- Optimized CO2-H2O solid oxide co-electrolysis (co-SOE) anodes with excellent stability, essentially null methanation side-production, low carbon buildup and tolerance for trace alcohol impurities in steam feed, enabling process water recirculation. IMPACT: Enhanced integrability of co-SOE process step into continuous e-fuel production concepts.
- An optimized 2D-GC-ToFMS analytical procedure has been developed, enabling unprecedented quantitative characterization of complex product mixtures, potentially including paraffins, olefins, linear and branched higher alcohols, and both symmetric and asymmetric higher ethers. IMPACT: Informed process optimization in e-fuel production targeting oxygenated compounds.
- All HOEF realizations can be blended with marine gas oil (MGO) and, in the studied compositions, the physico-chemical properties of the stable blends are compliant with the relevant current standards for MGO fuels (ISO8217). The use of blends, instead of pure HOEF e-fuels, is already more sustainable than traditional fuels. IMPACT: solid grounds for drop-in acceptance of new HOEF e-fuel for immediate de-fossilization of the hard-to-electrify waterborne transport sector.
- Machine-learning-guided development of Organic Solvent Nanofiltration (OSN) as a low energy-demand, and catalyst-preserving process step for recovery of soluble catalysts from reaction liquors in continuous mode. IMPACT: new process design tool with long-reach implications in chemical process deplying molecular catalysts in solution.
- A multi-step water conditioning concept has been developed which enables the purification of process water, side-product recovered from the tandem syngas conversion process, to achieve suitable parameters for its recycle into a co-SOE unit. IMPACT: Enhanced process intensification for continuous e-fuel production concepts based on co-SOE as the entry process step.
- The overall process pathway was developed, and an in-silico model replica was established. These models were calibrated using experimental data provided by project partners. This work serves as the basis for further analysis and optimization. IMPACT: accelerated process optimization (in silico) and solid assessment of techno-economics and environmental impact of HOEF production concept.