Methane Partial Oxidation-assisted H_2O/CO_2 Co-electrolysis for Syngas Production in Both Electrodes

机译：甲烷部分氧化辅助H_2O / CO_2在两个电极中用于合成气的合成气生产

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In conventional solid oxide electrolysis mode, most of the electric power is consumed to overcome the high chemical potential in forcing the oxygen to diffuse through the electrolyte. In this paper, a novel methane-assisted H_2O/CO_2 co-electrolyzer was designed by combining solid oxide electrolysis cell (SOEC) with partial oxidation of methane (POM) to generate syngas in both sides. In POM-SOEC mode, methane is fed to the oxygen electrode to react with the oxygen produced by the electrolysis process, thus to reduce the chemical potential. Experiment performed on the Ni-YSZ/YSZ/SFM-YSZ single cell showed a voltage reduction from 1.3 V to 0.3 V compared to the conventional electrolysis mode at the same current density.

机译：在传统的固体氧化物电解模式中，消耗大部分电力以克服迫使氧气通过电解质扩散的高化学电位。本文通过将固体氧化物电解槽（SOEC）与甲烷（POM）的部分氧化相结合以在两侧产生合成气来设计一种新型甲烷辅助的H_2O / CO_2 Co-Electrolyzer。在POM-SOEC模式下，将甲烷送入氧气电极以与电解过程产生的氧反应，从而降低化学势。在Ni-YSZ / YSZ / SFM-YSZ单电池上进行的实验显示，与相同电流密度的传统电解模式相比，从1.3V到0.3V的电压降低。

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《International Symposium on Solid Oxide Fuel Cells》|2017年|2683-3363p|共8页
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Y. Q. Wang; M. F. Han;
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入库时间 2022-08-20 20:09:27

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Methane Partial Oxidation-assisted H_2O/CO_2 Co-electrolysis for Syngas Production in Both Electrodes

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