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Synthos Enters into the Next Phase of Bio-Butadiene Technology Development to Produce Sustainable Rubber

Synthos Enters into the Next Phase of Bio-Butadiene Technology Development to Produce Sustainable Rubber

Synthos announces that it has reached a major milestone in the development of advanced bio-butadiene technology. After completing a successful feasibility study in 2021, Synthos, Lummus Technology, and its Green Circle business have concluded that the bio-butadiene technology is ready for implementation, and the companies have agreed to move into the engineering and design phase of the project.

Given the confidence in the technology and the strong market demand for renewable materials, Synthos has committed to building a plant with a capacity of 40,000 metric tons of bio-butadiene per year – twice as much as the companies had originally planned. In addition to the plant capacity expansion, Synthos has confirmed that it will license BASF’s butadiene extraction technology from Lummus and leverage Lummus’ digitalization capabilities for operational efficiency and reliability.

Synthos is making great strides in developing a synthetic rubber product portfolio with a significantly reduced environmental footprint. Entering the next phase of our collaboration with Lummus is another step toward our commitment to support our customers achieve their performance and sustainability goals, said Matteo Marchisio, Synthetic Rubber Business Unit Director, Synthos. We believe the availability of sustainable synthetic rubber made from bio-butadiene will play an important role in the industry’s ability to meet the demands of modern mobility, and we are proud to partner with Lummus Technology to lead the way.

Since Lummus began collaborating with Synthos last year, it has become evident that this technology has the potential to be the new standard in our industry due to its renewable sourcing, production efficiency, and low carbon footprint, said Leon de Bruyn, President and Chief Executive Officer of Lummus Technology. The petrochemical industry is quickly adjusting to ambitious sustainability requirements, and at Lummus, we continue to lead this change on multiple fronts. The commercialization with Synthos of this biotechnology for more sustainable rubber products is one of several sustainable process solutions that are making a positive impact.

www.synthosgroup.com

www.LummusTechnology.com.

SHRI ARVIND ATHALYE : A DOYAN OF PLASTIC INDUSTRY

SHRI ARVIND ATHALYE : A DOYAN OF PLASTIC INDUSTRY

Shri Arvind Shankar Athalye was a scholarly, dynamic personality, closely associated with Plastic Industry in India for the past 60 years. He has been a dedicated crusader who worked hard to give a “place of pride” to Plastics amongst the materials, serving the needs of mankind by spreading the knowledge of Plastics and their use. He was considered as a Guide . a Philosopher and a Teacher by many in Plastics Industry for his unstinted, selfless, and unblemished service rendered to the Plastic Fraternity in different capacities.

Shri Arvind Athalye graduated in Polymer Engineering from Michigan State University, of the USA in the year 1958. He began his professional career with Dow Chemical Corporation in Michigan, USA. He was deputed by Dow as a Member of their Commissioning Team for their ABS Plant at Kawasaki in Japan in the year 1959. His working association in a foreign land. though remained for a brief span, left an indelible and distinct impression of his experience amongst his colleagues and associates, which paved a long way for his illustrious career on his return to India in 1960.

On his return to India, he worked with Polychem Ltd., a Dow Chemicals joint venture with Kilachand group, who produced PS, HIPS & other Styrinics Plastics. During the years 1960-65, he headed the Technical Services Department and Application Development Group of Polychem Ltd. Thereafter he joined Hoechst Dyes & Chemicals, producers of HDPE, heading the Technical Services and Application Development Department until he left it in 1972.

His curious mind and inquisitive approach prompted him to move, to take on bigger challenges in the
Industry. He joined Thackersey Group in 1972. During this association, Shri Athalye played a crucial role in Business Diversification and new Investments in the In-House production of a variety of products. He
established CSIR, recognized R&D Centre for testing products like HDPE – Woven Sacks, Leno Sacks,
Fibrillated Tapes for Twines and Ropes etc. He played his role in the development of these products till
successful commercialization. The Industry seeking the benefits of his wide knowledge and experience
sought his association in Business Development. He was the Director on the Board of Thackersey Group
Companies, as well as those in the Dilip Piramal Group, including Blow Plast Ltd.

In the year 1981, Shri Athalye started his own independent activity of Projects Consultancy in the field of
Plastics Processing and Packaging. He creditably serviced about 100 Clients, both at Home and Overseas.

Shri Athalye was the Fellow of the Institute of Materials, UK, The Indian Standards Institution, The Institute of Standard Engineers, Indian Plastic Institute (IPI), and a Senior Member of Society of Plastics Engineers, (SPE) Inc, USA. He was also a member of the Managing Committee of AIPMA and of. Technical Education Committee, Government of Maharashtra.

He played an important role in the formation of the Indian Plastic Institute and served as its Hon. Secretary and
continued to take an active interest in all activities of IiPI. In consideration of his yeoman service to the Plastic Industry, the Indian Plastic Institute Awarded him with the “Life Time Achievement Award” in 20.. in a glittering function in Mumbai.

Shri Athalye had remained an enthusiastic learner, as well as an influential Teacher of Plastics all through his life. In the midst of his professional activity and commitments, Shri Athalye also invested his valuable time to edit Popular Plastics &  Packaging, a Monthly Journal for the last 60 years, until he breathed his last. As the Hon. Editor of this Magazine, he has been disseminating knowledge to Plastics Fraternity with great commitment.

Shri Athalye has a unique experience of publishing several Technical Books on the Processing of Plastics,
Plastics Materials, Plastics in Flexible Packaging, Testing of Plastics, etc. His books including one on PVC Technology jointly authored with Mr. Prakash Trivedi are being used as reference material for Polymer courses all over India. In addition, Arvind Athalye presented several Technical Papers on Plastics Processing and End-Use Applications, at various Seminars and Conferences.

Some years back he shifted his personal residence from Mumbai to Pune and in spite of suffering from health issues, he kept in contact with the Plastics Industry Fraternity. Arvind Athalye has been highly respected as a fatherly figure of the Plastics Industry for almost eight decades and his contribution will be remembered for the time to come.

He breathed his last on ______ and in his demise, the void created in the Plastic Industry is very difficult to be filled in. Our sincere condolences to his wife and other family members and pray for eternal peace for his soul.
J. R. Shah.

 

PROVALIN with a broader processing window

PROVALIN  with a broader processing window

Softer and more thermally stable, this is how the new PROVALIN1242 is presented by Actega as a successor to PROVALIN 1241, the PVC- and plasticizer-free compound for metal vacuum seals, which has already been successful on the market for the past ten years as a standard compound for pasteurization of all types of goods. This more thermally stable and softer compound speeds up embedding on the glass neck while reducing the risk of cut-through.

The market for PVC-free closures has undergone enormous growth in recent years. And requirements have become increasingly more detailed. Of the 16 billion Twist-Off seals currently used in the EU, at least 20 percent are now PVC-free – with an annual growth of approx. 30 percent. Numerous high-performance plants have been installed which are capable of covering the growing demand in Europe.

More and more manufacturers of seals have also invested in PVC-free technology with the result that the available capacities are continuing to grow. A further increase to more than five billion Twist-Off seals is anticipated in 2022.

In the course of this development and the increasing demand for PROVALIN1241 in particular, a wide range of different capping machines with various capping conditions is now available on the market, some of which make different demands on the compound used, e.g. because faster machines are used, various steam pressures or capping forces are present, etc. Permissible tolerances in the glass neck dimensions, as well as the overall container (such as overall height, axial deviation, etc.), can also result in different processing behavior during the capping process.

The newly-developed PROVALIN 1242 meets these new requirement profiles, as it has a higher resistance to mechanical and thermal stress and is softer compared to PROVALIN 1241. Capping requires pre-dampening of the closures, i.e. the glass and the closure are brought together in the machine head in a controlled vapor atmosphere.

On the one hand, the steam creates an initial vacuum. But it also causes a softening of the sealing compound in the closure, which becomes visible in a permanent impression of the glass mouth after closing and reopening, depending on the temperature effect and time. This embedding of the glass mouth in the sealing compound over the full circumference ensures the tightness of the packaging system during its shelf life. That said, a deviation during vapor deposition can have negative consequences.

If the preheating is too low, which can occur with very fast sealing machines, for example, this can lead to an insufficient impression of the compound and insufficient embedding on the glass mouth. This, in turn, harbors the risk of vacuum loss.

In the case of excessive preheating, which can happen when the closing process is interrupted, for example, there is a risk of the compound impression being too high, which can then cause cut-through. Accordingly, a compound is required that displays a higher degree of softness accompanied by a higher degree of thermal stability.

The fact that PROVALIN 1242 is softer, thereby permitting faster embedding on the glass neck finish (this is necessary for faster capping machines in particular), as well as displaying a higher degree of thermal stability enabling the use of higher pasteurization temperatures and minimizing the risk of cut-through, has been proven in various test set-ups.

The glass jars were sealed with variants of sealing force and steam pressure (without post-treatment), whereby worst-case scenarios were also included in order to underline the performance of the compounds. The results show that even in the worst-case scenario, the residual thickness of PROVALIN  1242 remains within an acceptable range. The opening values were also examined and show that they are at a good level for both PROVALIN 1241 and 1242.

Conclusion

With its significantly extended processing window, PROVALIN 1242 offers the following benefits: Easier changeover on the capping lines, as PROVALIN 1242 behaves similarly to PVC during capping A significantly reduced risk of cut-through, even in a worst-case scenario.A broader thermal treatment range for pasteurization up to 98 °C A softer compound for faster embedding on the glass neck finish – particularly for faster capping machines

Accordingly, Actega has once again proven itself to be a pioneer in the development of both sustainable and practical solutions. PROVALIN was developed on the basis of corresponding EU specifications (EU 10/2011 and PIM), for example. Where the original focus was on food with fatty contents as they leach out the plasticizers usually contained in PVC sealing compounds and allow them to migrate into food, fillers of organic products attaching particular importance to an ecological overall package changed over to PVC-free at an early stage.

Meanwhile, the issue has far surpassed the organic sector and can now be found in practically all areas of food. What started off as a niche range is now a firm component of the market. But the market is continually evolving, as indicated by the development of PROVALIN 1242. New challenges can present themselves at any time, e.g. on the part of the filling industry.

Or on the regulatory side, e.g. if materials such as additives in food contact are re-evaluated by the FDA or the EU. These are all key incentives for innovation; for new developments that give the bottler benefits such as better manageability, broader application possibilities, the elimination of uncertainties regarding regulatory issues, and much more.

www.actega.com

 

First Krones solution for ozonising water developed in-house

First Krones solution for ozonising water developed in-house

Ozone is known as one of the strongest oxidising agents available. Producers of packaged water also like to take advantage of its effect and operating principle because ozone dissolved in water reliably removes bacteria and viruses and then swiftly decomposes without leaving any residues.

That is precisely the reason why an ozoniser ideally supplements the kit of all those who use a conventional filling process for their still water and want to be on the safe side with product quality. Now, Krones has expanded its portfolio of water-packaging equipment to include just this area of expertise, introducing an ozoniser developed in-house. 

The ozone generator integrated into the Krones Ozonomic works on the principle of dielectric-barrier discharge: It breaks down oxygen and forms ozone molecules which are added to the drinking water before filling it.
In order to convert oxygen into ozone, the ozone generator works exclusively on the basis of compressed air, so no separate oxygen supply is required.

The downstream stainless steel injection system is operated at a pressure of two to three bars, which makes for efficient ozonisation performance, even with high water temperatures or pH values. The typical amount of ozone added to still water is 0.4 mg per litre of product.

The name alone denotes its close connections within the Krones portfolio: the Ozonomic and the water treatment systems from the Hydronomic family constitute a can-do team when it comes to meeting the most stringent of requirements for water quality. After the water has been treated in various modules of the Hydronomic series, it is passed through the Ozonomic, which guarantees its microbiological stability, so that a conventional process can then be used for packaging it without any impairment of quality and product safety.

Ozonisation even achieves disinfection twice over here: Not only does the ozone sterilize the water itself, at the same time it also disinfects all container and closure parts coming into contact with the product.

Click here

Ricoh and Durst extend partnership with €50million printhead technology deal

Ricoh and Durst extend partnership with €50million printhead technology deal

Ricoh Europe has agreed on a landmark €50million printhead technology deal to extend its successful collaboration with Durst Group AG.

A leading manufacturer of advanced digital printing and production technologies, Durst Group already uses Ricoh Gen 5 inkjet printheads in its Alpha textile printing systems and the Durst P5 series for large format printing – considered the most successful, productive, and versatile printer series in the market.  As part of this new deal, in the future, Ricoh printheads will also be further developed for upcoming Durst printing systems for their various fields of application.

Both Durst and Ricoh share a commitment to delivering long-life performance. In recent years, the two companies have intensified their partnership and created the most stable and flexible printing system, especially in digital textile printing with the Durst Alpha series. Though the end result might seem simple, achieving maximum print quality and productivity and such reliable, risk-free solutions have involved intensive development and ink formulation work, plus rigorous testing of thousands of printheads and tonnes of ink. This experience was then applied to Large Format Printing.

Dr. Christian Compera, Global General Manager of Ricoh’s Industrial Print business, Ricoh, says: “The partnership will allow us to develop our printheads in a more focused way with real-world requirements. Often there can be a high level of protectiveness surrounding printhead intellectual property, materials, and printhead production technologies as well as ink formulations. By bringing together the Ricoh and Durst development teams, we share the goal of continuously improving the entire printing system, which ultimately benefits customers.”

Christoph Gamper, CEO, and co-owner of the Durst Group adds: “This deal reaffirms and continues a collaborative approach with Ricoh. Extending our partnership with Ricoh enables us to achieve a faster time-to-market for new printing systems, as we work together on the perfect interaction of printheads inks and substrates. Not only does this allow us to achieve maximum print quality and performance but also to guarantee reliability for extended printer life. It gives our customers a clear basis for their investment decisions, without the risk factor of the printhead.”

The technical expertise and teams of both Ricoh and Durst will collaborate on new solutions, developing printheads as well as printers, to open up the potential for inkjet technology to address the needs of emerging applications. New ways to use inkjet technologies and materials for enhanced sustainability – for example lower drying energy consumption – are already being explored. Further collaborative initiatives will be revealed in the coming months.

#€50million printhead  #technology deal #Ricoh and Durst 

Click here

 

SABIC collaborates with Kraton for certified renewable butadiene to produce certified renewable styrenic block copolymers

SABIC collaborates with Kraton for certified renewable butadiene to produce certified renewable styrenic block copolymers

SABIC, a global leader in the chemical industry has announced a new collaboration with Kraton, a leading global sustainable producer of specialty polymers and high-value bio-based products derived from pine wood pulping co-products, to deliver certified renewable butadiene from its TRUCIRCLE portfolio for use in Kraton’s certified renewable styrenic block copolymers (SBC).

This effort forms part of SABIC’s 2025 strategy, which includes a Sustainability Development Goal roadmap spanning the organization’s entire value chain and addressing 10 goals to help drive meaningful sustainable change.

SABIC’s certified renewable butadiene is derived from animal-free and palm oil-free ‘second generation’ renewable feedstock, such as tall oil, a by-product from the wood pulping process in the paper industry. This feedstock is not in direct competition with human food and animal feed production sources.

According to the cradle-to-gate lifecycle analysis, from sourcing, the raw feedstock to producing the polymers, each kilogram of the company’s bio-based butadiene reduces CO 2 emissions by an average of 4 kilograms compared to fossil-based virgin alternatives. Additionally, each ton of the butadiene also cuts fossil depletion by up to 80 percent.

Mohammed Al-Zahrani, Vice President, Chemical at SABIC adds, “Sustainability in SABIC is embedded across our organization and goes hand in hand with our commitment to helping our customers and their customers meet their own sustainability targets. Developing more sustainable solutions requires partnerships across the value chain.

Our collaboration with Kraton for renewable butadiene as feedstock for Kraton’s polymers is another example of working together towards our common goals and confirms the wide interest from the chemicals industry in developing sustainable solutions for the future. After SABIC’s earlier successes in developing certified renewable and circular ethylene, propylene, and benzene, we are delighted to add certified renewable butadiene to our TRUCIRCLE portfolio.”

SABIC’s certified renewable butadiene will be used in Kraton’s newly launched ISCC PLUS certified renewable CirKular+ Renew Series to expand Kraton& the existing suite of solutions designed to advance the circular economy. With up to 70% certified renewable content, the Renew Series offers customers the opportunity to use the mass balance approach and adopt ISCC PLUS certification to produce renewable products. Kraton successfully produced CirKular+ Renew Series Hydrogenated Styrenic Block Copolymers (HSBC) at the Berre plant earlier this year using SABIC’s renewable butadiene.

 Kraton’s ambition is to enable the bioeconomy and play a role in advancing the circular economy. Value chain collaboration is instrumental in achieving progress towards a circular economy. Kraton is excited to collaborate with SABIC in using certified renewable butadiene enables us to develop and produce styrenic block copolymers with up to 70% of certified renewable raw material content, said Holger Jung, Kraton Senior Vice President, and Polymer Segment President.  This is an exciting innovation for our customers as it can help reduce the carbon footprint of fossil-based HSBC made in our Berre plant by up to 65 percent.”

International Sustainability and Carbon Certification (ISSC) Plus certification is a globally-recognized system that provides traceability of recycled and renewable-based materials across a complex supply chain, by following predefined and transparent rules.

SABIC’s TRUCIRCLE portfolio spans a range of products and services, including design for recyclability, mechanically recycled products, certified circular products from feedstock recycling of used plastic, certified renewable products from bio-based feedstock, and closed-loop initiatives to recycle plastic back into high-quality applications and help prevent valuable used plastics from becoming waste.

#renewable butadiene #certified renewable #styrenic block copolymers

Messe Düsseldorf on the accommodation of refugees from Ukraine in the exhibition center

Messe Düsseldorf on the accommodation of refugees from Ukraine in the exhibition center

Messe Düsseldorf is making its largest hall available for the accommodation of Ukrainians who have refugeed. In Hall 6, which covers more than 25,000 square meters, the company, together with the German Red Cross and the Düsseldorf Fire Department, set up 1,000 cots on Monday, March 07, 2022, which were already occupied from the late afternoon. In addition, around 2,500 meters of partition walls were erected to divide the hall into smaller rooms.

Wolfram N. Diener, President & CEO of Messe Düsseldorf: “We were very happy to accommodate the request from the Office for Migration and Integration of the City of Düsseldorf. On the day of construction, a large number of colleagues spontaneously lent a hand to make the accommodation possible as quickly as possible. Because we are moved by the fate of the people. And because we are deeply moved by the plight of the refugees. Receiving and accommodating them is a matter of course for us.”

Hall 6 has its own changing rooms and 40 shower places. Capacity is supplemented by external shower containers. Catering will be provided by Stockheim, Messe Düsseldorf’s catering partner. All refugees will also have access to free Wi-Fi, which will enable them to keep in touch with family and friends and to find out about developments in Ukraine.

#refugeesfromukraine #exhibitioncentre #accomdation 

https://www.messe-duesseldorf.com/

 

 

World Centric Announces New 4-Can Fiber Carrier Rings, 100% Compostable Alternative to Traditional Polyethylene Plastic

World Centric Announces New 4-Can Fiber Carrier Rings, 100% Compostable Alternative to Traditional Polyethylene Plastic

World Centric has announced today its new compostable 4-can fiber carrier rings. The company’s new Fiber Can Rings are made exclusively from annually renewable plant fibers instead of high-density polyethylene (HDPE) or low-density polyethylene (LDPE), which are commonly used with beer, soda, and other cans, and are harmful to both the environment and wildlife.

 The new Fiber Can Rings provide a plant-based, compostable alternative that does not require petroleum, helps reduce carbon footprint, and keeps additional microplastics out of our oceans, forests, and landfills.

Made from sugarcane and bamboo, which are both annually renewable resources, the new World Centric can ring also limit the use of timber materials in an effort to protect forests and indigenous communities whose livelihoods depend on these forests. World Centric’s Fiber 4-Can Carrier Rings give food and beverage service companies a more environmentally conscious way to deliver canned products. They are designed to compost within 2 to 4 months in a commercial composting facility.

“Flexible can rings are still commonly made from plastics despite public concerns about their harm to wildlife, and most people aren’t aware that plastic can rings are not always recyclable,” said Mark Stephany, World Centric Senior Vice President of Sales. “Beverage can ring contribute to the overwhelming problem of plastic waste that ends up in our oceans annually. Our fiber can ring are part of the solution.”

#new4canfibre #carrier ring #polyethylene plastic

https://www.worldcentric.com/

Messe Düsseldorf Group suspends its business activities in Russia until further notice

Messe Düsseldorf Group suspends its business activities in Russia until further notice

As a consequence of the disturbing events in Ukraine, the Supervisory Board of Messe Düsseldorf has decided to suspend the group’s business activities in Russia until further notice. This also includes the activities of the subsidiary Messe Düsseldorf Moscow.

Dr. Stephan Keller, Lord Mayor of the state capital Düsseldorf and Chairman of the Supervisory Board of Messe Düsseldorf, emphasizes: “The whole city of Düsseldorf is thinking of the people in Ukraine. After we have already put the city partnership between Moscow and Düsseldorf on ice, it is only logical that Messe Düsseldorf, as a subsidiary of the city, also suspends its activities in Russia for the time being.”

Wolfram N. Diener, CEO & President of Messe Düsseldorf, adds: “The current events contradict the mission and values of our company, which is to create international marketplaces for free, cross-border intercultural and economic exchange.”

business activity #suspend #Russia

https://www.messe-duesseldorf.com/

 

Warby Parker partners with Eastman to launch new Warby Parker partners with Eastman to launch new demo lens molecular recycling program program

Warby Parker partners with Eastman to launch new demo lens molecular recycling program

 Warby Parker, the eyewear brand with a mission to inspire and impact the world with vision, purpose, and style, today announced a new partnership with Eastman to pioneer a first-of-its-kind demo lens molecular recycling program.
One of the greatest environmental impacts within the eyewear industry is the lack of a recycling solution for demo lenses—the clear plastic lenses used across the industry to maintain frame shape and integrity while in transit, on display, and for try-on. With the 600 million frames produced annually industry-wide1, this practice accounts for over 5,000 tonnes of waste per year globally. For years, Warby Parker has researched alternative materials for discarding the plastic alongside downstream solutions, all of which have fallen short due to quality and this type of plastic is incredibly difficult to break down.
 
Since the summer of 2021, discarded demo lenses from Warby Parker’s optical labs, located in Sloatsburg, NY, and Las Vegas, NV, have been sent to Eastman’s facility in Kingsport, TN, where Carbon Renewal Technology is used to break the lenses down to their molecular level. Once broken down, the molecules are reused as the building blocks to create Eastman Acetate Renew—an acetate exclusively supplied by Eastman that is 60% bio-based2 and 40% certified recycled content. Acetate Renew is chemically and physically identical to traditional acetate; it offers a sustainable solution with no compromise to aesthetics, durability, or performance. The brand plans to begin incorporating Acetate Renew into some of its frames later this year.
 
As the only eyewear brand to recycle its demo lenses with Eastman while sourcing Acetate Renew for new eyewear, Warby Parker is making progress toward a circular solution and lowering the environmental impact of producing its frames.
“From day one, Warby Parker has set out to find innovative solutions to everyday problems—and along the way, we’ve taken a stakeholder-centric approach. We’re committed to evaluating how our operations impact our employees, customers, and the environment, and our partnership with Eastman exemplifies this commitment,” said Neil Blumenthal, co-founder, and co-CEO of Warby Parker. “We hope that others in the eyewear industry will join us as we work towards solutions to lessen our impact on the planet and its people.”
 
“Warby Parker’s commitment to reduce the impact of their products on the environment has been evident throughout this project. Eastman appreciates their commitment to take action and change the status quo,” said Scott Ballard, Eastman’s vice president, and general manager of specialty plastics. “The demo lens to Acetate Renew breakthrough is the first of what we expect to be many examples of Eastman customers leveraging our molecular recycling technologies to divert material from landfill and lower carbon emissions.”
 
#newdemolens #moleculr recycling #partnerwitheastman