This paper reports on the experimental data analysis and numerical results carried out by algorithms, in order to meet the provisions of Industry 4.0 in the field of research of Solid Oxide Fuel Cell/Electrolyzer. A performance mapping of the analyzed SOFC/SOE systems is developed in order to enhance system efficiency when it is fed by biofuels. The analyses concern the main operative parameters, such as pressure, temperature, fuel compositions, and other main system parameters, such as fuel and oxidant utilization factors and the recirculation of anode exhaust stream gas.

Intermediate temperature solid oxide fuel cell/electrolyzer towards future large-scale production

Fragiacomo P.;De Lorenzo G.;Corigliano O.
2020-01-01

Abstract

This paper reports on the experimental data analysis and numerical results carried out by algorithms, in order to meet the provisions of Industry 4.0 in the field of research of Solid Oxide Fuel Cell/Electrolyzer. A performance mapping of the analyzed SOFC/SOE systems is developed in order to enhance system efficiency when it is fed by biofuels. The analyses concern the main operative parameters, such as pressure, temperature, fuel compositions, and other main system parameters, such as fuel and oxidant utilization factors and the recirculation of anode exhaust stream gas.
2020
SOFC; SOE; Hydrogen; Biogas; Syngas; Energy Analysis; System Efficiency
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11770/302939
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