Expected impacts
Industrial Accessibility
Expands access to advanced BCS-RPB-CO2R systems across European industries.
Features advanced solvents with immobilized Carbonic Anhydrase (CA), fiber-doped CA materials, and optimized models for RPB and CO2R systems for handling low CO2 concentrations and phase-change solvents.
Incorporates zero-gap, membrane-type flow cells and high-fidelity Computational Fluid Dynamics (CFD) models with advanced statistical methods for precise process predictions.
Economic Impact
Competes with fossil fuel technologies on cost, with a reduced environmental footprint.
Enhances sustainability and aids in mitigating climate change.
Scientific Advancements
Improves carbon capture from biomass combustion by minimizing flue gas variations.
Advances RPB systems through enzyme enhancement and superior catalysts to lower emissions.
Validates the complete system under real-world conditions to streamline integration and boost carbon capture efficiency.
Societal Benefits
Supports communities transitioning from coal and fossil fuels by providing guidelines for adopting REUSE technologies.
Facilitates the shift to sustainable energy, aiding citizens and regions in technology adoption.
Strengthens Europe’s leadership in carbon fixation, promoting innovation export, supporting industries, and contributing to a sustainable future.