The most important bioroburplus achievements can be summarized as follow:
WP2 - Catalysts & catalytic reactors
JM Catalyst formulation for the oxidative steam reforming (OSR), water-gas shift (WGS) reaction and soot trap (ST) were selected and the related reactors were manufactured and tested at small scale and demo scale.
WP3 - Advance integrated hydrogen purification
The absorbing materials for H2 purification from a syngas mixture were selected and manufactured at demo scale.
WP4 - Off-gas burner enthalpy valorization
The Voronoi-Structure has been identified, manufactured, assembled and tested as porous matrix for the prototype burner. Validation of numerical models has been successfully performed with experimental results and the operation/control strategy for the final off-gas burner has been defined. Super-heater construction details have been finalized as well as the integrated steam generation unit’s construction. Control system program has been elaborated.
WP5 - Complete biogas-to-hydrogen fuel processor
Long-term tests were performed to achieve the targets defined by the project. A syngas flowrate with a 50-65% vol H2 content was produced with a residual CH4 concentration of 4-10% vol. Compression and purification unit was activated and the maximum pressure reached after the compression phase was 9 barg (expected 12 barg). The maximum H2 content achieved after the PSA is 95% vol (expected 99,9 % vol), starting from a 60% vol of H2 in the syngas. The system could not reach the target value because the pressure at the inlet of equipment was too low to achieve the desired purification grade.
Long-term tests were stopped because operators observed an anomalous pressure increase inside OSR and WGS1 reactors. As no valves or instruments can stop the flow between the reactors, it was decided to inspect the reactors to verify if an obstruction has been formed in the pipeline.
Blanketing of the reaction unit has been performed, and the system has been cooled down to allow personnel to open the connection. The inspection revealed that the catalyst of both WGS reactors were damaged. Because of the catalysts damage, the difficulties in keeping the system warm enough for the steam reforming reaction, and the impossibility of increasing the biogas flowrate, tests on the unit have been stopped.
The tests performed on BioRoburPlus plant in short-term mode are not sufficient to provide reliable data on the catalyst and unit behavior.
WP6 - Prenormative, LCA, safety and market studies
LCA of the process was performed and the results showed a GWP lowest for Bioroburplus technology respect to the others (0.43 kgCO2eq/kg H2). A REACH analysis of the chemicals has been completed and submitted: substances involved in the overall process have been identified in order to provide appropriate safety information for the consortium and other-users.
First results of the HAZOP study were evaluated and several nodes identified. Deviation, cause and consequences were analysed, and the most important preventive recommendations for implementation were selected.
A first evaluation of the CAPEX and OPEX of the BioRoburplus plant considering an amortization time of 10 years, the H2 cost for the current plant and the effect of the size of the plant on the H2 cost has been assessed too.
WP7 - Dissemination & training
Several conferences were attended especially from Partners from the Universities and educational workshops for primary and secondary school were proposed and successfully realized. A summer School for PhDs focusing on the outcomes of different EU project was appreciated with participation of more than 130 Students during last September 2019 and a final workshop in summer 2021 was realized and the demo plant was showed off.
