With the demand for anticipated green hydrogen and power production, novel and upgraded
catalytic processes are desired for more effective utilization of precious natural resources …

The adverse effects of global warming and climate change have driven the exploration of
feasible routes for CO2 capture, storage, conversion and utilization. The processes related …

In this study, a novel configuration consisting of a biomass-based anode/cathode recycling
solid oxide fuel cell integrated with a gas turbine and solid oxide electrolyzer cell is …

Autothermal reforming of methane couples exothermal partial oxidation of methane and
endothermal steam or dry reforming of methane to achieve high energy efficiency, which can …

In this paper a numerical model is developed for a novel reactor combining a Solid Oxide
Electrolyzer Cell (SOEC) section with a Fischer Tropsch like section for methane production …

Renewable power intermittency requires storage for load matching. A system combining a
solid oxide electrolysis cell (SOEC) and a methanation reactor (MR) could be an efficient …

Co-electrolysis of H 2 O and CO 2 in a solid oxide electrolysis cell (SOEC) is promising for
simultaneous energy storage and CO 2 utilization. Fuel-assisted H 2 O electrolysis by SOEC …

Co-electrolysis of water and carbon dioxide using solid oxide electrolysis cell combined with
the catalytic reactor to produce renewable synthesis fuel is considered as a promising …

The co-electrolysis of CO 2 and H 2 O in high temperature solid oxide electrolysis cells
(SOECs) is a promising energy storage method for intermittent renewable energy sources. In …

Highly efficient coelectrolysis of CO2/H2O into syngas (a mixture of CO/H2), and subsequent
syngas conversion to fuels and value-added chemicals, is one of the most promising …