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首页> 外文期刊>Journal of power sources >Thermodynamic predictions of the impact of fuel composition on the propensity of sulphur to interact with Ni and ceria-based anodes for solid oxide fuel cells
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Thermodynamic predictions of the impact of fuel composition on the propensity of sulphur to interact with Ni and ceria-based anodes for solid oxide fuel cells

机译:燃料成分对固体氧化物燃料电池中硫与镍和二氧化铈基阳极相互作用倾向的影响的热力学预测

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Thermodynamic calculations have been made to predict the stability of solid oxide fuel cell (SOFC) anode materials when exposed to hydrogen sulphide (H_2S) in hydrogen (H_2) over a range of partial pressures of sulphur (pS_2) and oxygen (pO_2) representative of fuel cell operating conditions. The study focussed on the behaviour of nickel and ceria, which form the basis of nickel-gadolinium-doped ceria (Ni-CGO) anodes, often used as an active layer within SOFCs. The reaction of Ni with sulphur is predicted to become more favourable as temperature and hydrogen partial pressure (pH_2) decrease. Ceria is shown to become increasingly non-stoichiometric (CeO_n, n < 2) as pO_2 decreases and temperature increases, and it is predicted that its reaction with sulphur becomes more favourable under these conditions.
机译:已经进行了热力学计算,以预测在以下形式的代表硫(pS_2)和氧(pO_2)的分压范围内,固体氧化物燃料电池(SOFC)阳极材料在氢(H_2)中暴露于硫化氢(H_2S)和氢(H_2)时的稳定性。燃料电池的运行条件。该研究集中于镍和二氧化铈的行为,它们构成了掺-镍的二氧化铈(Ni-CGO)阳极的基础,通常用作SOFC中的活性层。随着温度和氢分压(pH_2)的降低,Ni与硫的反应预计会变得更加有利。随着pO_2的降低和温度的升高,二氧化铈变得越来越不符合化学计量(CeO_n,n <2),并且据预测,在这些条件下,二氧化铈与硫的反应会变得更加有利。

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