管状固体氧化物燃料电池前沿技术研究进展
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董乐贤, 郑群, 黄悦, 田志鹏, 刘建平, 王超, 梁波, 雷励斌
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Research progress on cutting-edge technology of tubular solid oxide fuel cells
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Lexian DONG, Qun ZHENG, Yue HUANG, Zhipeng TIAN, Jianping LIU, Chao WANG, Bo LIANG, Libin LEI
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表1 近5年管状SOFCs的代表性工作
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Table 1 Representative work on tubular SOFCs in last 5 years
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| 序号 | 电池材料组成(阳极|电解质|阴极) | 电解质类型 | 工作温度/℃ | 支撑方式 | 功率密度/(mW/cm2) | 年份 | 文献 |
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| 1 | Ni/Fe-YSZ|YSZ|LSM-YSZ | 氧离子导体 | 800 | 阳极支撑 | 480 | 2018 | [5] | | 2 | Ni-ScSZ|ScSZ|LSM-ScSZ | 800 | 惰性基体支撑 | 616 | 2018 | [6] | | 3 | Ni-YSZ|YSZ|LSM | 800 | 阳极支撑 | 1270 | 2019 | [7] | | 4 | Ni-YSZ|YSZ|LSM | ─ | 金属支撑 | ─ | 2019 | [8] | | 5 | Ni-SDC|LSMO|LSCF | 850 | 阳极支撑 | 240 | 2020 | [9] | | 6 | Ni-YSZ|GDC|LSCF-GDC | 700 | 阳极支撑 | 2270 | 2020 | [10] | | 7 | Ni-SDC|SDC|PBCO | 700 | 惰性基体支撑 | 1150 | 2020 | [11] | | 8 | NiMo-YSZ|YSZ/SDC|LSCF | 750 | 惰性基体支撑 | 354(CH4为燃料) | 2021 | [12] | | 9 | Ni-GDC|GDC|NSCO-GDC | 700 | 电解质支撑 | 460 | 2021 | [13] | | 10 | Ni-YSZ|YSZ|PBFZr-GDC | 750 | 阳极支撑 | 1260 | 2021 | [14] | | 11 | Ni-YSZ|LSGM|SSC | 600 | 阳极支撑 | 440 | 2022 | [15] | | 12 | Ni-YSZ|BSCZGY|LSCF- BSCZGY | 质子导体 | 600 | 阳极支撑 | 187 | 2018 | [16] | | 13 | Ni- BZI20|BZI20|LSCF | 600 | 阳极支撑 | 143 | 2019 | [17] | | 14 | Ni-BCZYYb|BZCYYb|LSCF- BZCYYb | 600 | 金属支撑 | 189 | 2019 | [18] | | 15 | Ni-BZCYYb|BZCYYb|LSCF-SDC | 600 | 阳极支撑 | 700 | 2019 | [19] | | 16 | Ni-BCZYYb|BCZYYb|PNOF-BCZYYb | 650 | 阳极支撑 | 580 | 2021 | [20] | | 17 | Ni-BCZYYb|BCZYYb|BCFZY | 600 | 阳极支撑 | 517 | 2021 | [21] | | 18 | Ni-BZCYYb(Fe)|BZCYYb|PBSCF | 700 | 阳极支撑 | 1078(NH3为燃料) | 2022 | [22] | | 19 | Ni-BZCYYb(Fe-CeO x )|BZCYYb|PBSCF | 700 | 阳极支撑 | 1060(NH3为燃料) | 2022 | [23] |
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