Project Duration: 2020 – present
Other Partners
Project Description
This project aims to develop a compact and modular technology for the continuous production of synthetic fuels, such as methanol, through syngas/CO₂ conversion using highly effective immobilized catalytic films. The key objectives of the project include:
•Development of Thin Catalytic Films for Fischer-Tropsch synthesis.
•Validation of Innovative Prototypes based on NetMIX technology for synthetic fuel production through experimental proof of concept.
•Process Optimization and Benchmarking to enhance efficiency and performance.
Main Outcomes
•Developed a Prototype Unit for synthetic fuel production, designed for easy scalability. The system successfully produced methanol or methane, depending on the catalytic system implemented.
•Successfully Immobilized Highly Effective Catalytic Films to enhance reaction efficiency.
•Validated the Developed Technology through experimental proof of concept.
•Achieved Continuous Production of 1.83 × 10⁻³ L/day of synthetic fuels from syngas conversion via Fischer-Tropsch synthesis.
•Demonstrated High Product Selectivity: Achieved ≥ 92% selectivity for gasoline, jet fuel, and diesel.
