Summary
The PEFerence project will establish a globally first-of-a-kind, industrial scale (50 000 tonnes/year), cost-effective FDCA (diacid) biorefinery flagship plant producing bio-based chemicals and materials (bottles, films, Lego Bricks, polyurethanes) using also existing facilities in industrial symbiosis. The consortium aims to replace a significant part of fossil based polyesters (such as PET), but also technologically superior packaging materials like glass and aluminum with 100 % bio-based polyesters (such as PEF). The unique properties of PEF (excellent barrier and strength) make it a material that can be applied in areas where PET is less suitable. The initial market focus will be on high value applications such as replacement of multilayer packaging, aluminum cans and small size PET bottles where PEF brings most value. On the longer term, when FDCA is produced at large scale and technology is further matured, FDCA based polyesters are expected to penetrate further into markets which allow smaller or no price premium.
The potential significant reductions in non-renewable energy usage and greenhouse gas emissions compared to fossil based PET or aluminum based cans for PEF based packaging solutions will be assessed. Furthermore, PEF bottles can be recycled and used again as raw material for bottles, as well as in a cascading approach for packaging and textiles. During the project, fructose produced via an enzymatic isomerisation process from 2nd generation glucose will be assessed. The full value chain will be optimized ensuring cost-effective and environmentally sustainable raw material sourcing and production of FDCA, PEF/PBF and polyurethane products. Finally, together with customers and brand owners (Lego, Nestle), 100% bio-based end-products will be demonstrated and validated to ensure fast market deployment.
The potential significant reductions in non-renewable energy usage and greenhouse gas emissions compared to fossil based PET or aluminum based cans for PEF based packaging solutions will be assessed. Furthermore, PEF bottles can be recycled and used again as raw material for bottles, as well as in a cascading approach for packaging and textiles. During the project, fructose produced via an enzymatic isomerisation process from 2nd generation glucose will be assessed. The full value chain will be optimized ensuring cost-effective and environmentally sustainable raw material sourcing and production of FDCA, PEF/PBF and polyurethane products. Finally, together with customers and brand owners (Lego, Nestle), 100% bio-based end-products will be demonstrated and validated to ensure fast market deployment.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/744409 |
| Start date: | 01-09-2017 |
| End date: | 28-02-2025 |
| Total budget - Public funding: | 45 188 712,00 Euro - 24 999 610,00 Euro |
Cordis data
Original description
The PEFerence project will establish a globally first-of-a-kind, industrial scale (50 000 tonnes/year), cost-effective FDCA (diacid) biorefinery flagship plant producing bio-based chemicals and materials (bottles, films, Lego Bricks, polyurethanes) using also existing facilities in industrial symbiosis. The consortium aims to replace a significant part of fossil based polyesters (such as PET), but also technologically superior packaging materials like glass and aluminum with 100 % bio-based polyesters (such as PEF). The unique properties of PEF (excellent barrier and strength) make it a material that can be applied in areas where PET is less suitable. The initial market focus will be on high value applications such as replacement of multilayer packaging, aluminum cans and small size PET bottles where PEF brings most value. On the longer term, when FDCA is produced at large scale and technology is further matured, FDCA based polyesters are expected to penetrate further into markets which allow smaller or no price premium.The potential significant reductions in non-renewable energy usage and greenhouse gas emissions compared to fossil based PET or aluminum based cans for PEF based packaging solutions will be assessed. Furthermore, PEF bottles can be recycled and used again as raw material for bottles, as well as in a cascading approach for packaging and textiles. During the project, fructose produced via an enzymatic isomerisation process from 2nd generation glucose will be assessed. The full value chain will be optimized ensuring cost-effective and environmentally sustainable raw material sourcing and production of FDCA, PEF/PBF and polyurethane products. Finally, together with customers and brand owners (Lego, Nestle), 100% bio-based end-products will be demonstrated and validated to ensure fast market deployment.
Status
SIGNEDCall topic
BBI-2016-F02Update Date
26-10-2022
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H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
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Organisations
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| AVANTIUM CHEMICALS BV (Coördinator)
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| ALPLA WERKE ALWIN LEHNER GMBH & COKG
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| AVANTIUM RENEWABLE POLYMERS BV
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| AVANTIUM SUPPORT BV
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| BASF ANTWERPEN NV
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| BASF SE
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| CARLSBERG BREWERIES AS
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| CRODA NEDERLAND BV
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| GIE LVMH RECHERCHE
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| HENKEL KGaA
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| INTECSEA B.V.
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| KEBONY AS
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| KEBONY NORGE AS
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| KRONENBOURG
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| LEGO SYSTEM AS