From the Sector

• 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.

Over the past 14 days, the wholesale cost of natural gas in Germany has risen by more than 50%. This increase presents an extraordinary challenge for industry, and there is no sign of support or intervention from the Government. Indeed, recent statements are destined to provoke a worsening of the situation.

Kelheim Fibres is entirely dependent on natural gas for the generation of electrical energy and steam and has no viable short-term alternatives. In addition, the raw materials used by the company often consume high levels of energy in their production and are also increasing significantly in cost. These increases in cost jeopardise the future of the business if they cannot be passed on though the supply chain.

Kelheim Fibres is calling on the Government of Germany to take immediate steps to mitigate the impact of the cost increases for natural gas and is committed to work to implement alternative sources of energy in the medium term.

In parallel, the disruption to global logistic networks that has been seen throughout 2021 is now expected to continue throughout 2022. Massive increases in shipping rates – in some cases in excess of 80% – are being imposed without notice and with no opportunity for negotiation. These costs must also be passed on though the supply chain if businesses are to remain viable.

To address these issues, Kelheim Fibres is implementing the following measures with immediate effect:

• The increased cost of energy and freight will be passed on in prices to customers at the soonest opportunity;
• If necessary, changes or adjustments to existing agreements will be negotiated to reflect the increased cost levels;
• If the necessary increase in fibre prices cannot be secured, cuts to production will be implemented with the objective of minimising losses until the cost increases can be mitigated.

As the drivers for the increases in natural gas prices appear to be temporary in nature, we will maintain any price adjustments under review and pass on any relief to customers.

Craig Barker, CEO of Kelheim Fibres, describes the current situation as critical. “The cost increases we are facing are unprecedented and call for swift and decisive action. We are determined to take the necessary steps to preserve the future of our business and provide security of supply for our customers. At the same time, we are relying on the support of our customers to help us conquer the challenges our business is facing.”

Huntsman Textile Effects is bringing its complete end-to-end suite of high-performance solutions for sports apparel to Performance Days Digital Fair from December 1 to 2, 2021 virtually.

Driven by growing consumer interest in active and healthy lifestyles, coupled with the growing number of national sports participation programs that promote healthy living, the global sportwear market shows no signs of slowing. Brands that aim to satisfy this high-growth market need to be able to produce performance apparel that not only delivers sought-after functional capabilities and desirable aesthetics, but also comes with low environmental impact.

Huntsman will introduce the latest addition to the third generation of its revolutionary AVITERA® SE polyreactive dye range at Performance Days. AVITERA® ROSE SE delivers bluish-red shades while reducing the water and energy required for production by up to 50% and increasing mill output by up to 25% or more. It also significantly outperforms available dyeing technologies for cellulosic fibers and blends in terms of value, reducing recipe costs, minimizing processing costs and eliminating reprocessing.

Also in the spotlight are eco-friendly solutions for the challenges of achieving full whites and consistent shades on recycled polyester (rPET) with right-first-time quality. Huntsman’s rPET processing solutions include pre-treatment chemicals, fluorescent whitening agents, state-of-the-art washfast dyes, and finishing solutions for high-performance protection and comfort.

In partnership with Sciessent, Huntsman is also bringing revolutionary antimicrobial and odor-control solutions to Performance Days. These include Sciessent’s Agion Active® X2, a next-generation odor-control solution that combines advanced technologies to both capture and fight odor-causing bacteria for garments that smell fresh for longer and need less frequent washing. The partners are also previewing a new solution: Sciessent’s NOBO™, a cost-effective odor adsorber that provides odor control on virtually any fabric.

Other featured innovations include Teflon Eco Dry with Zelan™ R2 Plus technology. A breakthrough in sustainable water repellency, it contains 30% renewably sourced plant-based raw materials and meets or exceeds performance levels possible with traditional fluorinated technologies. Another exciting Huntsman solution is the new PHOBOL® Extender UXN – a product that optimizes water-repellent finishes for long-lasting fabric protection. It is free from butanone oxime, which has recently been re-classified in Europe and restricted above certain limits in products by bluesign®.

Zahlreiche Produkte unserer Industriegesellschaft wie Stahl, Aluminium, Zement oder Kunststoff bestehen aus Kohlenstoff oder benötigen ihn, um hergestellt werden zu können. Zentrale Ansätze, wie der Umgang mit Kohlenstoff neu und nachhaltig gestaltet werden kann, hat das Ministerium für Wirtschaft, Innovation, Digitalisierung und Energie (MWIDE) mit der Carbon Management Strategie NRW vorgelegt. Ziel ist eine klimaneutrale Industrie. Auf einer gemeinsamen Veranstaltung des Thinktanks IN4climate.NRW und des MWIDE hat Wirtschafts- und Energieminister Prof. Andreas Pinkwart mit Expert*innen aus Industrie, Wissenschaft und Zivilgesellschaft die Inhalte diskutiert.

»Für uns ist klar: Kohlenstoff kann Klimaschutz«, so Minister Pinkwart. »Mit unserer Carbon Management Strategie zeigen wir ganz konkret, wie eine klimaneutrale Kohlenstoffwirtschaft in Nordrhein-Westfalen aussehen kann. Wir wollen Kohlenstoff nicht nur reduzieren, sondern auch nachhaltig so oft wie möglich im Kreislauf nutzen und die Gesellschaft transparent einbinden. Wir sind damit das erste Bundesland überhaupt, das sich dem Thema annimmt. So können wir unsere ehrgeizigen Klimaschutzziele erreichen und den Industriestandort von morgen gestalten.«

Eine klimaneutrale Industrie braucht nachhaltige Kohlenstoffquellen
Dr. Iris Rieth, Projektmanagerin für Kohlendioxidwirtschaft und Circular Economy bei IN4climate.NRW: »Eine klimaneutrale Industrie braucht nachhaltige Kohlenstoffquellen. Die Circular Economy und die Nutzung von CO2, dessen Ausstoß nicht vermieden werden kann, müssen wir weiter ausbauen. IN4climate.NRW hat in enger Zusammenarbeit mit Unternehmen und der Wissenschaft wichtige Ansätze erarbeitet, die den unterschiedlichen Industrieprozessen gerecht werden. Die Carbon Management Strategie führt nun die Bausteine der Transformation zusammen und setzt die notwendigen politischen Leitplanken, an denen wir uns in unserer weiteren Arbeit orientieren können.«
Infrastruktur für den Transport von CO2 muss aufgebaut werden

Kohlenstoffdioxid war bislang kein Bestandteil von Infrastrukturplanungen in Deutschland. Dabei wird es auch in Zukunft Prozesse geben, bei denen unvermeidlich CO2 entsteht, wie etwa bei der Herstellung von Zement. Verschiedene Projekte arbeiten bereits daran, CO2 direkt am Ofen abzufangen und anderen Branchen, vor allem der chemischen Industrie, als Rohstoff zur Verfügung zu stellen (engl. Carbon Capture and Utilisation, CCU). Eine Infrastruktur für den Transport muss jedoch erst noch aufgebaut werden.

Konkrete Optionen, wie ein solches Pipeline- und Transportsystem aussehen könnte, hat IN4climate.NRW Mitte Oktober in dem Diskussionspapier »CO2 in einer klimaneutralen Grundstoffindustrie« veröffentlicht. In einem weiteren Diskussionspapier »Circular Economy in der Grundstoffindustrie« hat IN4climate.NRW zudem aktuelle Stoffströme analysiert und Lösungsansätze für eine zukünftige industrielle Circular Economy erarbeitet. Beide Papiere sind maßgeblich in die Carbon Management Strategie des Landes eingeflossen.

An der Paneldiskussion haben neben Wirtschafts- und Energieminister Prof. Andreas Pinkwart teilgenommen:

• Dr. Iris Rieth, Projektmanagerin für Kohlendioxidwirtschaft und Circular Economy bei IN4climate.NRW,
• Prof. Görge Deerberg, stellvertretender Institutsleiter des Fraunhofer UMSICHT,
• Dr. Christoph Sievering, Head of Global Energy and Climate Policy & Site Transformation bei Covestro,
• Arne Grotenrath, Experte für Treibhausgasbilanzierung bei Germanzero sowie
• Michael Theben, Abteilungsleiter Klimaschutz im Ministerium für Wirtschaft, Innovation, Digitalisierung und Energie.

• ADNOC and Borealis confirm final investment agreement to build Borouge 4 in Ruwais, United Arab Emirates (UAE), which will produce 1.4 million tons of polyethylene per annum
• Expansion project includes construction of a 1.5 million tonnes ethane cracker, two state-of-the-art Borstar® polyethylene plants and a cross-linked polyethylene plant
• Borouge 4 will meet growing customer demand across the Middle East, Africa and Asia with differentiated polyolefin solutions in energy, infrastructure, and advanced packaging
• New facility will benefit from industry-leading technologies to significantly improve energy efficiency and lower emissions, with carbon capture study underway
• Upon expansion, Borouge will be the world's largest single-site polyolefin complex and will supply feedstock to TA'ZIZ Industrial Chemicals Zone Body

ADNOC and Borealis AG signed an USD 6.2 billion investment agreement to build the fourth Borouge facility – Borouge 4 – at the polyolefin manufacturing complex in Ruwais, United Arab Emirates (UAE).

The world-scale expansion confirms both partners’ commitment to the growth of Borouge and to support chemical production, and advanced manufacturing and industry in Ruwais, a key pillar of Abu Dhabi and the UAE’s technology, innovation and industrial development strategy. Borouge produces crucial industrial raw materials, which are exported to customers globally and used by local companies, boosting local industrial supply chains and enhancing In-Country Value.

Borouge 4 will capitalize on the projected growth in customer demand for polyolefins, driven by their use in manufactured products in the Middle East, Africa and Asia. The facility will also enable the next phase of growth at the Ruwais Industrial Complex by supplying feedstock to the TA’ZIZ Industrial Chemicals Zone.

Borouge 4 will have an industry-leading focus on sustainability leveraging the capabilities of both shareholders. The facility will utilize Borealis’ proprietary Borstar technology, to produce a product portfolio focused on durable applications for energy, infrastructure, advanced packaging, and agriculture sectors. This unique technology, in combination with hexene co-monomer, will enable the production of advanced packaging grades with up to 50% recycled polyethylene content.

Subject to an in-depth study, a Carbon Capture unit that would reduce CO2 emissions by 80% could also be operational in time for Borouge 4’s start-up. The facility is also designed to capitalize on ADNOC’s recent initiatives on clean energy, decarbonizing its power supply through access to Abu Dhabi’s clean power sources. These initiatives are aligned with the UAE Net Zero by 2050 Strategic Initiative.

The first Borouge facility, producing 450,000 tons of polyethylene per annum was commissioned in 2001. Borouge 2 and Borouge 3 took capacity to 2 million tons and 4.5 million tons of polyethylene and polypropylene per annum in 2010 and 2014 respectively.  Borouge 4 will boost the company’s annual polyolefin production to 6.4 million tons, making Borouge one of the world’s largest single-site polyolefin facilities.

The new Borouge 4 facility will comprise:

• An ethane cracker, with 1.5 million tons ethylene output per annum, which will be the fourth cracker in Borouge’s integrated petrochemical complex in Ruwais
• Two additional Borstar® polyethylene (PE) plants, each with 700 thousand tons per annum capacity, using state-of-the-art Borealis Borstar third generation (3G) technology
• A cross-linked PE (XLPE) plant of 100 thousand tons per annum capacity.
• A hexene-1 unit, which will produce co-monomers for certain grades of polyethylene.

The Chairman of the Walter Reiners-Stiftung foundation of the VDMA Textile Machinery Association, Peter D. Dornier has awarded prizes to three successful young engineers. The award-winning works provide practical solutions on the topic of circular economy. For example, the recycling of carbon fibres, which are used to produce lightweight components for the automotive industry. Or the environmentally friendly production of yarns from crab shells. Another topic was medical applications: The processing of ultra-fine yarns into stents for aortic repair. The award ceremony took place online on 9 November as part of the Aachen-Dresden-Denkendorf International Textile Conference.  

With a creativity prize, endowed with 3,000 euros, the foundation honoured the diploma thesis of Irina Kuznik, TU Dresden. She used a creative approach to realise solutions for processing chitosan into fibre yarn.

Mr Kai-Chieh Kuo was awarded the diploma/master's thesis promotion prize of 3,500 euros. With his master's thesis, which was written at RWTH Aachen University, Mr Kuo contributes to the production of vital components used in medicine. The stents made of ultra-fine yarns are made possible by an innovative modification of the classic tube weaving process.

The Walter Reiners Foundation rewarded the doctoral thesis of Dr. Martin Hengstermann with the promotional prize in the dissertation category, endowed with 5,000 euros. The thesis deals with the production of recycled carbon fibres. These can be used to produce lightweight components for motor vehicle and aircraft construction or the wind energy sector.

New Prize Sustainability / Circular Economy
The environmental conditions of the textile industry and machine construction are changing. Topics such as climate protection and the circular economy are becoming central. From this perspective, the board of the Walter Reiners Foundation has decided to further develop the foundation's prize system.

In 2022, the foundation will for the first time offer a prize with a focus on design / sustainability. Peter D. Dornier, Chairman of the Foundation, explained: "Already in the design phase, one can set the parameters so that a textile product can be reintroduced after use into the economic cycle for a high-quality application. For example, through the appropriate use of materials and finishing. We are looking for solutions for resource-saving design, technology and manufacturing processes."   

Indorama Ventures Public Company Limited (IVL) reported a strong 3Q 2021 performance amid record production volumes. The company maintained its positive outlook for the rest of the year and 2022, noting caution as headwinds including higher energy prices and supply chain disruptions weigh against resurgent consumer demand.

IVL reported EBITDA of US$478 million in Q3 versus US$552 million in the previous quarter and US$240 million a year earlier. Production volumes reached 3.73 million metric tons, a record, as the global recovery drove consumer demand for IVL’s products.

As the global economy recovers from the pandemic, consumer appetite and increasing Brent crude oil prices are testing supply chains and driving a commodity boom, with manufacturers running at full capacity. This has driven increases in freight prices and a shortage of materials.

Still, IVL posted a solid YTD performance, ending the first nine months of 2021 with EBITDA of US$ 1,512 million, up 123% YoY. The Integrated Oxides & Derivatives (IOD) segment will start to reap the full benefits of the hot commissioning of the Lake Charles gas cracker (IVOL) in Q4 and beyond, as well as continued advantaged shale gas economics.

In Q3, Project Olympus, the company’s cost saving and business transformation project, achieved US$63 million in efficiency gains, and is on track to achieve a total US$610 million of savings by 2023. IVL also implemented enhanced disclosures in governance, strategy, risk management, and metrics and targets, and launched a comprehensive financial policy and governance structure to accelerate environmentally driven projects.

IVL strengthened its Indorama Management Council (IMC) – the company’s highest operational management committee – by rotating experienced executives and adding the COOs of the Fibers and Integrated Oxides & Derivatives (IOD) segments. The appointments will help build the segments into self-sustaining organizations while also rotating expertise across the IMC.

3Q 2021 Performance Summary

• Consolidated Revenue of US$ 3,867M, an increase of 9% QoQ and 50% YoY
• EBITDA of US$ 478M in Q3 versus US$552 million, a decrease of 13% QoQ and an increase of 99% YoY
• Reported annualized EPS of THB 4.53 and core annualized EPS of THB 4.09

Indorama Ventures Public Company Limited issued a THB 10 billion triple-tranche Sustainability-Linked Bond, showcasing the company’s long-standing commitment to sustainable growth. It is the largest SLB issued in Thailand and the first offered to both institutions and high-net-worth investors.

The bond is part of IVL’s financing strategy across a range of instruments linked to the company’s sustainability targets. It is aligned with internationally accepted standards including International Capital Markets Association’s (ICMA) Sustainability-Linked Bond Principles and the Loan Market Association’s (LMA) Sustainability Linked Loan Principles.

The SLB is linked to IVL’s performance of reducing GHG emissions intensity by 10% by 2025 (from a 2020 base), increasing recycling of PET bale input to 750,000 tons per year by 2025, and achieving 25% renewable electricity consumption in 2030.

The triple-tranche structure includes 5-, 7-, and 10.5-year tenors, offering coupons of 2.48%, 3.00% and 3.60% per year respectively, targeting asset managers, commercial banks, insurance companies, cooperatives and high-net-worth individuals. With the orderbook peaking at over THB 17.8 billion due to strong interest in the sustainability-linked instrument, oversubscription was around 3x over the planned issuance amount of THB 6 billion with a green shoe option of THB 4 billion. In view of the strong orderbook from the investors, the company decided to exercise the green shoe option and increased the issuance to THB 10 billion, setting a new benchmark as the largest SLB transaction in Thailand. IVL appointed Bangkok Bank, Kasikorn Bank, Krungthai Bank, Siam Commercial Bank, and The Hongkong and Shanghai Banking Corporation Limited, Bangkok Branch as arrangers and bookrunners for the transaction.

On 23 September 2021, the bond was assigned an AA- rating and a “stable” outlook by TRIS Rating following a strong recovery of petrochemicals and derivatives and IVL’s growing profitability.

Under the terms, all tranches must purchase Energy Attribute Certificates (EAC) or voluntary carbon offsets in the event of failure to meet the sustainability performance targets (SPT). The testing dates for tenors with a maturity of 5 and 7 years are 31 December 2025, and 31 December 2030 for the 10.5-year tenor. SPT performance will be independently verified upon the testing dates.Proceeds for the issuance will be used to finance IVL’s corporate working capital and refinance existing debt.

In recent years, IVL secured loans linked to improvements in the company’s sustainability performance as a global leader in environmental, social and governance (ESG) integration. These included Thailand’s first Green Loan of USD 200 million and EUR 200 million from Japan’s Mizuho Bank, Thailand’s first cross-border Sustainability-Linked Ninja Loan worth USD 225 million from 16 institutions in Japan and a Blue Loan of USD 300 million arranged by International Finance Corporation and funded by Asian Development Bank and DEG.

After its launch on 20 September 2020, the RCI is proud to celebrate its first anniversary this fall. The balance sheet of the first year is impressive: starting from 11 founding members, that number increased to 30 member companies within 12 months. Numerous webinars, press releases, background information, a glossary and a comic allowed to convey the “Renewable Carbon” concept to the public. The RCI is actively working on labelling and policy analysis, and more activities will follow in the next year.

Key for this success: the topic of renewable carbon in chemicals and materials is increasingly becoming a focus of politics and industry. Larger companies will have to report their GHG emissions and also the footprint of their products as part of legislative changes surrounding the European Green Deal. In this context, indirect emissions and the carbon sources of materials will play a much more crucial role. The RCI is actively working on solutions for companies to shift from fossil to renewable carbon, which consists of the use of bio-based feedstock, CO2-based resources and recycling. In the future, reporting on GHG emissions will also include Scope 3 emissions, which are all indirect emissions that occur along the company’s value and supply chain and where the used raw materials account for a large proportion of the footprint. Here is where the carbon source of chemicals and plastics comes into play as an important contributor to the carbon footprint. Without a shift from fossil to renewable carbon feedstocks (combining bio-based, CO2-based and recycled), a sustainable future and the Paris climate targets will be almost impossible to master.

To discuss, promote and realise the shift, 30 innovative companies have already joined forces to support the transition to renewable carbon, considering both technological and economical approaches – and helping to shape the political framework accordingly.

For the second year, RCI plans to focus on a comprehensive understanding of the expected political framework conditions in Europe and across the globe, since they will determine the future of chemistry and materials more than ever. Building on this knowledge, the topic of renewable carbon could then to be systematically integrated into new political directives, which has so far not been effectively managed.

In reality, the political focus lies on the strategy of decarbonising the energy sector, a very central and Herculean task. However, it cannot be applied to the chemical and material world because carbon is usually the central building block that cannot be dispensed with. On the contrary, the demand for carbon in the chemical and materials sectors is expected to more than double by 2050. In order to meet this demand in a sustainable manner, we must move towards quitting fossil carbon. For the first time in industrial history, it is possible to decouple chemistry and materials from petrochemicals and completely cover the demand through the utilisation of biomass, CO2 and recycling.

With its resource-saving dyeing technology, We aRe SpinDye takes place in H&M's latest Innovation Stories collection called Co-exist.

The use of We aRe SpinDye's technology contributes to reducing both water consumption and CO2 emissions, which in turn leads to a lower impact on the world's ecosystem and creates conditions for our co-existence with nature.

Up to 24% of a garment's entire climate footprint occurs during dyeing. We aRe SpinDye's technology can reduce the consumption of the earth's resources in textile production. On average, the reduction of water is -75%, chemicals -90% and energy consumption and CO2 emissions -30%.

In just one year, the clothing industry uses 9 billion cubic meters of water (which is in line with the annual need for drinkingwater for the entire population of our planet) and 168 million tons of process chemicals to dye fabrics. We aRe SpinDye now hopes that more players in the industry will pay attention to the ways that are available when it comes to resource-efficient dyeing process and quickly implement this technology in their production.

"The enormous resource consumption in the dyeing process is a global problem that must be addressed on a broad front. It is therefore inspiring to work with major brands with an organization that is sensitive to cutting-edge expertise and at the same time shows a willingness to work together to achieve common goals", says Andreas Andrén, CEO of We aRe SpinDye.