Category: co2

Green Deal decarbonised industry 03-03-2023

Green Deal decarbonised industry

-A new industrial revolution: the European Green Deal for a decarbonised industry

On 1 February the European Commission published the Communication outlining the European Green Deal Industrial Plan for the zero net emissions era (Com(2023)62 final) (the “Green Industrial Plan”), whose objectives are decarbonisation by 2050 and its tools (i) a predictable and simplified regulatory framework; (ii) accelerated access to finance; (iii) improved skills; and (iv) open trade for resilient supply chains.

The European Commission is presenting this Green Industrial Plan as the “new industrial revolution”, which aims to become the great opportunity of this decade to invest in the clean energy economy and in the industry of the zero net emissions era.

A predictable and simplified regulatory framework

In order to establish the conditions for the development of the Green Industrial Plan, the European Commission’s proposal calls for the adoption of the following regulations:

  1. A Net Zero Industry Act, aiming to strengthen industrial manufacturing of key technologies within the EU, and simplifying the regulatory framework in order to:
  • Set industrial capacity targets up to 2030:
  • Determine the production capacity of key products to achieve climate neutrality;  Green Deal decarbonised industry
  • Reduce the length of permitting procedures for different industrial processes;
  • Streamlining procedures by establishing “one-stop-shop” type measures (i.e., a sole point of contact for investors and industrial stakeholders during the entire administrative process);
  • Enable the Commission to call for European standards that promote rapid deployment of key technologies;
  • Create regulatory sandboxes that allow for rapid experimentation and disruptive innovation to assess new technologies;
  • Influence public action through the mechanisms of public procurement, concessions, or incentives for companies and end-users to use zero net emissions technology based on circularity and sustainability. Green Deal decarbonised industry
  1. A Critical Raw Materials Act for the manufacturing of net zero emission technologies for the EU, aimed at securing supply, diversifying supply, and encouraging recycling of raw materials to reduce the EU’s dependence on concentrated supplies from third countries.
  2. A reform of the electricity market, which is currently undergoing public consultation, so as to encourage long-term price contracts to reduce the price of energy.
  3. A new regulatory framework for batteries, a crucial element in the energy transition towards the climate neutral economy, to ensure competitive and resilient value chains to foster the circular economy of batteries (produce, reuse and recycle).
  4. A revision of the Ecodesign Regulation for sustainable products, which will apply to a wider range of products and will extend sustainability requirements.
  5. A unified regulatory framework for road transport infrastructure, so that the road transport network in the EU is reinforced with charging and refuelling infrastructure for alterntive fuels, hydrogen, and electric vehicle charging infrastructure.  Green Deal decarbonised industry

Accelerated access to finance

Through reform and transformation as a pillar of this new industrial revolution, the Green Industrial Plan will draw on public funding through state aid mechanisms. In this regard, on 1 February, the European Commission sent the Member States a draft proposal to transform the Temporary Crisis Framework into the Temporary Transition Framework, which will take the form of the following:

  1. Supporting the deployment of all renewable energy sources under RED II Directive;
  2. Eliminating the need for open tenders for less mature technologies;
  3. Incentivise private investment through changes to raise the maximum threshold for state aid and simplify the calculations for obtaining state aid.
  4. Allow and incentivise state aid for the production of batteries, solar panels, windmills, heat pumps, electrolysers and carbon capture and storage technologies and critical materials for the production of the above.

In this regard, one of the key reforms is Regulation (EU) 651/2014 declaring certain categories of aid compatible with the internal market, known as the General Block Exemption Regulation.  Green Deal decarbonised industry

Another key reform is that the Temporary Crisis Framework will include measures to facilitate the decarbonisation of industry, as well as aid to compensate for high energy prices.

The European Commission hopes that these changes to incentivise public investment in decarbonisation will translate into attracting private investment, on which achieving climate neutrality will depend.

The European Commission also reiterates the instruments already in place in the EU to accelerate decarbonisation, including REPowerEU, the InvestEU Programme, the Innovation Fund and support from the European Investment Bank.

Enhancing skills for decarbonisation

With a focus on skills-first approach both green and digital, at all levels and for all, with a special emphasis on the inclusion of women and youth, the European Commission will propose, among other measures, the creation of Zero Emission Industry Academies to implement retraining and upskilling programmes in strategic industries for decarbonization.

The Industrial Green Plan also sets out how to combine a skills-first approach, which recognises real skills, with existing skills-based approaches, and how to facilitate access for third-country nationals to EU labour markets in priority sectors, as well as measures to encourage and harmonise public and private funding for skills development.

Open trade for resilient supply chains  Green Deal decarbonised industry

The fourth pillar of the Green Industrial Plan responds to strengthening global cooperation, based on reinforcing the EU’s network of free trade agreements and other forms of cooperation with partners, in order to support the green transition.

These include the creation of the EU-US Working Group on the Inflation Reduction Act, in which the EU and the US have been working to find solutions since October 2022 to EU concerns about strengthening and maintaining transatlantic value chains and a common vision for achieving decarbonisation.

The European Commission will consider the creation of a Critical Raw Materials Club bringing together raw materials “consumers” and resource-rich countries to ensure global security of supply through a competitive and diversified industrial base, as well as clean technology and net-zero emission industrial partnerships.

The Commission will also act appropriately to protect the single market from unfair trade in the clean technology sector and will use the instruments at its disposal to ensure that foreign subsidies do not distort competition in the single market, including in the clean technology sector. Green Deal decarbonised industry

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Green Deal decarbonised industry

Recycling Bacteria EV battery 02-03-2023

Decarbonize waste-to-energy 16-02-2023

Decarbonize waste-to-energy

-NextChem awarded feasibility study to decarbonize waste-to-energy plant in Italy

Maire Tecnimont S.p.A. (Milan, Italy) announces that its subsidiary NextChem has been awarded a Feasibility Study by Foresight Group for a carbon capture and sustainable methanol synthesis plant in the ETA Manfredonia waste-to-energy plant in Puglia, a Southeastern Italian region. Upon completion of the Feasibility Study, the successful finalisation of the permitting process as well as the subsequent final investment decision, the execution of the engineering and construction phases will be carried out by other Maire Tecnimont Group’s subsidiaries, under an integrated approach aimed at valorizing distinctive skills and competences within the Group. Decarbonize waste-to-energy

Foresight Group is a 13-billion-Euro sustainability-led, alternative assets fund manager invested into several assets globally including waste-to-energy plants.

NextChem will be responsible for identifying the best decarbonisation proposal for the plant, providing a tailored solution thanks to its technological portfolio. The project aims to valorize about 200 ktonne/year of CO2 currently emitted to atmosphere by combining it with green hydrogen for the production of sustainable fuel.

Maire Tecnimont S.p.A. (Milan, Italy) announces that its subsidiary NextChem has been awarded a Feasibility Study by Foresight Group for a carbon capture and sustainable methanol synthesis plant in the ETA Manfredonia waste-to-energy plant in Puglia, a Southeastern Italian region. Decarbonize waste-to-energy

Upon completion of the Feasibility Study, the successful finalisation of the permitting process as well as the subsequent final investment decision, the execution of the engineering and construction phases will be carried out by other Maire Tecnimont Group’s subsidiaries, under an integrated approach aimed at valorizing distinctive skills and competences within the Group.

Foresight Group is a 13-billion-Euro sustainability-led, alternative assets fund manager invested into several assets globally including waste-to-energy plants.

NextChem will be responsible for identifying the best decarbonisation proposal for the plant, providing a tailored solution thanks to its technological portfolio. The project aims to valorize about 200 ktonne/year of CO2 currently emitted to atmosphere by combining it with green hydrogen for the production of sustainable fuel. Decarbonize waste-to-energy

Alessandro Bernini, Chief Executive Officer of Maire Tecnimont Group and NextChem: “This award sets the basis for the realisation of one of the main projects for CO2 valorisation in Italy, strengthening Maire Tecnimont Group’s role as energy transition enabler. We are eager to start supporting Foresight Group in achieving its sustainability goals within the ETA Manfredonia Plant”.

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NextChem awarded feasibility study to decarbonize waste-to-energy plant in Italy

LDPE packaging recyclability 10-02-2023

LDPE packaging recyclability

-Collaboration to increase low density polyethylene packaging recyclability sees success in Deinking trials

Siegwerk, one of the leading global providers of printing inks and coatings for packaging applications and labels, has partnered with German startup Wildplastic and the Hamburg University of Technology (TU-Hamburg) aiming to increase the recyclability of plastic waste. One way to achieve this is by successfully deinking the collected waste before entering the recycling extrusion process. The partners conducted initial trials at the end of 2022, with very successful results.

Of the billions of tons of plastic that have been produced worldwide, only about 9% has been recycled, and about 12% ends up in landfills. The rest can end up leaking into the environment, polluting oceans and rivers and breaking down into microplastics that are hazardous to human health. LDPE packaging recyclability

There is a clear and urgent need to improve recycling processes and to ensure that more packaging enters the recycling stream. Deinking packaging prior to regranulation helps to prevent the packaging inks from contaminating the materials to be recycled, and ensures that the packaging stays in the recycling stream.

The partners to the initiative recognize that it is only through cross-industry collaboration that progress can be made. Wildplastic is a German startup founded in 2019 aiming to clean the environment from plastic waste. In cooperation with communities of collectors, the start-up works globally to collect “wild” plastic from beaches, landfills, and illegal dumpsites. In spring 2019, Wildplastic started selling the first trash bag that is 100% made of recycled plastic. Currently, their focus is on sourcing Low Density Polyethylene (LDPE) such as bubble wrap or certain food packaging. LDPE packaging recyclability

LDPE cannot yet be widely recycled, so the market collection incentive for it is still limited. Wildplastic wants to change this by creating a demand for this material and showcasing the potential of post-consumer LDPE recycling. After collection, the plastic is transported to a recycling partner who washes, melts and processes it into granules. These recyclate granules are then sent to a production partner and used as a substitute for virgin LDPE material. This material is then used to create trash bags and mail bags. A broader scope of applications may be possible if the materials could be successfully deinked first.

In 2021, Wildplastic and the Institute of Circular Resource Engineering and Management (CREM) of TU-Hamburg started a cooperative research and development  project, financed by the Investment and Development Bank of Hamburg (IFB) to study the feasibility of improving the quality of LDPE-recyclates from post-consumer sources. Evonik is supporting this project as a cooperative partner. LDPE packaging recyclability

“We started to conduct research on deinking of post-consumer plastic waste with Wildplastic  about one year ago. As a technical university, it is important to carry out meaningful research relevant to the real-world problem. From our project, we have learned that a successful circular economy only works by motivating all the stakeholders involved. Siegwerk as the producer of printing ink, can play an important role in this context since it brings the producer’s perspective to solve the problem in the beginning,” said Jinyang Guo from the Institute of Circular Resource Engineering and Management (CREM) from TU- Hamburg during a kick-off meeting between the partners in November 2022.

Siegwerk is supporting Wildplastic in this initiative by providing the deinking chemistry and knowledge to enable the creation of clean recyclates. In order for successful deinking to occur, a precise combination of the right ink chemistry, the right deinking detergent and the right process needs to be applied.

Inks on packaging can often be a hinderance to recycling, as the inks degrade during the recycling process and can contaminate the recyclates, leading to unpleasant odors or unsightly colors. Even if the inks are not totally removed, the opportunities for recycling are increased exponentially. LDPE packaging recyclability

“It is a pleasure to work with our partners from Wildplastic and from the University of Hamburg on this topic. We have a strong can-do attitude in common. The scientific perspective and the conscientiousness contributed by Jinyang helps us to maintain a fact-based and objective view. Not only in the design of experiments but also in the interpretation of results. Wildplastic has the ambition to benefit from deinking in their recycling activities in just a few months and brings in an industrial perspective,” said Ingo Fehr, Senior Project Manager at Siegwerk. LDPE packaging recyclability

“We have started this collaboration with Jinyang and the University about one year ago following our deep interest to find a solution for specific washing needs for highly challenging post-consumer plastic film materials in a small-scale batch operation. From day one we have worked together in a very open and solution-orientated way and with shared passion. It´s all about getting the right people together, therefore we are extremely happy to share our results and to extend our collaboration with the team at Siegwerk,” said Wildplastic co-founder Dieter Gottschalk.

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LDPE packaging recyclability

Pink hydrogen – China-bottled-PET 09-02-2023

CCEP Ventures upcycle CO₂ 10-02-2023

CCEP Ventures upcycle CO₂

-CCEP Ventures invests in new partnerships to upcycle CO₂

  • CCEP Ventures (CCEPV), the innovation investment arm of Coca-Cola Europacific Partners, announces new funding for carbon capture research projects
  • Universities in Spain and the Netherlands will receive investment from CCEPV to accelerate their research into carbon capture and turning harmful CO₂ emissions into useful products for the supply chain
  • This is CCEPV’s third collaboration with scientific institutions for research into sustainable technology solutions CCEP Venture supcycle CO₂

CCEP Ventures (CCEPV) announces two new partnerships with European research groups at Universitat Rovira i Virgili (URV) in Tarragona, Spain and the University of Twente (UT) in the Netherlands, to accelerate their research into carbon capture technology.

Through these R&D projects, CCEPV will explore how captured CO₂ can be turned into useful products for the supply chain like packaging materials and sugar, used to carbonate CCEP’s soft drinks, or to create synthetic fuels to power its factories.

The research aims to develop new technology that can be used on-site and is the latest in a series of partnerships from CCEPV to support a more sustainable future.

Reflecting on the partnership Craig Twyford, Head of CCEPV, said:

“We are challenging ourselves to think differently about CO₂, which is so often only seen as a dangerous waste product. What if we could not only take CO₂ out of the atmosphere, where we know it’s causing harm but also turn it into something useful? Then we could start thinking of it as a valuable resource.”  CCEP Venture supcycle CO₂

Funding these projects is an exciting opportunity for us to be at the forefront of scientific discovery and innovation. We think it has the potential not only to significantly impact our operations, but it could also be rolled out across different industries to reduce GHG emissions and make better use of the carbon in our atmosphere.”

Carbon capture is a means of achieving reduced carbon emissions and is an important method of tackling climate change. It works by capturing the CO₂ that is present in an emission source or even in the atmosphere and then using it in the production of other goods like fuel, ingredients, and packaging. The latter of which can then also be recycled, thus contributing to a truly sustainable, circular future.  CCEP Venture supcycle CO₂

These partnerships are part of CCEPV’s efforts to find, fund and foster transformative solutions that can support CCEP in reaching its net zero 2040 ambition. In 2020, CCEPV announced funding for CuRe Technology, a recycling start-up that seeks to provide a new lease of life for difficult-to-recycle plastic polyester waste, and in 2022 announced a partnership with the Peidong Yang Research Group at the University of California Berkeley to develop scalable methods of converting CO₂ into sugar.  CCEP Venture supcycle CO₂

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CCEP Venture supcycle CO₂

Pink hydrogen – China-bottled-PET 09-02-2023