<![CDATA[Thermodynamic stability mapping and electrochemical study of La <ce:inf loc='post'>1-x</ce:inf>Sr <ce:inf loc='post'>x</ce:inf>Co <ce:inf loc='post'>0.2</ce:inf>Fe <ce:inf loc='post'>0.8</ce:inf>O <ce:inf loc='post'>3±</ce:inf> <ce:inf loc='post'> <ce:italic>δ</ce:italic> </ce:inf> (x=0.2–0.4) as a cathode of solid oxide fuel cells?in the presence of SO <ce:inf loc='post'>2</ce:inf>]]>

Shadi Darvish; Cheng Cheng Wang; San Ping Jiang; Yu Zhong

首页> 外文期刊>Electrochimica Acta >1-xSr xCo 0.2Fe 0.8O 3± δ (x=0.2–0.4) as a cathode of solid oxide fuel cells?in the presence of SO 2]]>

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1-xSr xCo 0.2Fe 0.8O 3± δ (x=0.2–0.4) as a cathode of solid oxide fuel cells?in the presence of SO 2]]>

机译：<！[CDATA [热力学稳定性映射和LA 1-X SR X CO 0.2 FE 0.8 O 3±/ CE：INF> δ （x = 0.2-0.4）作为固体氧化物燃料电池的阴极？在So 2 ]]>

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Thermodynamic predictions and electrochemical analysis of secondary phase formation in SO2containing atmosphere on the surface of La1-xSrxCo0.2Fe0.8O3±δ(x?=?0.2–0.4) electrodes of solid oxide fuel cells have been carried out utilizing the CALculation of Phase Diagram (CALPHAD) approach. Impacts of temperature, SO2partial pressure, O2partial pressure as well as the cathode composition on the formation of secondary phases have been investigated and correlated with the previous investigations in the literature. The results predict that SrSO4, CoFe2O4, La2O2SO4, and La2(SO4)3has the possibility to form on the surface and at the cathode/electrolyte interface as a result of SO2existence in the system. It is also investigated that degradation occurs more severe for La0.6Sr0.4Co0.2Fe0.8O3±δ(LSCF-6428) comparing to LSCF-7328 and LSCF-8228, due to the formation of a higher amount of secondary phases, specifically SrSO4. The results demonstrate the effectiveness of the computational thermodynamic modeling in the prediction of interaction and performance stability of SOFC cathodes in the presence of contaminants.

机译：在La1-XSRXCO0.2FE0.8O3±δ（x≤= 0.2-0.4）表面上的SO2CONTINATION大气层中二次相形成的热力学预测及电化学分析已经进行了固体氧化物燃料电池电极的电极（Calphad）方法。已经研究了温度，SO2分子压，O2分子压以及阴极组合物对形成二次相形成的影响，并与文献中的先前研究相关。结果预测SRSO4，COFE2O4，LA2O2SO4和LA2（SO4）3HA在该系统中由于SO2等值而形成在表面和阴极/电解质界面上的可能性。还研究了与LSCF-7328和LSCF-8228相比，LA0.6SR0.4CO0.2FE0.8O3±δ（LSCF-6428）对LA0.6SR0.4CO0.2FE0.8O3±δ（LSCF-6428）进行降解的变化。由于形成较高量的次生，特别是SRSO4 。结果证明了计算热力学建模在污染物存在下在SOFC阴极的相互作用和性能稳定性预测中的有效性。

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来源
《Electrochimica Acta》 |2018年第2018期|共10页
作者
Shadi Darvish; Cheng Cheng Wang; San Ping Jiang; Yu Zhong;
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作者单位

Department of Mechanical and Materials Engineering Florida International University;

The School of Entrepreneurship and Innovation Shen Zhen Polytechnic;

Fuels and Energy Technology Institute &

Department of Chemical Engineering Curtin University;

Department of Mechanical and Materials Engineering Florida International University;

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原文格式 PDF
正文语种 eng
中图分类电化学工业;物理化学（理论化学）、化学物理学;
关键词
Lanthanum strontium cobalt ferrite (LSCF); Solid oxide fuel cell (SOFC); Sulfur dioxide (SO2); Phase stability; Secondary phases; CALPHAD; SrSO4;

机译：镧锶钴铁氧体（LSCF）;固体氧化物燃料电池（SOFC）;二氧化硫（SO2）;相位稳定性;二次阶段;CALPHAD;SRSO4;
入库时间 2022-08-19 17:13:12

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1-xSr xCo 0.2Fe 0.8O 3± δ (x=0.2–0.4) as a cathode of solid oxide fuel cells?in the presence of SO 2]]>

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