Dependence of Faraday Efficiency on Operation Conditions and Cell Properties for Proton Ceramic Electrolysis Cells

Qian Zhang, Clarita Y. Regalado Vera, Hanping Ding, Wei Tang, Wei Wu, Scott A Barnett, Peter W. Voorhees, Dong Ding
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Abstract

Proton-conducting solid oxide electrolysis cells (p-SOECs) have attracted much attention due to their low operating temperature and low degradation rate compared with conventional oxygen-ion conducting solid oxide electrolysis cells (o-SOEC). However, p-SOECs suffer from relatively low Faradaic efficiency due to the electronic leakage of the electrolyte. Using an electrolyte charge carrier transport model, we quantified the dependence of Faraday efficiency on the electrolysis operation conditions. Our model describes the transport of charge carriers in the electrolyte when the polarization resistance can not be neglected during cell operations. By accounting for the overpotentials at the interface of electrode and electrolyte in the model, we found that the Faraday efficiency decreases with the increasing current densities at electrolysis mode for both BZY20 and BCZYYb. Our results provide significant insights into the development of highly efficient p-SOECs .
质子陶瓷电解电池的法拉第效率与操作条件和电池性能的关系
质子导电固体氧化物电解电池(p- soec)与传统的氧离子导电固体氧化物电解电池(o-SOEC)相比,由于其工作温度低、降解率低而备受关注。然而,由于电解液的电子泄漏,p- soc的法拉第效率相对较低。利用电解质电荷载流子输运模型,量化了法拉第效率与电解操作条件的关系。我们的模型描述了当电池运行过程中极化电阻不可忽略时电解质中载流子的输运。通过计算模型中电极和电解质界面的过电位,我们发现在电解模式下BZY20和BCZYYb的法拉第效率都随着电流密度的增加而降低。我们的研究结果为高效p- soec的开发提供了重要的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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