Direct biogas conversion to green H2 and carbon materials by scalable microwave heaTed catalytIc reacTor for soil Amendment and silicon carbide production

HORIZON.2.5HORIZON-RIAID: 101069474
EC Contribution
€29,984
Consortium Size
8 orgs
Summary

TITAN will develop and validate at TRL5 the direct conversion of biogas (CO2 containing rich-CH4 feedstock) into valuable carbon materials and a H2 rich stream thanks to MW Technology heated reactors. It will also consider further valorisation to power, chemicals and fuels. TITAN has the potential to produce 0.6 Mt of green H2 in 2030 to almost 4 Mt per year from 2045 on, corresponding to the saving of 237 Mt CO2 by 2045.Major innovations are linked to:(1) the efficiency of a scaled-up MW heated fluidised catalytic reactor allowing high CH4 conversion in a single pass thanks due to direct catalyst heating (avoidance of heat transfer limitation) and the avoidance of energy intensive gas separation will make the whole process energy positive, produce H2 and/or power at competitive cost while sequestrating C leading to negative GHG emissions.(2) direct conversion of biogas by simultaneous CH4 cracking and CO2 dry reforming into H2 and solid C materials. Higher H2 yield will be obtained by converting the produced CO into H2 with an additional WGS reactor allowing H2O splitting.Based on circular economy concepts, the valorisation of the C materials will be studied for two applications: 1/ soil amendment to enhance agriculture soil properties and 2/ production of SiC materials. The long-term storage of the carbon species and their microbiological impact when released into soils will be studied.The scalability of the proposed MW heated reactor technology, together with a smart downstream process, will lead to low CAPEX that shall allow the deployment of small, delocalised biogas to power units as well as large biogas to H2 and/or chemicals/fuels units in Europe. The best techno-economic solutions will be identified with respect to plant capacities and available infrastructure. While the scope of the project will focus on the valorisation of biogas, the valorisation of methane-rich mixtures will also be studied for wider impact.

Consortium (8)

Project Results (8)

Source: CORDIS, the EU research results database.

Publications (6)
Dry reforming of methane: thermodynamic, kinetic and catalyst coking investigations
International Journal of Hydrogen Energy· 2026DOI
Robert Cherbański, Stanisław Murgrabia, Tomasz Kotkowski, Valentin L'hospital, Eugeniusz Molga, Andrzej Stankiewicz
Methane pyrolysis into hydrogen and solid carbon: A comparative analysis of conventional and microwave heating approaches
Catalysis Today· 2025DOI
Valentin L'hospital, Leandro Goulart de Araujo, Emmanuel Landrivon, Ariel Mello, Marilena Radoiu, Victor Trillaud, Jean-François Meunier, Yves Schuurman, Nolven Guilhaume, David Farrusseng
Towards hydrogen production by methane pyrolysis in a microwave-assisted fluidized bed reactor: Hydrodynamics of a catalytic fluidized bed and 1D convection-dispersion modelling
Chemical Engineering and Processing - Process Intensification· 2025DOI
Robert Cherbański, Stanisław Murgrabia, Leszek Rudniak, Eugeniusz Molga, Andrzej Stankiewicz, Tomasz Kotkowski
Towards microwave-assisted methane pyrolysis. Kinetic investigations of a Fe/C catalyst using thermogravimetric analysis coupled with gas chromatography
Chemical Engineering and Processing - Process Intensification· 2025DOI
Robert Cherbański, Stanisław Murgrabia, Tomasz Kotkowski, Eugeniusz Molga, Andrzej Stankiewicz, Valentin L'hospital, David Farrusseng
Direct biogas reforming to turquoise H<sub>2</sub> and carbon material in a catalytic fluidised-bed reactor
New Journal of Chemistry· 2024DOI
Valentin L’hospital; Leandro Goulart de Araujo; Yves Schuurman; Nolven Guilhaume; David Farrusseng
Electrifying the dry reforming of methane. Shall we target the chemistry or the heat supply?
Chemical Engineering and Processing - Process Intensification· 2024DOI
Tomasz Kotkowski, Robert Cherbański, Andrzej I. Stankiewicz
Other Results (1)
Periodic Reporting for period 1 - TITAN (Direct biogas conversion to green H2 and carbon materials by scalable microwave heaTed catalytIc reacTor for soil Amendment and silicon carbide production)
Deliverables (1)