固体氧化物燃料电池镍基阳极积碳机理及性能提升策略研究进展
Recent advances in carbon deposition mechanism and performance improvement of Ni-based anode for solid oxide fuel cells
固体氧化物燃料电池镍基阳极积碳机理及性能提升策略研究进展 |
| 韩婷婷, 吴玉玺, 解子恒, 孟秀霞, 张津津, 解玉姣, 于方永, 杨乃涛 |
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Recent advances in carbon deposition mechanism and performance improvement of Ni-based anode for solid oxide fuel cells |
| Tingting HAN, Yuxi WU, Ziheng XIE, Xiuxia MENG, Jinjin ZHANG, Yujiao XIE, Fangyong YU, Naitao YANG |
| 图6 (a) CH4转化率和CO选择性与温度的关系;(b) 800 ℃下CH4转化率与时间的关系;800 ℃下分别以(c) CH4-3% H2O(摩尔分数)和(d) CH4-33.3% H2O为燃料的电池功率密度与时间的关系[ |
| Fig. 6 (a) temperature dependence of CH4 conversion rate and CO selectivity; (b) time dependence of CH4 conversion rate at 800 ℃; Time dependence of power density for the ASC and CASC fueled by (c) CH4-3% (mole ratio) H2O and (d) CH4-33.3% H2O at 800 ℃ [ |
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