Experimental and thermodynamic study on the performance of water   electrolysis by solid oxide electrolyzer cells with Nb-doped Co-based   perovskite anode

doi:10.1016/j.apenergy.2017.01.090

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	Experimental and thermodynamic study on the performance of water electrolysis by solid oxide electrolyzer cells with Nb-doped Co-based perovskite anode
	Pan, Zehua ; Liu, Qinglin ; Zhang, Lan ; Zhou, Juan ; Zhang, Caizhi ; Chan, Siew Hwa
刊名	APPLIED ENERGY
	2017
关键词	Ba0.9Co0.7Fe0.2Nb0.1O3-delta YSZ-GDC bilayer electrolyte Solid oxide electrolyzer cells High-temperature water electrolysis Hydrogen generation FUEL-CELLS HYDROGEN-PRODUCTION ELECTROCHEMICAL PERFORMANCE STEAM ELECTROLYSIS OXYGEN ELECTRODES CATHODE MATERIAL BARRIER LAYER EFFICIENCY OPERATION DEGRADATION
DOI	10.1016/j.apenergy.2017.01.090
英文摘要	In this work, Solid Oxide Electrolyzer Cell (SOEC) based on Ba0.9Co0.7Fe0.2Nb0.1O3-delta (BCFN) air electrode and YSZ-GDC bilayer electrolyte was systematically investigated and the efficiency of high temperature water electrolysis by such a cell was analyzed. Firstly, chemical compatibility test between BCFN and YSZ showed that BaZrO3 formed after heat treatment at 1000 degrees C for 5 h, which adversely influenced the performance of BCFN dramatically. A fully dense GDC interlayer was thus developed by co-sintering GDC layer, with addition of 0.5 at.% Fe2O3, with YSZ electrolyte at only 1300 degrees C. The as-prepared fuel electrode-supported eletrolyzer cell consisting of Ni-YSZ fuel electrode, YSZ-GDC bilayer electrolyte and BCFN air electrode was evaluated for water electrolysis. Specifically, at 800 degrees C using a feedstock of 60% H2O-40% H-2, the cell showed total area specific resistance of 0.195 Omega cm(2) and the cell voltage was 1.13 V with an electrolysis current of 1 A cm(2). After short-term stability test for 120 h with 1 A cm(-2) electrolysis current at 800 degrees C, the cell showed no microstructural changes as obsetved by scanning electron microscopy. At last, a high-temperature water electrolysis system based on the cell studied was proposed and the system analysis shows that the overall electricity to hydrogen efficiency can reach 73% based on lower heating value of hydrogen, with a hydrogen generation rate of 4180 L h(-1) m(-2). (C) 2017 Elsevier Ltd. All rights reserved.; National Research Foundation (NRF), Prime Minister's Office, Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) programme; SCI(E); ARTICLE; 559-567; 191
语种	英语
内容类型	期刊论文
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/474319]
专题	工学院
推荐引用方式 GB/T 7714	Pan, Zehua,Liu, Qinglin,Zhang, Lan,et al. Experimental and thermodynamic study on the performance of water electrolysis by solid oxide electrolyzer cells with Nb-doped Co-based perovskite anode[J]. APPLIED ENERGY,2017.
APA	Pan, Zehua,Liu, Qinglin,Zhang, Lan,Zhou, Juan,Zhang, Caizhi,&Chan, Siew Hwa.(2017).Experimental and thermodynamic study on the performance of water electrolysis by solid oxide electrolyzer cells with Nb-doped Co-based perovskite anode.APPLIED ENERGY.
MLA	Pan, Zehua,et al."Experimental and thermodynamic study on the performance of water electrolysis by solid oxide electrolyzer cells with Nb-doped Co-based perovskite anode".APPLIED ENERGY (2017).