From the Sector

• 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 Swedish textile recycling company, Renewcell, has chosen AFRY as partner in order to digitalize production operations in their plants in Kristinehamn and Sundsvall, Sweden. AFRY will deliver an Industrial IT solution, containing AFRY MES and AFRY ProTAK, to manage production information and secure both high quality, as well as high overall efficiency in the production. The delivered solution will serve as a hub for all production process information.

Renewcell is a multi-award-winning textile recycling company based in Sweden. With the technology they have developed, the company has succeeded in recycling and regenerating textile fiber from old clothes to turn it back into fiber pulp. Renewcell has had a production site in Kristinehamn since 2017 and is now scaling up the production in their new production plant in Sundsvall. The new plant is expected to be operating during the first half of 2022. “Modern production and logistics require a high level of digitalization to meet the demands for, e.g., traceability, and therefore the systems and experience from AFRY will be very important to us,” says Ylva Stjernquist, Supply Chain Manager and Project Leader at Renewcell.

AFRY has a long experience in Industrial IT and will now deliver the two leading, closely integrated digital solutions for production management to Renewcell. The AFRY MES (Manufacturing Execution System) is a highly advanced digital information system that connects, monitors, and controls the complex production systems and data flows of the production processes. AFRY ProTAK is a digital tool that measures the effectiveness of a plant’s production machine performance. The system gathers information from different sources (e.g., DCS, MES, Maintenance) and combines that with the operators’ notes to calculate or present Overall Equipment Efficiency (OEE), which will lead to optimized production and increased profitability.

Together these tools will improve traceability and secure a high production efficiency by integrating data from all production systems and equipment. “We are focusing on improving sustainability within process industries, and it is therefore an honor to be part of Renewcell’s textile recycling through a full-scale digitalized solution. Our modern and competitive digital solution will definitely bring added value to these types of processes,” says David Andersson, Business Segment Manager Digitalization, AFRY Process Industries Sweden.  

AFRY MES and AFRY ProTAK will be installed to both Kristinehamn and Sundsvall plants. The installation is planned to be up and running during Q2 2022.

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

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

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

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

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

It looks like a normal shirt, but it has it all: The new SmartTex shirt uses integrated sensors to transfer physiological data from astronauts to Earth via a wireless communication network. In this way, the effects of the space environment on the human cardiovascular system will be evaluated and documented, especially with regard to long-term manned space missions. Developed by the German Aerospace Center (DLR) in cooperation with DSI Aerospace Technology, the Medical Faculty of Bielefeld University and textile research partner Hohenstein, SmartTex will be tested for the first time as part of the Wireless Compose-2 (WICO2) project by German ESA astronaut Dr. Matthias Maurer, who will leave for his ‘Cosmic Kiss’ mission on the International Space Station (ISS) for six months on October 30, 2021.

"We were already able to gain valuable insights into the interaction of the body, clothing and climate under microgravity conditions during the previous projects Spacetex (2014) and Spacetex2 (2018)," explains Hohenstein Senior Scientific Expert Dr. Jan Beringer. The insights provided at the time by the mission of ESA astronaut Dr. Alexander Gerst have now been directly incorporated into the development of the new SmartTex shirt at Hohenstein. "Matthias Maurer can wear his tailor-made shirt comfortably on his body during his everyday work on the International Space Station. For this, we used his body measurements as the basis for our cut development and the production of the shirt. We integrated the necessary sensors as well as data processing and communication modules into the shirt's cut in such a way that they interfere as little as possible and are always positioned in the right place, regardless of the wearing situation. This is the prerequisite for reliably measuring the relevant physiological data." The SmartTex shirt is intended to provide a continuous picture of the vital functions of astronauts. This will be particularly relevant for future long-term manned space missions to the Moon and Mars.

For example, during the BEAT experiment (Ballistocardiography for Extraterrestrial Applications and long-Term missions), Matthias Maurer will be the first astronaut to wear a T-shirt equipped with sensors that measure his ballistocardiographic data such as pulse and relative blood pressure. For this purpose, the sensors were calibrated in the :envihab research facility at the DLR Institute of Aerospace Medicine in Cologne. Details on the contraction rate and opening and closing times of the heart valves, which are normally only accessible via sonography or computer tomography, can also be read from the data material. The goal is to study the effects of the space environment on the human cardiovascular system. To be able to analyse these effects realistically, Matthias Maurer's ballistocardiographic data will be recorded before, during and after his stay on the ISS. For the future, a technology transfer of the SmartTex shirt for application in the field of fitness or even in telemedicine is conceivable.

Wireless Compose-2 (WICO2)
The project was planned and prepared by the German Aerospace Center (DLR) and its cooperation partners DSI Aerospace Technology, Hohenstein and the University of Bielefeld. The wireless communication network reads sensor data and can determine the position of people and objects in space by propagation times of radio pulses. It is also available as a platform for several experiments on the ISS. The determined data is temporarily stored within the network and read out at regular intervals by the astronauts. These data packets are then transferred to Earth via the ISS link and analysed by the research teams. It can generate its own energy from artificial light sources via solar cells.

ESA astronaut Dr. Matthias Maurer in summer 2021 during preliminary talks on the Cosmic Kiss mission in DLR's :envihab in Cologne. © DLR

Sensors measure physiological data during a test run on Earth. © DLR

With the "SmartTex" shirt, astronauts can wear the necessary sensors comfortably on their bodies. © DLR

Dr. Jan Beringer, Hohenstein Senior Scientific Expert. © Hohenstein

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.

On 21st October the Managing Director of Officina+39 Andrea Venier has joined a panel discussion in the prestigious arena of the Kingpins24 Digital Show. He contributed to the discussion with his and Officina+39’s point of view on “Water Conservation”, together with Emrah Özkorkmaz from Bregla and Taimur Malik from Stylers International, with Edward Hertzman from Sourcing Journal & Rivet as moderator.

Water crisis remains one of the top issues for humanity and 90% of the world's natural disasters are related to water. Officina+39 has been working hard to rethink the way water is used throughout the denim processes: Andrea's contribution emphasized the company’s practical and consolidated experience in this field, as in recent years their main objective has been to drastically reduce water use in line with UN SDG6.

Andrea pointed out how “fashion industry is still currently deeply rooted in a linear approach: make, use, dispose.” Accordingly to Andrea and Officina+39, the fashion world is becoming aware of this reality and is trying to reinvent itself in order to decrease the use of this precious resource and its negative impacts but there is still work to do in order to redesign a better sustainable model, where circularity should represent the new sustainability: circularity not only when it comes to the materials, but also to water.

In the textile industry water is used as the vehicle for colors and chemical auxiliaries but luckily today many technologies aim at significantly reducing water consumption. Officina+39 is really focused on this target: Andrea explained that “Officina+39 has developed the AQUALESS MISSION, a process suitable for conventional machines that leads to a 75% reduction of the water typically used in denim and garment laundry processes, using a waterless technology and saving costs for producers.”

Despite the start-up cost of investing in the development of sustainable technologies may discourage some in the industry, it is about time to realize that these actions cannot be delayed and that we will increasingly hear about water scarcity, water stress and water risk.

Andrea stated: “It is necessary to develop water management strategies and systems in any company: today there is ISO 14000 related to environmental management, but I believe that governments, brands and related organisations should think about an ISO related just to water management. In this way, every company can understand how much value can be generated in the medium-term and how much money could be saved by investing in this kind of technologies. To create new standards related to water management, we must change the approach.”

Renewcell and Kelheim Fibres Gmbh have signed a Letter of Intent for a long term commercial collaboration to add the crucial missing link for a circular economy for textiles in Europe. Together, the two technology leaders will collaborate on developing com mercial scale production of superior quality viscose fibers from up to 10 000 tonnes of Renewcell’s 100% textile recycled material Circulose® annually. The collaboration paves the way toward a fully European closed loop in which textile waste is collected, recycled and regenerated into new Circulose® fibers for people that want to reduce their fashion footprint significantly.

"European fashion consumption has great impact on climate and the environment globally. It also contributes to tremendous amounts of waste going into landfill and incinerators either in Europe or abroad after export. We will now work with Kelheim to prevent waste and reduce the need for virgin resources, while also enabling a fully regional supply of low impact circular fibers for text iles” comments Patrik Lundström, CEO of Renewcell. “We are thrilled for the opportunity to work closely with a partner like Kelheim, who is at the leading edge of innovation and sustainability in this industry” he adds.

Craig Barker, CEO at Kelheim Fibres adds: "We see an excellent fit between our two companies, not only on the technical side with Renewcell we have found a highly professional partner who shares our vision for future forward technologies that enable full circularity in the textile chain. Finding the answers to the challenges of our times is what drives us every day. Our recycled cellulose fibre solution made of Renewcell’s Circulose® and manufactured using environmentally sound processes at our Kelheim plant is an answer to the fashi on industries need for sustainable, resource and waste reducing solutions, and a more regional and reliable supply chain."

• A purpose-driven B2C festival for a young and optimistic generation

With THE GROUND, the PREMIUM GROUP is organizing a major fashion festival for young end consumers for the first time. Responsible for the event concept, in addition to Anita Tillmann, Jörg Arntz and the PREMIUM GROUP - team, is B2C expert Kai Zollhöfer, who already helped to make the Bread & Butter by Zalando a crowd puller.

“THE GROUND is a B2C festival aimed at a young, purpose-driven generation. This new generation has a strong stance on current social and environmental challenges and expects brands to reflect them. The overriding topics at THE GROUND are therefore sustainability, diversity and equality”, says Kai Zollhöfer.

“A  large  number  of  customers  are  interested  in  more  sustainable  options  -  there  is  a  desire  for  a  more conscious lifestyle, but this trend is currently not yet reflected in their actual shopping behavior. In between lies the so-called attitude-behavior gap, which THE GROUND wants to close further as a platform for brands with transparency and cool communication. We cannot expect that every brand, every consumer is currently doing everything 100% right, but it is the responsibility of all of us to take one small step in the right direction every day. We have to talk openly about how to do this in order to learn from each other so that we can take as many people as possible with us on this journey to a more sustainable future.“

The 3-day experiential marketing playground offers brands the opportunity to interactively exhibit purpose-driven stories and products and connect with consumers. In addition to the focus on fashion, brands from the areas of well-being, beauty, mobility and technology will present innovative products and solutions.

Kornit Digital Ltd. announced the release of its Kornit Presto MAX system for sustainable on-demand production of apparel and other textile goods. The new system will make its live debut at Kornit Fashion Week Los Angeles + Industry 4.0 Event, which the company is hosting November 2-5 to showcase technology innovations, partnerships, and proven strategies driving the business case for sustainable, on-demand production of fashion and textile goods worldwide.

Kornit Presto MAX is the first digital print system to offer white printing on colored fabrics, enhancing decoration capabilities for dark colored fabrics more broadly. It is the only single-step solution for direct-to-fabric printing, delivering the highest quality and softest feel with brilliant whites and brighter neon colors. The system is ready to incorporate future iterations and evolutions of XDi technology—3D decorative applications to produce threadless embroidery, high-density, vinyl, screen transfer, and other innovative effects.

Kornit Presto MAX is compatible with natural fabrics, synthetics, and blends, and includes advanced algorithms for smart autonomous calibration, to deliver high-quality results with short cycle times and minimal manual interruptions or defects. The system was devised for compatibility with the KornitX global fulfillment ecosystem to enable anywhere, anytime production, supporting a true distributed production model that fulfills nearer the end consumer, eliminating time and logistical waste from the experience while empowering brands to ensure quality and consistency across all systems and production sites.

Kornit Presto MAX provides the cornerstone of a smart, efficient, sustainable EcoFactory that empowers producers to cover and integrate more parts of the process, from design to finished product, to decrease their carbon footprint, use minimum manpower, and generate less waste. This means eliminating excessive time, labor, and shipping throughout the value chain, enabling proximity production to meet the accelerated demands of a web-driven global marketplace—revealing new sales channels and clever business models to grow the business long-term.

SABIC has announced that the newly formed Hygiene & Healthcare segment of its Petrochemicals business will showcase its extensive portfolio of SABIC PURECARES™ polypropylene (PP) and polyethylene (PE) polymers for high-purity nonwovens and hygiene films at the upcoming INDEX™ Expo in Geneva, Switzerland, from October 19 through 22, 2021. The company will also present enabling solutions developed with partners to address the issue of plastic waste and support the transformation of the industry towards a circular economy with closed-loop initiatives and certified circular polymers under its TRUCIRCLE™ portfolio and services.

During INDEX, SABIC will exhibit a wide range of PP polymers targeted at these needs. Highlights on display will include dedicated PP and PE grades for lightweight nonwoven fabrics using the latest spunbond and meltblown processes, and a new ultra-high melt flow PP product engineered for meltblown fibers in nonwoven fabrics. The nonwoven focus will be complemented by industry proven polyolefins for cast and blown film applications in hygiene webs and laminates, providing desirable back and top sheet properties such as water tightness, breathability and elasticity.

In addition, SABIC will also present ISCC Plus certified fiber and film polymers based on circular and renewable PP and PE polymer technology as part of the company’s TRUCIRCLE portfolio for advancing the transformation of the plastics industry from a linear to a truly circular economy. Examples of this comprehensive initiative include collaborations with various market leaders in the field. Together with Fibertex Personal Care, one of the world’s largest manufacturers of spunbond nonwovens for the hygiene industry, SABIC is creating a range of high-purity nonwovens for the hygiene market using ISCC PLUS certified circular PP polymer derived from post-consumer plastic waste. In another project, Fraunhofer Institute, SABIC and Procter & Gamble (P&G) joined forces to develop and demonstrate the feasibility of an advanced close-loop recycling process for used nonwoven facemasks.