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Graphic CHT Germany GmbH
28.02.2024

PERFORMANCE DAYS: CHT presents sustainable textile innovations

At the PERFORMANCE DAYS Functional Fabric Fair in Munich on 20 and 21 March 2024, CHT will present its latest sustainable textile technologies with a focus on dyeing and effect chemicals.

These products are used to finish textiles with special functions such as water repellency, breathability and efficient moisture transport. Significant amounts of water and energy can be saved during the dyeing and finishing process, resulting in a lower CO2 footprint.

In addition to effect chemicals, CHT will be presenting its dyeing products with a focus on the use of bio-based, biodegradable and recycled materials to support the circular economy.

At the PERFORMANCE DAYS Functional Fabric Fair in Munich on 20 and 21 March 2024, CHT will present its latest sustainable textile technologies with a focus on dyeing and effect chemicals.

These products are used to finish textiles with special functions such as water repellency, breathability and efficient moisture transport. Significant amounts of water and energy can be saved during the dyeing and finishing process, resulting in a lower CO2 footprint.

In addition to effect chemicals, CHT will be presenting its dyeing products with a focus on the use of bio-based, biodegradable and recycled materials to support the circular economy.

Source:

CHT Germany GmbH

Graphik CHT
08.08.2023

CHT Group publishes Sustainability Report 2022

The Sustainability Report 2022, which is now digitally available summarizes key ecological, economic, and social developments.
The report shows that the CHT Group has defined and anchored sustainability as an integral part of its corporate strategy.
 

  • The group of companies is pursuing the goal of becoming climate-neutral by 2045
  • At the end of 2021, the CHT Group subscribed to the Science Based Targets initiative (SBTi) to meet the targets of the Paris Climate Agreement and committed to the 1.5 °C target
  • 77 % of sales were achieved with sustainably classified products

The issue of sustainability has been anchored in the DNA of the internationally active foundation-owned group of companies for 70 years. No less an aspiration is derived from this than to support all customers with the most innovative, most sustainable products and solutions and thus to become the leading supplier of sustainable chemical products and solutions in all target markets.

The Sustainability Report 2022, which is now digitally available summarizes key ecological, economic, and social developments.
The report shows that the CHT Group has defined and anchored sustainability as an integral part of its corporate strategy.
 

  • The group of companies is pursuing the goal of becoming climate-neutral by 2045
  • At the end of 2021, the CHT Group subscribed to the Science Based Targets initiative (SBTi) to meet the targets of the Paris Climate Agreement and committed to the 1.5 °C target
  • 77 % of sales were achieved with sustainably classified products

The issue of sustainability has been anchored in the DNA of the internationally active foundation-owned group of companies for 70 years. No less an aspiration is derived from this than to support all customers with the most innovative, most sustainable products and solutions and thus to become the leading supplier of sustainable chemical products and solutions in all target markets.

"Climate neutrality" and comprehensive social responsibility  
In the implementation of the sustainability strategy of the CHT Group, the field of action "climate neutrality" takes a central role. The CHT Group has set itself the goal of being climate neutral both in its own production and in the supply chain from the year 2045. The path to climate neutrality by 2045 is illustrated in the report as part of the strategic goal.

In addition to climate protection, social responsibility is also a top priority for the CHT Group. The continuous improvement of health protection and occupational safety is a top priority for the company.

From CHT's point of view, qualified and committed employees make a significant contribution to the company's future success. For this reason, the CHT Group promotes the professional and personal development of its workforce to a high degree and invests in future-oriented and targeted training and further education of its workforce.

For the CHT Group, the respect for human rights is an indispensable pillar of the corporate culture and an essential part of the group-wide Code of Conduct. In 2022, the Human Rights Compliance Policy Statement was developed, and compliance processes and measures were put in place to prevent any violations and identify and mitigate human rights related risks.

 

More information:
CHT Group Sustainability Report
Source:

CHT Gruppe

05.06.2023

Resource-efficient dyeing solutions for sustainable PA fibers

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

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

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

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

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

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

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

More information:
CHT Evo by Fulgar Fulgar
Source:

CHT Germany GmbH

(c) 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

Photo CHT Gruppe
16.01.2023

CHT TEXTILE SOLUTIONS - Smart approaches to energy cost reduction and climate protection

Within its TEXTILE SOLUTIONS, the CHT Group has developed solution approaches for manufacturing companies in the textile value chain that have to use a lot of energy for their production. This is intended to compensate high energy costs and make a positive contribution to climate protection.Application specialists work with customers to develop individual savings potentials that are specifically tailored to the production facilities and requirements. Thus, depending on the process, fabric and machine, energy savings of up to 30% can be achieved with the use of innovative CHT textile auxiliaries, dyes/pigments and the corresponding process optimisations. In addition, the numerous concepts and optimally matched products can minimise water consumption or shorten the process time.


Energy-efficient cold bleaching instead of pad-steam bleaching processes in continuous pretreatment and the 4SUCCESS process for energy-efficient and resource-saving pretreatment and dyeing of cotton help to save energy. Likewise, the use of polymer binders, which do not require energy-intensive fixation, saves energy.

Within its TEXTILE SOLUTIONS, the CHT Group has developed solution approaches for manufacturing companies in the textile value chain that have to use a lot of energy for their production. This is intended to compensate high energy costs and make a positive contribution to climate protection.Application specialists work with customers to develop individual savings potentials that are specifically tailored to the production facilities and requirements. Thus, depending on the process, fabric and machine, energy savings of up to 30% can be achieved with the use of innovative CHT textile auxiliaries, dyes/pigments and the corresponding process optimisations. In addition, the numerous concepts and optimally matched products can minimise water consumption or shorten the process time.


Energy-efficient cold bleaching instead of pad-steam bleaching processes in continuous pretreatment and the 4SUCCESS process for energy-efficient and resource-saving pretreatment and dyeing of cotton help to save energy. Likewise, the use of polymer binders, which do not require energy-intensive fixation, saves energy.

Efficient pretreatment with the new polymer technology CPT (Comb Polymer Technology) achieves good cleaning effects even with low liquor ratios and thus less water to heat up. To save costs for energy-consuming heating, there is also the gentle low-temperature fixation in the easy care finishing. The OrganIQ EMS Jeans system enables jeans finishing with a reduced application temperature compared to standard processes.

With TIME BOOST, a process for fast polyester dyeing processes, not only significant energy but also time savings are achieved by omitting pre-washing and by shortening heating and migration times. SHORT CUT also leads to shorter process times when dyeing polyamide.

To avoid cost-intensive intermediate drying, the CHT Group offers the SCREEN-2-SCREEN with PRINTPERFEKT S2S which facilitates printing in a wet-on-wet technology.

In addition to numerous other products, the CHT Group also offers its customers digital tools to optimally support process optimizations. The "BEZAKTIV Soaping Advisor" calculation program within the CHT Textile Dyes app can be used to evaluate and improve dyeing and soaping processes in a simple and target-oriented way.

Source:

CHT Group

16.11.2022

CHT: From plastic waste to textile finishing: ARRISTAN rAIR

  • made out of recycled PET flakes and recyclable again
  • suited for finishing recycled yarns and fabrics
  • moisture management in sports and active wear

For the sustainable use of resources, the CHT Group has developed the product ARRISTAN rAIR, according to the principles of the circular economy. Here, plastic waste is converted into a valuable textile finishing product to achieve, for example, optimal moisture management in sports and active wear. Other areas of application include socks and tights in the clothing sector, filtration media and nonwovens in the technical textiles sector, and pillows and curtains in home textiles.

Since ARRISTAN rAIR is made out of recycled PET flakes, it is suited for finishing recycled yarns and fabrics which are subsequently recyclable again.

The hydrophilizing agent ARRISTAN rAIR is characterized by its fast-drying properties in combination with excellent soil release and thermoregulation. It therefore offers, especially in the field of functional textiles, optimal functionalities for high-quality and durable sportswear.

  • made out of recycled PET flakes and recyclable again
  • suited for finishing recycled yarns and fabrics
  • moisture management in sports and active wear

For the sustainable use of resources, the CHT Group has developed the product ARRISTAN rAIR, according to the principles of the circular economy. Here, plastic waste is converted into a valuable textile finishing product to achieve, for example, optimal moisture management in sports and active wear. Other areas of application include socks and tights in the clothing sector, filtration media and nonwovens in the technical textiles sector, and pillows and curtains in home textiles.

Since ARRISTAN rAIR is made out of recycled PET flakes, it is suited for finishing recycled yarns and fabrics which are subsequently recyclable again.

The hydrophilizing agent ARRISTAN rAIR is characterized by its fast-drying properties in combination with excellent soil release and thermoregulation. It therefore offers, especially in the field of functional textiles, optimal functionalities for high-quality and durable sportswear.

Source:

CHT Germany GmbH

(c) Fraunhofer CCPE
19.09.2022

Fraunhofer CCPE on the way to an international circular plastics economy

More than 350 million tons of plastic are produced worldwide every year, and vast amounts of plastic waste simply end up in the environment. The circular economy offers enormous potential for keeping plastics in the loop and thus conserving resources and the environment. Since 2018, six Fraunhofer institutes in the Fraunhofer CCPE cluster have been researching how to make the plastics value chain circular, and Prof. Manfred Renner has been the new head of the cluster since August 2022. Research results, implementation projects and strategies to accelerate the transformation to a circular plastics economy will be presented by Fraunhofer CCPE at the first international Fraunhofer CCPE Summit on February 8 and 9, 2023 in Munich.

More than 350 million tons of plastic are produced worldwide every year, and vast amounts of plastic waste simply end up in the environment. The circular economy offers enormous potential for keeping plastics in the loop and thus conserving resources and the environment. Since 2018, six Fraunhofer institutes in the Fraunhofer CCPE cluster have been researching how to make the plastics value chain circular, and Prof. Manfred Renner has been the new head of the cluster since August 2022. Research results, implementation projects and strategies to accelerate the transformation to a circular plastics economy will be presented by Fraunhofer CCPE at the first international Fraunhofer CCPE Summit on February 8 and 9, 2023 in Munich.

In a circular plastics economy, resources can be saved, products can be intelligently designed for long service life, and end-of-life losses can be reduced. Systemic, technical and social innovations are needed to make the transition from a linear to a circular economy a success. This is what the Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE is researching in the three divisions “Materials”, “Systems” and “Business”. The cooperation of the six Fraunhofer institutes IAP, ICT, IML, IVV, LBF and UMSICHT enables a multi-stakeholder approach in which the appropriate R&D competencies are bundled.

Fraunhofer CCPE would like to present and discuss successful projects and research approaches on an international scale at the Fraunhofer CCPE Summit on February 8 and 9, 2023 in Munich. The summit is to become an international forum for exchanging ideas for solutions and innovations for a circular plastics economy.

Cross-industry collaboration - local, regional and international
Since August 2022, Prof. Manfred Renner, Institute Director of Fraunhofer UMSICHT, is the new head of Fraunhofer CCPE. He succeeds Prof. Eckhard Weidner, who has retired. “Cross-industry cooperation - very local, but also regional and international - is the elementary prerequisite for a functioning circular plastics economy. At the summit, players from all points of the compass will meet and network in order to rethink the plastics value chain together," explains Prof. Manfred Renner, adding, “We want to provide answers to the following questions:  How can we make all Circular Economy principles, i.e. the ten R-strategies, known? How can industry, science and society best cooperate in a transformation to a circular plastics economy for the greatest possible impact?”

Results of the Fraunhofer CCPE cluster so far are innovative approaches for circular business models, intelligent collection, sorting, and recycling technologies, but also new formulations for circular polymers and compounds to enable multiple recycling cycles. With the newly developed assessment tool CRL® , companies can, for example, self-assess the maturity of products or product systems with regard to the circular economy. The tool checks the extent to which a product already takes into account circular economy principles in the areas of product design, product service system, end-of-life management and circular economy, and where there is still potential for improvement.

Source:

Fraunhofer UMSICHT

16.08.2022

CHT Group publishes Sustainability Report 2021

The focus is on personnel development, energy and water consumption as well as company-wide emissions and waste behavior. CHT highlights in this report the group-wide projects for climate protection as well as the sustainable products and solutions. The report has been prepared in accordance with the GRI standards of the Global Reporting Initiative (GRI) based on the core option.

With the "Green Deal", the EU Commission is pursuing ambitious climate targets, in the implementation of which the CHT Group is actively involved as part of the VCI initiative "chemistry4climate".
The Group's goal is to become climate-neutral by 2045. To underpin this ambitious target, at the end of 2021 the CHT Group signed up to the Science Based Targets Initiative (SBTi) to meet the goals of the Paris Climate Agreement and committed to the 1.5°C target.
For 2021, the first carbon footprint (Scope 1+2) was prepared for the CHT Group, which now serves as the basis for greenhouse gas emissions reduction targets.

The focus is on personnel development, energy and water consumption as well as company-wide emissions and waste behavior. CHT highlights in this report the group-wide projects for climate protection as well as the sustainable products and solutions. The report has been prepared in accordance with the GRI standards of the Global Reporting Initiative (GRI) based on the core option.

With the "Green Deal", the EU Commission is pursuing ambitious climate targets, in the implementation of which the CHT Group is actively involved as part of the VCI initiative "chemistry4climate".
The Group's goal is to become climate-neutral by 2045. To underpin this ambitious target, at the end of 2021 the CHT Group signed up to the Science Based Targets Initiative (SBTi) to meet the goals of the Paris Climate Agreement and committed to the 1.5°C target.
For 2021, the first carbon footprint (Scope 1+2) was prepared for the CHT Group, which now serves as the basis for greenhouse gas emissions reduction targets.

65% of the CHT Group's sales in 2021 were generated with sustainable products. For this, over 88% of the strategic raw material volume was sourced from suppliers classified as sustainable.

Moreover, interesting are the concepts and optimally matched auxiliaries with which energy and resource savings can be implemented for various textile application fields. They vividly and exemplarily demonstrate the efforts to achieve the company's own sustainable and strategic goals, which are derived from the United Nations Development Goals (SDGs).

Source:

CHT Group

(c) INNATEX
19.07.2022

INNATEX: Countdown to 50th international trade fair for sustainable textiles

The 50th INNATEX fair opens its gates to a Green Fashion trade audience from 29 to 31 July 2022 in Hofheim-Wallau, near Frankfurt. At this anniversary fair, over 200 labels will be exhibiting, a wide range of experts and organisations will be gathering, and elaborate features and facilities are planned for the Rhein-Main exhibition centre.

According to INNATEX project manager Alexander Hitzel, one highlight is the Community Area, which brings together a range of experts. In short lounge talks, they reveal insights into what they are currently working on and a dialogue format encourages personal discussion. Mirjam Smend, whom we know well from Greenstyle Munich, introduces her recently launched sustainability magazine, Pureviu, and facilitates the morning talks.

The 50th INNATEX fair opens its gates to a Green Fashion trade audience from 29 to 31 July 2022 in Hofheim-Wallau, near Frankfurt. At this anniversary fair, over 200 labels will be exhibiting, a wide range of experts and organisations will be gathering, and elaborate features and facilities are planned for the Rhein-Main exhibition centre.

According to INNATEX project manager Alexander Hitzel, one highlight is the Community Area, which brings together a range of experts. In short lounge talks, they reveal insights into what they are currently working on and a dialogue format encourages personal discussion. Mirjam Smend, whom we know well from Greenstyle Munich, introduces her recently launched sustainability magazine, Pureviu, and facilitates the morning talks.

Alongside standard bodies such as IVN and GOTS, which have taken part in INNATEX for many years, younger projects such as Fairmodel and the digital platform Retraced will be part of this special area. Fairtrade Germany, Femnet and the VDMD are to be found there too. Almost all of them are joining in with the Ask Me Anything dialouge format. Interested attendees can pre-book a slot of up to ten minutes for a personal discussion with the expert of their choice.

The supportive activities that had to be suspended during the pandemic are enjoying a comeback at this year’s summer fair: five newcomers to INNATEX designated DesignDiscoveries will be presenting their projects in another special area. Vegtus, from Barcelona, produces sneakers and other products from cactus leather. Natural textiles such as organic cotton are used by Lounge Cherie, a yoga fashion label.

Products for kids through to seniors, classics and streetwear, footwear and accessories
Nordlicht similarly relies on recyclable, renewable natural fibres for its outerwear, bags and accessories. The field of circular fashion is also served by the remaining two Design Discoveries. Both Nature is Future, with its handmade sneakers, and Freibeutler, with its functional rucksacks, make extensive use of recycled materials, while also paying due attention to broader sustainability aspects.

Regular INNATEX exhibitors include Lana, Chapati and Didymos, all of whom are also celebrating anniversaries. Labels such as Anokho with their colourful accessories in jacquard fabrics and Danish label Angel Circle with its plus-size fashion are exhibiting for the first time.

Source:

INNATEX / UBERMUT GbR

04.07.2022

Call for Papers »BIO-raffiniert XII« 2023

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

The process industry today still relies primarily on fossil raw materials. A transformation towards regenerative resources, in particular renewable raw materials, is under way. In addition, circular economy, recycling and resilience play important roles in existing and new value chains. The congress "BIO-raffiniert XII", March 7 and 8, 2023 at the Fraunhofer UMSICHT in Oberhausen, takes up these topics and focuses on innovative technologies, sustainability strategies as well as logistics and supply chains. Its thematic focal points will be: Bioeconomy - Strategy and Implementation, Transformation Pathways and New Value Chains. Regional as well as international developments will be addressed.

The institute invites interested experts to present their innovations, concepts, or industrial practice solutions around the bioeconomy transformation in the context of short presentations in English (10 min presentation). The deadline for proposals outlined in a one-page abstract is: Tuesday, September 16, 2022.

Further information online.

Source:

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

(c) ZAMG/Niedermoser
Scientists ascending to the research station in the Hohe Tauern National Park
01.02.2022

Plastic snowfall in the Alps - New Empa Study about nanoplastic in the environment

In a new study, Empa researcher Dominik Brunner, together with colleagues from Utrecht University and the Austrian Central Institute for Meteorology and Geophysics, is investigating how much plastic is trickling down on us from the atmosphere. According to the study, some nanoplastics travel over 2000 kilometers through the air. According to the figures from the measurements about 43 trillion miniature plastic particles land in Switzerland every year. Researchers still disagree on the exact number. But according to estimates from the study, it could be as much as 3,000 tonnes of nanoplastics that cover Switzerland every year, from the remote Alps to the urban lowlands. These estimates are very high compared to other studies, and more research is needed to verify these numbers

The study is uncharted scientific territory because the spread of nanoplastics through the air is still largely unexplored.

In a new study, Empa researcher Dominik Brunner, together with colleagues from Utrecht University and the Austrian Central Institute for Meteorology and Geophysics, is investigating how much plastic is trickling down on us from the atmosphere. According to the study, some nanoplastics travel over 2000 kilometers through the air. According to the figures from the measurements about 43 trillion miniature plastic particles land in Switzerland every year. Researchers still disagree on the exact number. But according to estimates from the study, it could be as much as 3,000 tonnes of nanoplastics that cover Switzerland every year, from the remote Alps to the urban lowlands. These estimates are very high compared to other studies, and more research is needed to verify these numbers

The study is uncharted scientific territory because the spread of nanoplastics through the air is still largely unexplored.

The scientists studied a small area at an altitude of 3106 meters at the top of the mountain "Hoher Sonnenblick" in the "Hohe Tauern" National Park in Austria.
Every day, and in all weather conditions, scientists removed a part of the top layer of snow around a marker at 8 AM and carefully stored it. Contamination of the samples by nanoplastics in the air or on the scientists' clothes was a particular challenge. In the laboratory, the researchers sometimes had to remain motionless when a colleague handled an open sample.

The origin of the tiny particles was traced with the help of European wind and weather data. The researchers could show that the greatest emission of nanoplastics into the atmosphere occurs in densely populated, urban areas. About 30% of the nanoplastic particles measured on the mountain top originate from a radius of 200 kilometers, mainly from cities. However, plastics from the world's oceans apparently also get into the air via the spray of the waves. Around 10% of the particles measured in the study were blown onto the mountain by wind and weather over 2000 kilometers – some of them from the Atlantic.

It is estimated that more than 8300 million tonnes of plastic have been produced worldwide to date, about 60% of which is now waste. This waste erodes through weathering effects and mechanical abrasion from macro- to micro- and nanoparticles. But discarded plastic is far from the only source. Everyday use of plastic products such as packaging and clothing releases nanoplastics. Particles in this size range are so light that their movement in the air can best be compared to gases.

Besides plastics, there are all kinds of other tiny particles. From Sahara sand to brake pads, the world is buzzing through the air as abrasion. It is as yet unclear whether this kind of air pollution poses a potential health threat to humans. Nanoparticles, unlike microparticles, do not just end up in the stomach. They are sucked deep into the lungs through respiration, where their size may allow them to cross the cell-blood barrier and enter the human bloodstream. Whether this is harmful or even dangerous, however, remains to be researched.

Source:

Empa, Noé Waldmann

Dr. Annegret Vester (c) CHT Germany GmbH
Dr. Annegret Vester
29.10.2021

CHT Germany GmbH: Dr. Annegret Vester is Chief Sustainability Officer (CSO)

As of October 1, 2021, Dr. Annegret Vester has assumed responsibility for sustainability issues of the CHT Group. With the Doctor of Chemistry, the ideal person for the CSO position could be found in many respects.
 
Dr. Vester has many years of experience in the transformation of CHT into today's sustainability-focused chemical company in her positions as Head of Global CHT Marketing and as Head of Strategy and Business Development.

In recent years, she has been responsible for the company's excellent rating in the EcoVadis assessment with regard to corporate social responsibility activities. The realignment of the corporate strategy with the United Nations Sustainable Development Goals (UNSDG) has been one of her tasks, as has the annually published CHT Sustainability Report documenting the measures and successes.

With the appointment of Dr. Vester, the CHT Management Board once again underlines the essential importance of sustainability for the strategic orientation of the globally operating group of companies.

As of October 1, 2021, Dr. Annegret Vester has assumed responsibility for sustainability issues of the CHT Group. With the Doctor of Chemistry, the ideal person for the CSO position could be found in many respects.
 
Dr. Vester has many years of experience in the transformation of CHT into today's sustainability-focused chemical company in her positions as Head of Global CHT Marketing and as Head of Strategy and Business Development.

In recent years, she has been responsible for the company's excellent rating in the EcoVadis assessment with regard to corporate social responsibility activities. The realignment of the corporate strategy with the United Nations Sustainable Development Goals (UNSDG) has been one of her tasks, as has the annually published CHT Sustainability Report documenting the measures and successes.

With the appointment of Dr. Vester, the CHT Management Board once again underlines the essential importance of sustainability for the strategic orientation of the globally operating group of companies.

More information:
CHT Germany GmbH CHT Germany
Source:

CHT Germany GmbH

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

Recycling secures raw materials for a climate-neutral Europe

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

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

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

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

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

Source:

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

 

Fraunhofer CCPE veröffentlicht Positionspapier und Forschungsprogramm zum Recycling von Kunststoffen (c)CCPE
Positionspapier Recyclingtechnologien für Kunststoffe
22.09.2021

Chemisches Recycling von Kunststoffen

  • Fraunhofer CCPE veröffentlicht Positionspapier und Forschungsprogramm zum Recycling von Kunststoffen

Der Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE hat ein Positionspapier zum Stand von Wissenschaft und Technik von Recyclingtechnologien für Kunststoffe vorgelegt. Der Schwerpunkt liegt auf chemischen Recyclingverfahren. Eine Marktanalyse zeigt aktuelle Industrieaktivitäten, außerdem werden die Fraunhofer-Kompetenzen im Kunststoff-Recycling im Überblick dargestellt.

Positionspapier und Forschungsprogramm zum Recycling von Kunststoffen

Rund 30 Fraunhofer Institute und Einrichtungen befassen sich mit dem Recycling und der Aufbereitung von Kunststoffen. Übersicht aktueller Initiativen zur Demonstration und Kommerzialisierung von chemischen Recyclingverfahren.

  • Fraunhofer CCPE veröffentlicht Positionspapier und Forschungsprogramm zum Recycling von Kunststoffen

Der Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE hat ein Positionspapier zum Stand von Wissenschaft und Technik von Recyclingtechnologien für Kunststoffe vorgelegt. Der Schwerpunkt liegt auf chemischen Recyclingverfahren. Eine Marktanalyse zeigt aktuelle Industrieaktivitäten, außerdem werden die Fraunhofer-Kompetenzen im Kunststoff-Recycling im Überblick dargestellt.

Positionspapier und Forschungsprogramm zum Recycling von Kunststoffen

Rund 30 Fraunhofer Institute und Einrichtungen befassen sich mit dem Recycling und der Aufbereitung von Kunststoffen. Übersicht aktueller Initiativen zur Demonstration und Kommerzialisierung von chemischen Recyclingverfahren.

Das Positionspapier gibt einen Überblick über werk- und rohstoffliche (chemische) Aufbereitungstechnologien für Kunststoffe, die sich derzeit in der Entwicklung befinden und noch nicht zum Stand der Technik zählen. Insbesondere werden sogenannte chemische Recyclingverfahren eingeordnet. Beleuchtet werden dabei der technische Entwicklungsstand der Verfahren, deren Vor- und Nachteile, die regulatorischen und gesetzlichen Rahmenbedingungen, die ökonomische Machbarkeit sowie Potenziale für den Umwelt- und Klimaschutz. Eine Marktübersicht zeigt darüber hinaus, welche Projekte seitens der Industrie im Bereich chemischer Recyclingverfahren derzeit laufen, welche Abfallstoffe behandelt werden und welche Anlagenkapazität vorhanden bzw. geplant ist.

Prof. Matthias Franke, Leiter des Institutsteils Sulzbach-Rosenberg von Fraunhofer UMSICHT, entwickelt vor allem pyrolysebasierte Recycling­technologien. Er fasst die Ergebnisse zusammen: »Die Nachfrage nach hochwertigen Kunststoffrezyklaten nimmt derzeit zu. Hintergrund sind einerseits die Selbstverpflichtungen der Hersteller, andererseits die Vorgaben der Europäischen Union zum Rezyklateinsatz. Mit Rezyklateinsatzquoten und steigenden CO2-Preisen wird die Wettbewerbsfähigkeit von Rezyklaten gegenüber Primärware gestärkt, und die Abhängigkeit vom Rohölpreis aufgehoben. Dies schafft Investitionssicherheit für das Recycling. Neuartige Recyclingtechnologien sind nach unserer Einschätzung technisch in der Lage, die zusätzliche Nachfrage nach hochqualitativen Rezyklaten zu bedienen. Entwicklungs­bedarf gibt es vor allem noch bei komplexen Abfällen wie zum Beispiel Verbundmaterialien. Auch eine ökologische Gesamtbewertung der Verfahren steht noch aus.«

Ausgehend vom derzeitigen Entwicklungsstand schätzen die Fraunhofer Forschenden die Potenziale von alternativen Recyclingtechnologien insgesamt positiv ein, wenn Sie als Ergänzung zu etablierten werkstofflichen Verfahren eingesetzt werden. Sie seien technisch mach- und beherrschbar, sie könnten dazu beitragen, die Kreislaufführung von Kunststoffen zu verbessern und hochqualitative Sekundärrohstoffe für die Industrie bereit zu stellen. Vor allem die rohstofflichen / chemischen Verfahren könnten ein ergänzender Baustein für höherwertiges Kunststoff-Recycling sein besonders bei bisher schwer behandelbaren Abfallströmen.

Die Positionen des Fraunhofer CCPE im Einzelnen:

  • Werkstoffliche Verfahren sind für sortenreine Kunststofffraktionen (Thermoplaste) die beste Wahl.
  • Mit zunehmender Heterogenität, Verschmutzung oder Kontamination von Kunststoffabfällen kommt das werkstoffliche Recycling an seine Grenzen. Füll-, Stör- und Schadstoffe können in Sortier-, Wasch- und Extrusionsanlagen oft nicht vollständig ausgeschleust werden. Bestimmte Kunststoffsorten sind werkstofflich kaum verwertbar.
  • Um eine Steigerung der Kreislaufführung von Kunststoffen zu erreichen, ist eine Ergänzung der werkstofflichen Verfahren durch alternative Prozesse und Prozess-Kombinationen erforderlich.
  • Da chemische Recyclingverfahren ebenfalls in der Lage sind, Sekundärrohstoffe für die Kunststoffproduktion bereitzustellen, sollte die werkstoffliche Verwertungs­quote im Bereich der Verpackungskunststoffe durch eine technologieoffene Recyclingquote ersetzt werden. Dies würde technische Innovationen im mengenmäßig dominanten Recycling von Verpackungen fördern.
  • Eine gesamtökologische Betrachtung von Recyclingverfahren oder Verfahrens­kombinationen für spezifische Altkunststoffe muss noch erbracht werden.
  • Eine teilweise Substitution von erdölbasierten Basischemikalien durch chemische Rezyklate bspw. auf Basis von Kunststoffabfällen erscheint technologisch möglich.

Im Positionspapier stellt Fraunhofer CCPE eine Forschungsagenda vor:

1. Analyse von kunststoffhaltigen Abfällen verbessern
2. Transparenz über ökonomische und ökologische Auswirkungen durch Langzeitbetrieb herstellen
3. Dynamische Bewertungsmodelle für die Abfallbehandlung entwickeln
4. Recyclingtechnologien koppeln
5. Automatisierte, KI-basierte gestufte Recyclingverfahren erforschen
6. Rezyklate und Zwischenprodukte aus den Recyclingprozessen optimieren

 

Source:

Fraunhofer UMSICHT Institutsteil Sulzbach-Rosenberg

01.09.2021

CHT Group generates 62% of 2020 sales with sustainable products

  • Sustainability Report 2020 published

As an internationally positioned company, the CHT Group is one of the leading suppliers of speciality chemicals. The company supplying chemical products for the most diverse applications and industries, presented their annual edition of the Sustainability Report, for the period January to December 2020,

The report has been prepared in accordance with the standards of the Global Reporting Initiative (GRI) and is based on the Core option. The focus is on human resources development, energy and water consumption as well as company-wide emissions and waste management.

Particularly noteworthy here is the group-wide reduction in specific resource consumption in the areas under review. In relation to the volume produced, for example, the following key figures show the reduction of environmental impacts:

  • Sustainability Report 2020 published

As an internationally positioned company, the CHT Group is one of the leading suppliers of speciality chemicals. The company supplying chemical products for the most diverse applications and industries, presented their annual edition of the Sustainability Report, for the period January to December 2020,

The report has been prepared in accordance with the standards of the Global Reporting Initiative (GRI) and is based on the Core option. The focus is on human resources development, energy and water consumption as well as company-wide emissions and waste management.

Particularly noteworthy here is the group-wide reduction in specific resource consumption in the areas under review. In relation to the volume produced, for example, the following key figures show the reduction of environmental impacts:

  • 21% share of renewable energies in total consumption
  • 440,000 EUR investment in environmental protection and nature conservation
  • 5.8% less energy consumption and less CO2 emission

62% of CHT Group's 2020 sales were generated with sustainable products. For this, 91% of the strategic raw material volume was sourced from suppliers classified as sustainable.

At the center of the report are the current working topics and outlooks that showcase CHT's commitment to sustainability and its innovative strength to achieve the United Nations Sustainable Development Goals (SDGs).

CHT considers 11 of the SDGs to be particularly relevant for the future of the Group of companies. For this reason, the recently revised global corporate strategy is directly geared to the Sustainable Development Goals of the United Nations.

The current edition of the report, which is published for the first time exclusively online in a resource-saving manner, is available here: https://sustainability-report.cht.com

More information:
CHT Group Sustainability Report
Source:

CHT Gruppe

Keenan-Constance www.shutterstock.com
01.07.2021

CHT: Sustainable jeans finishing with organIQ EMS Jeans

With the organIQ BLEACH system the CHT Group was the first textile chemical supplier, who offered an ecological alternative to potassium permanganate as a bleaching treatment for Denim. Today, CHT's organIQ products reach beyond the limits of the standards and are state of the art in ecological jeans production worldwide.

In recent years, CHT has continued to research and further develop the organIQ system to find enhancements to the organIQ range that further optimise the system from an ecological point of view and at the same time provide even more variable and broader application possibilities.

organIQ EMS Jeans (Ecological Modular System for Jeans treatment) is based on several modules and every module corresponds to a treatment step. These steps can be mixed and matched in various ways and flexible orders to achieve a great deal of looks and effects.

The new EMS Jeans family supports most modern denim finishing processes. By using selected organIQ products together with water saving nebulization technologies, extremely low water consumptions can be achieved.

With the organIQ BLEACH system the CHT Group was the first textile chemical supplier, who offered an ecological alternative to potassium permanganate as a bleaching treatment for Denim. Today, CHT's organIQ products reach beyond the limits of the standards and are state of the art in ecological jeans production worldwide.

In recent years, CHT has continued to research and further develop the organIQ system to find enhancements to the organIQ range that further optimise the system from an ecological point of view and at the same time provide even more variable and broader application possibilities.

organIQ EMS Jeans (Ecological Modular System for Jeans treatment) is based on several modules and every module corresponds to a treatment step. These steps can be mixed and matched in various ways and flexible orders to achieve a great deal of looks and effects.

The new EMS Jeans family supports most modern denim finishing processes. By using selected organIQ products together with water saving nebulization technologies, extremely low water consumptions can be achieved.

Due to this technology, all relevant treatments can be realized at room temperature which is a great energy saving opportunity. Moreover, the pollution of wastewater with toxic substances can be drastically reduced in comparison to common, previously applied denim treatments.

Source:

CHT Gruppe

16.06.2021

Closed-loop recycling pilot project for single-use facemasks

  • Fraunhofer, SABIC, and Procter & Gamble join forces
  • The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics.
  • The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

  • Fraunhofer, SABIC, and Procter & Gamble join forces
  • The Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE and its Institute for Environmental, Safety and Energy Technology UMSICHT have developed an advanced recycling process for used plastics.
  • The pilot project with SABIC and Procter & Gamble serves to demonstrate the feasibility of closed-loop recycling for single-use facemasks.

Due to COVID-19, use of billions of disposable facemasks is raising environmental concerns especially when they are thoughtlessly discarded in public spaces, including - parks, open-air venues and beaches. Apart from the challenge of dealing with such huge volumes of essential personal healthcare items in a sustainable way, simply throwing the used masks away for disposal on landfill sites or in incineration plants represents a loss of valuable feedstock for new material.

“Recognizing the challenge, we set out to explore how used facemasks could potentially be returned into the value chain of new facemask production”, says Dr. Peter Dziezok, Director R&D Open Innovation at P&G. “But creating a true circular solution from both a sustainable and an economically feasible perspective takes partners. Therefore, we teamed up with Fraunhofer CCPE and Fraunhofer UMSICHT’s expert scientists and SABIC’s Technology & Innovation specialists to investigate potential solutions.”

As part of the pilot, P&G collected used facemasks worn by employees or given to visitors at its manufacturing and research sites in Germany. Although those masks are always disposed of responsibly, there was no ideal route in place to recycle them efficiently. To help demonstrate a potential step change in this scenario, special collection bins were set up, and the collected used masks were sent to Fraunhofer for further processing in a dedicated research pyrolysis plant.

“A single-use medical product such as a face mask has high hygiene requirements, both in terms of disposal and production. Mechanical recycling, would have not done the job”, explains Dr. Alexander Hofmann, Head of Department Recycling Management at Fraunhofer UMSICHT. “In our solution, therefore, the masks were first automatically shredded and then thermochemically converted to pyrolysis oil. Pyrolysis breaks the plastic down into molecular fragments under pressure and heat, which will also destroy any residual pollutants or pathogens, such as the Coronavirus. In this way it is possible to produce feedstock for new plastics in virgin quality that can also meet the requirements for medical products”, adds Hofmann, who is also Head of Research Department “Advanced Recycling” at Fraunhofer CCPE.

The pyrolysis oil was then sent to SABIC to be used as feedstock for the production of new PP resin. The resins were produced using the widely recognized principle of mass balance to combine the alternative feedstock with fossil-based feedstock in the production process. Mass balance is considered a crucial bridge between today’s large scale linear economy and the more sustainable circular economy of the future, which today is operated on a smaller scale but is expected to grow quickly.

“The high-quality circular PP polymer obtained in this pilot clearly demonstrates that closed-loop recycling is achievable through active collaboration of players from across the value chain”, emphasizes Mark Vester, Global Circular Economy Leader at SABIC. “The circular material is part of our TRUCIRCLE™ portfolio, aimed at preventing valuable used plastic from becoming waste and at mitigating the depletion of fossil resources.”

Finally, to close the loop, the PP polymer was supplied to P&G, where it was processed into non-woven fibers material. “This pilot project has helped us to assess if the close loop approach could work for hygienic and medical grade plastics”, says Hansjörg Reick, P&G Senior Director Open Innovation. “Of course, further work is needed but the results so far have been very encouraging.”

The entire closed loop pilot project from facemask collection to production was developed and implemented within seven months. The transferability of advanced recycling to other feedstocks and chemical products is being further researched at Fraunhofer CCPE.

Source:

Fraunhofer

12.10.2020

CHT Germany GmbH: Sustainable heat for sustainable chemical solutions

  • Efficient heat supply of the future reduces environmentally harmful CO2

The heating sector offers a variety of options for the energy turnaround. One of them is district heating. This is an efficient energy source that makes an important contribution to sustainability and climate protection, especially when used within heat and energy-intensive companies. The CHT Group for speciality chemicals has opted to utilise the district heating supplied by the Tübingen public utilities (swt) at its headquarters in Tübingen - and thus reduce CO2 and the use of fossil fuels. This also resulted in the district heating network of the municipal utilities being extended by an additional half kilometre.

  • Efficient heat supply of the future reduces environmentally harmful CO2

The heating sector offers a variety of options for the energy turnaround. One of them is district heating. This is an efficient energy source that makes an important contribution to sustainability and climate protection, especially when used within heat and energy-intensive companies. The CHT Group for speciality chemicals has opted to utilise the district heating supplied by the Tübingen public utilities (swt) at its headquarters in Tübingen - and thus reduce CO2 and the use of fossil fuels. This also resulted in the district heating network of the municipal utilities being extended by an additional half kilometre.

Until recently, heating, hot water and various process steam applications within the CHT site in Bismarckstrasse, Tubingen were fed from a central steam generation plant fired by heating oil. Now three of four company buildings are connected to the swt district heating network and the process steam applications have been decentralised. The fourth building has already been equipped with a modern CHP system for many years. In the future, this building will be prepared for district heating. The conversion to district heating supply will be made as soon as the CHP plant has reached the end of its operating life. In order to connect the CHT headquarters to the district heating, the municipal utilities have extended their supply network by around 570 metres during a four-month construction period. The heat now flows through newly installed transfer stations where it is measured, regulated, transferred and finally fed into the buildings' heating circuits.

Dr. Bernhard Hettich, Chief Technical Officer of CHT Germany GmbH: "As a company CHT focuses on worldwide sustainability. This not only includes products but also the sustainable use of resources at the individual locations. At our headquarters in Tübingen, our efforts are directed towards reducing energy consumption and optimising it with regard to renewable energies. With this investment we will continue to reduce CO2 emissions and the consumption of fossil fuels for the energy we consume. As a Tübingen company, we are therefore pleased to be connected to the local district heating network and to be able to use its advantages for the benefit of our sustainability strategy".

High heat demand offers great savings potential
CHT's heat requirements are high as the three buildings already connected require around 1.3 million kilowatt hours of heat per year. With the fourth building included, the heat requirement is even 1.6 million kilowatt hours. With the conversion to district heating CHT saves about 152 tons of CO2 per year. An investment in the district heating connection is therefore an investment in the future, both from an ecological and economic point of view. CHT has invested 180,000 Euro in the district heating connection.

 

Please read the attached document for more information

Source:

CHT Germany GmbH

The CHT Group is constantly expanding its sustainable product range for a circular economy according to the Cradle to Cradle principles (c) CHT
Cradle to Cradle principles in the CHT Group
30.09.2020

Cradle to Cradle principles in the CHT Group

  • The CHT Group is constantly expanding its sustainable product range for a circular economy according to the Cradle to Cradle principles

Progress in itself does not necessarily have to be sustainable but in the CHT Group it certainly does. For this reason the company has defined progress more precisely. The developers and chemists from Tübingen show true inventive talent with sustainable innovations.

According to the CHT Group's self-perception, sustainable innovation always includes a responsibility component for the future. With decades of experience along the textile value chain, the globally active CHT Group offers an incomparably wide range of services focusing on sustainable, resource-saving and forward-looking speciality chemicals and the efficient shaping of textile processes.

  • The CHT Group is constantly expanding its sustainable product range for a circular economy according to the Cradle to Cradle principles

Progress in itself does not necessarily have to be sustainable but in the CHT Group it certainly does. For this reason the company has defined progress more precisely. The developers and chemists from Tübingen show true inventive talent with sustainable innovations.

According to the CHT Group's self-perception, sustainable innovation always includes a responsibility component for the future. With decades of experience along the textile value chain, the globally active CHT Group offers an incomparably wide range of services focusing on sustainable, resource-saving and forward-looking speciality chemicals and the efficient shaping of textile processes.

The circular economy takes over a decisive role: In the CHT Group we are convinced that recyclable textile products are the right means to protect resources and reduce the environmental impact. Therefore, our team works closely with textile manufacturers and brands to achieve the common goal of avoiding waste and harmful substances along the textile production process and thus producing more ecological textiles.

The Cradle to Cradle approach provides a trend-setting concept in the textile world that perfectly fits the company's sustainable strategy: Right from the start products shall be created which are suited for the biological (compostable) or technical (recyclable) circulation.

The CHT Group focuses on the development of dyes, pigments and auxiliaries for textile finishing which can be decomposed without leaving any residues and easily returned to the natural circulation.

For textiles which are to be developed and produced strictly according to the Cradle to Cradle principle, CHT offers a comprehensive, constantly growing, compostable range for textile finishing. With 57 textile auxiliaries and 32 dyes/pigments CHT has succeeded in achieving the highest rating, the Platinum Material Health Certificate of the Cradle to Cradle Products Innovation Institute.

These products help textile manufacturers to achieve the Platinum rating in Material Health, one of five categories of the Cradle to Cradle Certified™ product standard on finished textiles. This contributes to giving textiles a positive ecological footprint.

Textiles can be given the decisive distinguishing feature through the Cradle to Cradle Certified™ product standard. Cradle to Cradle Certified™ is the world's leading science-based standard for safe, recyclable and sustainable materials and products. CHT offers the possibility of designing tomorrow's sustainable textiles already today and is therefore part of the Circular Economy.

Cradle to Cradle Certified™ is a registered trademark of the Cradle to Cradle Products Innovation Institute.

Source:

 CHT Germany GmbH

23.09.2020

Grüne Ausrichtung bestätigt: Schmitz Textiles mit Bestnoten ausgezeichnet

  • Emsdettener Textilhersteller nach STeP by OEKO-Tex® für nachhaltige Produktion zertifiziert

Nachhaltigkeit ist das Schlagwort der Stunde – auch in der Wirtschaft. Eine nachhaltige Welt erfordert jedoch eine neue Art des Wirtschaftens zum Schutz der Ressourcen und Umwelt. Das Textilunternehmen Schmitz Textiles, zu dem die Marke drapilux gehört, hat es sich zur Aufgabe gemacht, in jedem Produktionsbereich so grün wie möglich zu handeln. Das Engagement wurde nun durch die erfolgreiche Zertifizierung nach STeP by OEKO-TEX® belohnt.

  • Emsdettener Textilhersteller nach STeP by OEKO-Tex® für nachhaltige Produktion zertifiziert

Nachhaltigkeit ist das Schlagwort der Stunde – auch in der Wirtschaft. Eine nachhaltige Welt erfordert jedoch eine neue Art des Wirtschaftens zum Schutz der Ressourcen und Umwelt. Das Textilunternehmen Schmitz Textiles, zu dem die Marke drapilux gehört, hat es sich zur Aufgabe gemacht, in jedem Produktionsbereich so grün wie möglich zu handeln. Das Engagement wurde nun durch die erfolgreiche Zertifizierung nach STeP by OEKO-TEX® belohnt.

STeP (Sustainable Textile Production) by OEKO-TEX® ist ein unabhängiges Zertifizierungssystem für Marken, Handelsunternehmen und Hersteller im Bereich der Textilindustrie. OEKO-TEX®, ein Zusammenschluss von 18 unabhängigen Prüf- und Forschungsinstituten für Textil- und Lederökologie aus Europa und Japan, entwickelt Standards für die Textil- und Lederindustrie sowie die zugrundeliegenden Prüfmethoden und Grenzwerte. Ziel ist es, ein Risikomanagement, den Verbraucher- und Umweltschutz sowie gesetzliche Konformität sicherzustellen. Neben dem Aspekt der Umweltfreundlichkeit untersucht STeP nachhaltige Produktionsbedingungen, den effizienten Einsatz von Ressourcen und Technologien sowie die Einhaltung von sozialverträglichen Arbeitsbedingungen. Die Prüfung umfasst sechs Module: Chemikalienmanagement, Umweltleistungen, Umweltmanagement, Soziale Verantwortung, Qualitätsmanagement sowie Gesundheitsschutz und Arbeitssicherheit. Die Zertifizierung ist ein starkes Instrument zur kontinuierlichen Optimierung der Nutzung natürlicher Ressourcen und zeigt Wege auf, Prozesse effizienter zu gestalten. Durch die Transparenz und weltweite Vergleichbarkeit der Kriterien unterstützt STeP Endverbraucher und Händler bei der Auswahl des Textilherstellers. Schmitz Textiles kann so seinen Vorbildcharakter in allen Bereichen noch weiter stärken. „Nachhaltigkeit war schon immer ein wichtiges Thema bei Schmitz Textiles“, bekräftigt Stefan Ruholl, Geschäftsführer des Emsdettener Unternehmens. So hat der Textilhersteller bereits 2002 die ISO 14001 Norm implementiert, die die Anforderungen an ein Umweltmanagementsystem festlegt. „Die Zertifizierung nach STeP krönt unser Engagement noch einmal, da die Anforderungen über die gesetzlichen hinaus gehen und zum Beispiel Einsatzverbote für gewisse Gefahrenstoffe mit sich bringen“, führt Stefan Ruholl aus. 

Auch in Zukunft will das Emsdettener Unternehmen mit gutem Beispiel vorangehen. „Getreu dem Motto der Gründerfamilie Schmitz ‚Der Zukunft verpflichtet – schon immer‘ werden wir uns bis zum nächsten Audit in drei Jahren noch weiter verbessern“, verspricht Stefan Ruholl. drapilux-Vertriebsleiter Hubert Reinermann ergänzt, dass auch die Produkte nachhaltiger werden sollen. So hat drapilux 2020 als erste der Schmitz Textiles-Marken Artikel mit einem Anteil an nachhaltig produzierten Fasern präsentiert. Gemeinsam mit dem Garnhersteller Trevira arbeitet drapilux daran, das neuartige Garn weiterzuentwickeln und den Anteil des recycelten Materials zu erhöhen.

Source:

schönknecht : kommunikation
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