Abstract
Steam electrolysis was studied by using La 0.9Sr 0.1Ga 0.8Mg 0.2O 3 (LSGM) oxide electrolyte and it was found that H 2 formation rate obeys the Faraday's law suggesting that the transport number of oxide ion in LSGM under electrolysis condition is unity. Ni–Fe alloy cathode is highly active to electrolysis of steam, however, insertion of Ni-SDC (1:9) layer between Ni–Fe cathode and LSGM electrolyte is further effective for improving the electrolysis performance of the cell. The current density at 1.8 V was achieved values of 314 and 254 mA/cm 2 at 1073 and 873 K, respectively. The improved current density by Ni-SDC is mainly assigned to a decreased cathodic overpotential. The electrolysis efficiency which ignored the inserted heat energy, was calculated based on the formed H 2 amount and the consumed electric energy, and it is found that the estimated efficiency was higher than 70%.
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