupro; as well as synthetics such as polyester, polyamide, and more.

  • Textile Exchange report shows growth of preferred fiber and materials market needs to be accelerated
  • With post-pandemic fiber production increasing, the transition to preferred fibers and materials must be a non-negotiable decision, notes Textile Exchange.

According to a new Textile Exchange report, the market share for preferred fiber and materials grew significantly in 2020. The Preferred Fiber and Materials Market Report 2021 outlines the market for plant fibers such as cotton, hemp, and linen; animal fibers and materials such as wool, mohair, cashmere, alpaca, down, silk, and leather; manmade cellulosics (MMCFs) such as viscose, lyocell, modal, acetate, and cupro; as well as synthetics such as polyester, polyamide, and more.

The report is a unique annual publication about global fiber and materials production, availability, and trends, including those associated with improved social and environmental impacts, referred to as ”preferred.” The comprehensive report includes quantitative data, industry updates, trend analysis and inspiring insights into the work of leading companies and organizations as they create material change.

The results show that between 2019 and 2020 the market share of preferred cotton increased from 24 to 30 percent and recycled polyester from 13.7 to 14.7 percent. Preferred cashmere increased from 0.8 to 7 percent of all cashmere produced while Responsible Mohair Standard certified fiber expanded from 0 to 27 percent of all mohair produced worldwide in its first year of existence in 2020. The market share of FSC and/or PEFC certified MMCFs increased to approximately 55-60 percent. While the market share of recycled MMCFs is only 0.4 percent, it is expected to increase significantly in the following years.

Brands’ increased interest in the use of preferred fibers and materials was also demonstrated by 75 percent increase in the total number of facilities (to 30,000) around the world becoming certified to the organization’s portfolio of standards in 2020. However, the report also notes that despite the increase, preferred fibers only represent less than one-fifth of the global fiber market. Less than 0.5 percent of the global fiber market was from pre- and post-consumer recycled textiles.

Indeed, global fiber production has almost doubled in the last 20 years from 58 million tonnes in 2000 to 109 million tonnes in 2020. While it is not yet clear how the pandemic and other factors will impact future development, global fiber production is expected to increase by another 34 percent to 146 million tonnes in 2030 if the industry builds back business as usual. If this growth continues, it will be increasingly difficult for the industry to meet science-based targets for climate and nature.

Textile Exchange aims to be the driving force for urgent climate action, and its Climate+ strategy calling for the textile industry to reduce greenhouse gas emissions by 45 percent by 2030 compared to a 2019 baseline in the pre-spinning phase of textile fiber and materials production, while also addressing other impact areas interconnected with climate such as water, biodiversity, and soil health.

Source:

Textile Exchange

Lenzing is on the path to climate-neutral production (c) Lenzing AG
27.05.2021

Lenzing is on the path to climate-neutral production

  • New air purification and sulfur recovery plant up and running at the Lenzing facility
  • Another step closer to meeting sustainability and climate targets
  • Self-sufficiency in raw materials further enhanced

Lenzing Group is continuing to make great strides toward achieving carbon neutrality across the Group. The successful completion and commissioning of an air purification and sulfur recovery plant at the Lenzing facility marks another milestone in the Group’s ambitious strategy. Lenzing has invested some EUR 40 mn in this project since construction began in 2019.

Using state-of-the-art technology, the plant will enable carbon emissions to be reduced by 15,000 metric tons at the Lenzing facility. This will also make the group more self-sufficient in securing vital raw materials for processing, which will bolster the site’s competitive standing in terms of sustainability.

  • New air purification and sulfur recovery plant up and running at the Lenzing facility
  • Another step closer to meeting sustainability and climate targets
  • Self-sufficiency in raw materials further enhanced

Lenzing Group is continuing to make great strides toward achieving carbon neutrality across the Group. The successful completion and commissioning of an air purification and sulfur recovery plant at the Lenzing facility marks another milestone in the Group’s ambitious strategy. Lenzing has invested some EUR 40 mn in this project since construction began in 2019.

Using state-of-the-art technology, the plant will enable carbon emissions to be reduced by 15,000 metric tons at the Lenzing facility. This will also make the group more self-sufficient in securing vital raw materials for processing, which will bolster the site’s competitive standing in terms of sustainability.

“As a result of this investment, Lenzing has made further progress towards implementing its climate targets, while achieving much greater autonomy with regard to one of its core raw materials”, says Christian Skilich, Member of the Managing Board at Lenzing Group.

In 2019, Lenzing set the strategic target of halving its group-wide greenhouse gas emissions per ton of product by 2030. Its goal for 2050 is to achieve climate neutrality.

Source:

Lenzing AG