Summary
The massive industrial use of Polyethylene Terephthalate (PET) poses serious economic and environmental problems due to its poor recyclability. Current PET disposal options include incineration, landfilling and recycling while a relevant amount is still dumped into oceans. Landfilling and incineration are however outdated since environmentally unsustainable. Recycling is the preferred option, but a series of technological barriers limit the recycling into high-quality rPET (recycled PET).
The ChemPET project aims to scale-up a cutting-edge chemical recycling technology, based on glycolysis, for PET based waste converting it into monomer BHET.
Currently, there are no alternatives which guarantee efficient results at industrial scale considering heterogeneous PET feedstock. BHET can be newly used as raw material in the production of virgin PET instead of the terephthalic acid (TPA) and the ethylene glycol (EG) that derive from crude oil. This determines advantages for the PET value chain in terms of environmental sustainability, competitiveness and job creation. ChemPET will help Europe to achieve the “Zero Plastics to landfill by 2025”, promoting the Circular Economy and reducing Europe dependency on fossil feedstocks. ChemPET project foresees the technical improvement of ChemPET technology and the valorisation of by-products.
After the optimization of the BHET production phase, GARBO will collaborate with many stakeholders across plastic industry value chain to maximize the business opportunities and foster the uptake of ChemPET technology. The production of chemical recycled PET (crPET) from BHET will close the loop supporting the growth of the circular economy thus reshaping the PET value chain at whole. Large occupational benefits are expected by the replication of ChemPET process.
The Phase-2 project will finally allow to scale-up of the current pilot to an industrial level able to chemically recycle 100 tpd (ton/day) increasing GARBO turnover of €25M.
The ChemPET project aims to scale-up a cutting-edge chemical recycling technology, based on glycolysis, for PET based waste converting it into monomer BHET.
Currently, there are no alternatives which guarantee efficient results at industrial scale considering heterogeneous PET feedstock. BHET can be newly used as raw material in the production of virgin PET instead of the terephthalic acid (TPA) and the ethylene glycol (EG) that derive from crude oil. This determines advantages for the PET value chain in terms of environmental sustainability, competitiveness and job creation. ChemPET will help Europe to achieve the “Zero Plastics to landfill by 2025”, promoting the Circular Economy and reducing Europe dependency on fossil feedstocks. ChemPET project foresees the technical improvement of ChemPET technology and the valorisation of by-products.
After the optimization of the BHET production phase, GARBO will collaborate with many stakeholders across plastic industry value chain to maximize the business opportunities and foster the uptake of ChemPET technology. The production of chemical recycled PET (crPET) from BHET will close the loop supporting the growth of the circular economy thus reshaping the PET value chain at whole. Large occupational benefits are expected by the replication of ChemPET process.
The Phase-2 project will finally allow to scale-up of the current pilot to an industrial level able to chemically recycle 100 tpd (ton/day) increasing GARBO turnover of €25M.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/871386 |
| Start date: | 01-09-2019 |
| End date: | 30-09-2023 |
| Total budget - Public funding: | 2 557 500,00 Euro - 1 790 250,00 Euro |
Cordis data
Original description
The massive industrial use of Polyethylene Terephthalate (PET) poses serious economic and environmental problems due to its poor recyclability. Current PET disposal options include incineration, landfilling and recycling while a relevant amount is still dumped into oceans. Landfilling and incineration are however outdated since environmentally unsustainable. Recycling is the preferred option, but a series of technological barriers limit the recycling into high-quality rPET (recycled PET).The ChemPET project aims to scale-up a cutting-edge chemical recycling technology, based on glycolysis, for PET based waste converting it into monomer BHET.
Currently, there are no alternatives which guarantee efficient results at industrial scale considering heterogeneous PET feedstock. BHET can be newly used as raw material in the production of virgin PET instead of the terephthalic acid (TPA) and the ethylene glycol (EG) that derive from crude oil. This determines advantages for the PET value chain in terms of environmental sustainability, competitiveness and job creation. ChemPET will help Europe to achieve the “Zero Plastics to landfill by 2025”, promoting the Circular Economy and reducing Europe dependency on fossil feedstocks. ChemPET project foresees the technical improvement of ChemPET technology and the valorisation of by-products.
After the optimization of the BHET production phase, GARBO will collaborate with many stakeholders across plastic industry value chain to maximize the business opportunities and foster the uptake of ChemPET technology. The production of chemical recycled PET (crPET) from BHET will close the loop supporting the growth of the circular economy thus reshaping the PET value chain at whole. Large occupational benefits are expected by the replication of ChemPET process.
Status
CLOSEDCall topic
EIC-SMEInst-2018-2020Update Date
27-10-2022
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