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Feeding Refineries
Research into where and how much agricultural waste is available in Europe for bioplastic production. We map opportunities and bottlenecks, build scenarios, and develop a predictive model to determine optimal refinery locations. In this way, FeedingRefineries supports the development of a sustainable and efficient biomass supply chain.
HySUCCES
Research to explore the level of support for the hydrogen transition. The objective is to outline the socioeconomic factors shaping green hydrogen’s role in a renewable energy system.
RECOAT
The transition to sustainable, biobased coatings is accelerated through innovation, collaboration, and knowledge sharing, enabling companies to shift to biobased raw materials.
B4: Better Biobased Building Blocks
Partners in West-Noord-Brabant collaborate to develop sustainable, biobased building materials from local plant residues, making the construction sector more sustainable and enhancing material performance.
Biobased Wet Cell
An innovative biobased panel system integrates geopolymer materials, natural fibers, and alginates to create lightweight, water-resistant, and sustainable solutions for wet environments.
FungAI
An AI-driven monitoring system automates quality control and predicts material properties in mycelium bio-composites production, enhancing scalability, efficiency, and reliability.
From onion to oil in a sustainable way
Residual streams from Dutch onion production contain valuable proteins and oils that can be efficiently extracted through an energy-efficient process for high-value applications in the food and chemical sectors.
BioADD 2.0
BioADD 2.0 makes biodegradable materials appealing for agriculture and horticulture
