Berlin, 26 March 2026– The EU funded BioSupPack project has successfully demonstrated that brewery waste can be transformed into high-performance bioplastics for sustainable packaging. Over five years, the consortium has developed and validated innovative polyhydroxyalkanoate (PHA and PHB) materials and production processes that offer viable alternatives to fossil-based plastics while supporting compliance with the EU Packaging and Packaging Waste Regulation (PPWR).

The BioSupPack project concludes its activities today with an online event, bringing together 18 high-level organisations across the PHA- and PHB-based bioplastics supply chain. The project has been funded by the Circular Bio-based Europe Joint Undertaking (CBE JU, formerly BBI JU) with 7.6 million euros under the European Union Horizon 2020 research and innovation programme (Grant Agreement No. 101023685).

The 18 partners have joined forces under the coordination of AIMPLAS, the Plastics Technology Centre based in Valencia, Spain.

Rosa González Leyba (AIMPLAS), project coordinator, emphasises: “BioSupPack has demonstrated that we can create a true circular economy by turning brewery waste into valuable packaging materials and by recycling the packaging waste through innovative recycling technologies like enzymatic recycling. Our consortium has successfully scaled up innovative biorefinery processes and developed biobased materials for rigid packaging for food and non-food applications, obtaining packaging prototypes which are very close to the current counterparts on the market.”

Six Key Innovation Results Achieved

At a demonstrative scale and in real operational environments, BioSupPack has developed and validated six key innovations that address critical challenges in the packaging industry:

  1. Biorefinery Process for PHB Production from Brewery Spent Grains: BioSupPack has developed a scalable bioprocess that efficiently converts brewery spent grains into high-purity PHB via an innovative plasma pretreatment followed by microbial fermentation. This innovation transforms a low-value waste stream into a functional biopolymer while creating industrial symbiosis between breweries and bioplastics producers. The process has reached TRL 6, demonstrating feasibility in industrially relevant environments.
  2. PHA-Based Coating Formulations and Compostable Fibre-based Packaging: BioSupPack has developed PHA plastisol coatings that are 99% biobased and fully biodegradable. These coatings can be applied to paperboard as alternatives to PE coatings and to textiles as replacements for PVC. The innovation is protected by Centexbel’s patent and has reached TRL 6, ready for licensing to coating manufacturers.
  3. Compostable Fibre-Based Packaging: The consortium has created industrially compostable, fibre-based packaging with barrier properties comparable to fossil-based plastics. Applications include ice cream cups and trays. This solution enables companies to meet sustainability goals while offering dual end-of-life options. The innovation has reached TRL 7.
  4. PHB-Based Formulations for Rigid Packaging: SABIOMATERIALS has developed PHB-based materials optimised for rigid packaging, such as bottles and retail displays. The materials are produced from renewable waste streams, are fully biodegradable, both mechanically and enzymatically recyclable, and have been specifically formulated to improve processability for extrusion blow moulding and injection moulding. The innovation has reached TRL 7, with industrial-scale production.
  5. Rigid Packaging for different sectors: The Logoplaste Innovation Lab has obtained bottles for dressings and personal care products, and AIMPLAS has developed and produced a beer bottle display for the retail sector.
  6. Sorting prototype for the novel biobased and enzymatic recycling process: The sorting prototype for packaging waste from IRIS will enable the recovery of new packaging waste streams for subsequent enzymatic recycling, which has been shown to be an effective end-of-life option for these packaging materials due to the development of novel selective enzymes.

Hasso von Pogrell, Managing Director of European Bioplastics e. V. indicates that “BioSupPack shows in a very tangible way what innovation can deliver today: turning brewery side streams into high-performance & sustainable packaging solutions with real industrial relevance. This is particularly important as the implementation of the PPWR will push many sectors to seek more sustainable alternatives. Projects like BioSupPack demonstrate that the science is moving fast and that circular, biobased packaging is no longer just a future ambition, but an increasingly practical reality.”

Market Relevance and Industrial Impact

BioSupPack’s innovations directly address the packaging industry’s transformation driven by the EU Packaging and Packaging Waste Regulation (PPWR). With the requirement that all packaging must be recyclable by 2030, and growing demands for sustainability from consumers and regulators, the project’s results provide validated pathways for industry to transition from fossil-based to biobased, circular packaging solutions. The technologies developed can be integrated into existing manufacturing infrastructure, reducing technical and economic barriers to adoption.

The project provides critical evidence for European policy frameworks, including the European Green Deal, the EU Bioeconomy Strategy, and the Clean Industrial Deal. By demonstrating that high-performance bioplastics can be produced from industrial waste streams at scale, BioSupPack supports Europe’s industrial resilience, resource autonomy, and climate objectives while creating new value chains and economic opportunities in the circular bioeconomy. The results achieved by BioSupPack are now available for uptake by industry stakeholders, including biopolymer producers, biorefineries, packaging manufacturers, and brand owners in the food, cosmetics, and consumer goods sectors.

For more information:

Innovation results and policy recommendations: https://zenodo.org/records/19133788

Project website: www.biosuppack.eu

Open-access documents: https://zenodo.org/communities/biosuppack

LinkedIn: https://www.linkedin.com/company/biosuppack-project/

Download the press release here: https://docs.european-bioplastics.org/PR/2026/EUBP_PressRelease_BioSupPack.pdf