Biopolymers-PHA – Plastic-waste 13-05-2022

Biopolymers-PHA – Plastic-waste

-Stora Enso strengthens its presence in France and invests in French wood processing

Stora Enso invests in ACDF Industrie SAS and becomes a 35% shareholder of the French wood processing company. The investment is in line with Stora Enso’s growth strategy for mass timber building elements, enabling value-added, bespoke CLT (cross-laminated timber) solutions to its long-term French partners.

ACDF Industrie SAS works with all engineered wood products like CLT, Glulam and LVL (laminated veneer lumber) and manufactures them into various value-added products such as walls, floors or roof elements for residential and non-residential buildings, mainly for the French market.

‘France is one of our priority markets for growth, with building regulations favouring sustainable, renewable materials and low carbon property development. This investment builds on Stora Enso’s capacity to produce CLT and LVL near sustainably managed forests, and ACDF Industrie’s readiness to further process our wood products into walls, floors and roofs near construction sites all over France. This partnership strengthens our market reach and position as a leading global provider of sustainable engineered wood products,’ says Lars Volkel, Executive Vice President, Stora Enso’s Wood Products division. Biopolymers-PHA – Plastic-waste

ACDF Industrie SAS’ investment in a second production line is developing according to plan. It will increase the capacity of mass timber elements and it will be ready in February 2023.

Biopolymers-PHA - Plastic-waste

-Russia’s GDP this year will fall by 12% – Bloomberg learned the forecast of the Ministry of Finance

The Finance Ministry expects Russia’s GDP to fall by 12% this year, Forbes reported, citing Bloomberg.

This is the largest decline in the country’s economy since 1994. If this forecast comes true, it will negate economic growth in about 10 years.

“The main negative factors are the oil embargo, the EU’s refusal of Russian gas, as well as the growing number of foreign companies leaving Russia,” explained Natalia Lavrova, chief economist at BCS. She expects that the negative consequences of current events will be transferred to 2023. If we build a forecast based only on the current sanctions, then the reduction in GDP this year will be 10.8%, and next year – about 5%, she said. Biopolymers-PHA – Plastic-waste

According to the baseline forecast of the Central Bank, in 2022 GDP will decline by 8-10%, the Accounts Chamber expects a drop in GDP from 8.8% to 12.4%, the World Bank in the April forecast suggested that the Russian economy in 2022 will shrink by 11.2%, and economists believe that the decline will be 10.3%.

If the Treasury Department’s forecast turns out to be accurate, it will negate about a decade of economic growth.

Biopolymers-PHA - Plastic-waste

-CJ Bio launches PHA production in Pasuruan, Indonesia

CJ Bio, a division of South Korea-based CJ CheilJedang, has begun manufacturing PHA biopolyester at a newly commissioned facility located in Pasuruan, Indonesia, the company has announced.

With a rated capacity of 5,000 tonnes, the new facility will exclusively produce ‘amorphous’ PHAs (a-PHAs). Amorphous PHA , which has a low glass transition temperature (Tg), is a soft, rubbery version of PHA that offers fundamentally different performance opportunities than crystalline or semi-crystalline forms of PHA.

This material will be used as a modifier for other polymers and biopolymers to improve functional characteristics and biodegradability.

Polyhydroxyalkanoates are linear polyesters produced in nature through bacterial fermentation of sugars or lipids. They occur naturally in living cells from a 5-10% rate, which gives PHAs their excellent biodegradability. CJ BIO can increase PHA content up to 85% through bacterial strain and proprietary fermentation technology. The company employs advanced downstream technology for the extraction of PHA components and for the manufacture of specific products.

The technology also has the potential to develop building blocks for other performance materials made from non-fossil fuel sources. With the company’s first commercial production facility up and running a, CJ Bio shipped its first material in April of this year. Biopolymers-PHA – Plastic-waste

This new PHA manufacturing facility in Pasuruan is the culmination of decades of work that started at the company Metabolix in the early 2000s and which CJ Bio has been improving since it acquired Metabolix biopolymer assets in 2016. The company will continue to work of further expansion plans.

Biopolymers-PHA - Plastic-waste

-Stora Enso – Your questions answered: designing food packaging beyond plastics

Consumers have high sustainability expectations for brand-owners’ food packaging, and they are willing to pay more for environmentally friendly products. These are two findings from a recent study we conducted among European consumers on their attitudes toward food packaging materials, recycling behaviors, and expectations they have for brand-owners. Biopolymers-PHA – Plastic-waste

We shared some of these insights during our webinar ‘Designing food packaging beyond plastics: what do consumers want?’ where we brought Stora Enso’s experts together for a conversation on packaging sustainability and design. The discussion is valuable especially for brand-owners who would be interested in improving packaging sustainability by switching from non-renewable materials to renewable, fiber-based alternatives. If you were not able to attend, a recording of the webinar is available here.

We received plenty of thoughtful feedback from viewers, and in this article, we will answer a few of the common questions from you.

We are interested in fiber-based packaging, but we want to ensure that we will have sufficient material supply. How can we be sure that we will have continuous access your products?

The supply situation for our materials remains relatively stable and we are confident there is enough wood fiber for our current uses. We continue to work to ensure the availability of the right kind of wood in different parts of the world, use recycled fibers and optimize our board-making capacity and output from raw materials. Further, we are continuously looking forward to increasing our production capacity to further ensure supply for brand-owners looking to make the switch to fiber-based materials. Biopolymers-PHA – Plastic-waste

Biopolymers-PHA - Plastic-waste

-Europe’s plastic recycling volume growing, says group

Plastics Recyclers Europe says plastic recycling capacity is growing at an impressive pace in the EU.

Brussels-based trade association Plastics Recyclers Europe (PRE) says the plastic recycling industry in the European Union (EU) is continuing “fast-paced efforts toward reaching the EU targets,” with “new figures for installed plastics recycling capacities” revealing a 13 percent growth rate.

The total installed plastics recycling capacity in 2020 in the EU27 nations (plus three nations adhering to EU regulations) grew by 1.1 metric tons compared with the previous year’s installed capacity. Biopolymers-PHA – Plastic-waste

“The new figures show that the plastics recycling industry remains resilient while continuing its path toward making plastics genuinely circular,” states PRE. Growth in the sector, despite the difficulties brought on by the pandemic, was possible “thanks to the booming demand driven, among others, by the new legislative targets,” adds PRE.

Europe’s plastic recycling volume growing, says group

-New York recycling legislation aims to increase collection rates, PCR supply

EPR bill considered toughest in nation

Companies would reduce packaging by 50%

Two plastic packaging bills were recently introduced in New York state that, if passed, would raise the supply of recycled plastics, reduce waste and incentivize companies to use more sustainable packaging.

The first bill, AB A10185, would establish an extended producer responsibility, or EPR, program, which aims to increase collection rates and in turn the supply of recycled materials, by shifting some packaging end-of-life management burdens from consumers and governments to industry. Biopolymers-PHA – Plastic-waste

“The EPR bill puts the responsibility from cradle to grave on manufacturers as they will take responsibility for the eventual recycling or reuse” of packaging, Englebright said at a May 10 press conference. “[Plastic packaging] goes out the door of the manufacturing facility, and they never think about it again. But we … have higher taxes and compromised health.”

Key features of the bill include requiring companies to gradually reduce their packaging by 50% over 10 years through more sustainable packaging design, switching to reuse/refill systems, and/or eliminating excess packaging altogether

Companies would also be required to transition 90% of their remaining packaging over 12 years to be recyclable, compostable or made from recycled content. In all new packaging, certain materials will be banned, including PFAS, heavy metals, and non-recyclable plastics such as PVC and polystyrene.

Also, packaging producers would be required to pay fees to the program, which will be determined via a structure that provides incentives to producers that seek to reduce waste at the source and adopt more sustainable packaging designs and practices. Charges will also be adjusted based on the percentage of post-consumer content, which producers will be required to specify on packaging products.

The bill specifies that the definition of post-consumer resin should not include any material sourced from energy recovery or “generated by means of combustion, incineration, pyrolysis, gasification, solvolysis, chemical recycling and any high-heat or chemical conversion process.”

Europe’s plastic recycling volume growing, says group

Biopolymers-PHA – Plastic-waste

Plastics-Recycling – Biotechnology 12-05-2022

Bioplastic-degradation – Food-packaging 13-05-2022

Bioplastic-degradation – Food-packaging

Crude Oil Prices Trend 

Crude Oil Prices Trend  Polyestertime

-Solvay launches new growth platform focused on renewable materials and biotechnology

The fourth growth platform will increase the share of renewable carbon in Solvay’s product offering and open up new business opportunities for multiple markets

Solvay is launching a new Renewable Materials and Biotechnology platform, dedicated to developing innovative and sustainable solutions for a range of markets, using renewable feedstocks and biotechnology. The company is already a market leader in some bio-based products, including guar, bio-sourced solvents and natural vanillin, the latter of which is enabled by biotechnology.

The new platform will bring together several Solvay businesses to help meet growing demand for sustainable solutions by increasing the share of renewable carbon1\ in Solvay’s product offering and developing new business opportunities enabled by biotechnology.  It complements Solvay’s three existing growth platforms, Battery Materials, Green Hydrogen and Thermoplastic Composites.

The platform will accelerate the integration of sustainable renewable feedstocks into Solvay products. It will also enable the development of new approaches to manage the end-of-life of these products, which includes biodegradability by design.

This presents enormous innovation potential, which Solvay is well positioned to leverage, both through internal expertise and strong links with customers and external innovation partners.  Bioplastic-degradation – Food-packaging

Through open innovation and strategic alliances, Solvay intends to build new growth businesses that will benefit multiple markets, while also helping to address key societal and environmental needs. This includes providing formulations for agro and personal care, solutions for food and flavors, and advanced materials for transportation and aerospace

Through enabling the development of sustainable solutions based on renewable carbon, the platform will also play a fundamental role in the achievement of Solvay’s 2030 sustainability goals, set out in the  Solvay One Planet sustainability roadmap. These goals include increasing the share of sustainable solutions in Group sales to 65% and more than doubling the share of Solvay products based on circular raw materials or energy in Group sales compared to 2018, as well as reducing greenhouse gas emissions by 30% by 2030.

1 Renewable carbon encompasses carbon sources that prevent or replace the use of fossil carbon. This definition includes carbon from biomass, CO2 and recycling.

Bioplastic-degradation - Food-packaging

-Assobioplastica criticizes CNR study on bioplastic degradation

The association of the compostable plastics industry emphasizes the instrumental significance of the operation and highlights three unique aspects of the research. CNR bioplastics study Bioplastic-degradation – Food-packaging

The premise can be found at the end of the statement released today by Assobioplastica regarding the announcement made yesterday by the CNR on the results of a study on the (slow) degradation of bioplastics in the sea and in the sand (read article): “Sorry to have to talk to means of press releases, where it would be preferable to remain in the context of the scientific discussion, which Assobioplastica considers vital and stimulating and hopes to be able to continue in the appropriate forums with researchers interested in the topic of biodegradation of bioplastics “. Reserving a broader and more in-depth examination from the technical point of view of the study, Assobioplastica not so much criticizes the results, but “the instrumental significance of the operation”; according to the association representing the Italian compostable bioplastics industry: “With this press release some categories of bioplastics are attacked, but in reality a shadow is cast on the entire sector”. Pending a critical review, three “glaring singularities” are reported.

The first is that the “results of the study are disseminated hastily and prematurely, ie on the basis of the first sampling, carried out after only six months in an experiment lasting three years.

In essence, these are preliminary results “. Then there is a methodological aspect, that is, the degradation times have not been measured, although this is the topic of the research: “The article – reports Assobioplastica – does not answer the question ‘What degradation times do bioplastics have compared to conventional? “.

According to the association, in fact, “in the experimental scheme of the test a fundamental element is missing to contextualize the results and make sense of the term ‘significant’ referring to degradation, ‘long’ referring to time and so on: this is the pellet of material lignocellulosic, i.e. a natural polymer composite that is necessary, like the metronome with music, to give meaning to the duration, to calibrate the experiment and understand what ‘fast’ and ‘slow’ means in nature, beyond the subjective expectations of experimenters “.

Assobioplastica criticizes CNR study on bioplastic degradation

Solvay launches new growth platform focused on renewable-materials and biotechnology

Assobioplastica criticizes CNR-study-on-bioplastic-degradation

Stora-Enso strengthens its presence in France and invests in French-wood-processing

Russia’s-GDP this year will fall by 12% – Bloomberg learned the forecast of the Ministry-of-Finance

CJ-Bio launches PHA-production in Pasuruan, Indonesia

Stora-Enso – Your questions answered: designing food-packaging beyond-plastics

New-York-recyclinglegislation aims to increase collection rates, PCR-supply

Europe’s-plastic-recycling volume growing, says group

Bioplastic-degradation – Food-packaging

Plastics-Recycling – Biotechnology 12-05-2022