2013
DOI: 10.1016/j.ijhydene.2012.10.098
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Performance of microtubular SOFCs with infiltrated electrodes under thermal cycling

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Cited by 27 publications
(18 citation statements)
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“…This attenuation should be attributed to the electrode changes for aforementioned reasons. For example, the aggregation or part oxidation of impregnated Ni particle occurred during the repeatedly increasing and decreasing temperature [42]. However, comparing the conventional anode-supported MT-SOFC [1], the prepared cells is relatively stable in thermal cycles, consistent with the previous Ni impregnation process [44,45].…”
Section: Thermal Cycle Stabilitysupporting
confidence: 70%
See 1 more Smart Citation
“…This attenuation should be attributed to the electrode changes for aforementioned reasons. For example, the aggregation or part oxidation of impregnated Ni particle occurred during the repeatedly increasing and decreasing temperature [42]. However, comparing the conventional anode-supported MT-SOFC [1], the prepared cells is relatively stable in thermal cycles, consistent with the previous Ni impregnation process [44,45].…”
Section: Thermal Cycle Stabilitysupporting
confidence: 70%
“…Generally, the thermal cycle degradation of the cells is due to the electrolyte cracking and the electrode alternations [42,43]. Electrolyte cracking leads to the drop of OCV because of the leakages of gases and electrons.…”
Section: Thermal Cycle Stabilitymentioning
confidence: 99%
“…ε cathode =1.0 gave T=977 K, while for ε cathode =0.4 the temperature was equal to T=1040 K. It was concluded that there is a strong influence of cathode emissivity on the mSOFC temperature. The air temperature near the mSOFC walls was closest to the experimental value of 750 o C (Howe et al, 2013) for the cathode emissivity equal to 0.4.…”
Section: Approach 2 Influence Of Electrochemically-driven Non-uniforsupporting
confidence: 66%
“…The most significant change is the decrease of the LF contribution for the CY cell under negative polarization (SOEC conditions), as a consequence of the optimized gas diffusion within the Ni-YSZ support. Positive impacts of using calcined YSZ in developing a porous YSZ microstructure for conversion to an anode or cathode upon infiltration has been previously shown by the authors1415161819212728. When cell infiltration for the purpose of improving the catalytic activity or the electronic/ionic conductivity (or both) of the anode is planned, an anode with larger pore size and higher porosity (~50%) than TY is desirable (due to pore clogging during infiltration).…”
Section: Resultsmentioning
confidence: 97%