Toward mobility of solid oxide Fuel cells

Yuqing Wang; Jixin Shi; Xin Gu; Olaf Deutschmann; Yixiang Shi; Ningsheng Cai

doi:10.1016/j.pecs.2023.101141

Toward mobility of solid oxide Fuel cells

Yuqing Wang, Jixin Shi, Xin Gu, Olaf Deutschmann^*, Yixiang Shi^*, Ningsheng Cai

^*此作品的通讯作者

机电学院

科研成果: 期刊稿件 › 文献综述 › 同行评审

9 引用（Scopus）

摘要

Solid oxide fuel cells (SOFCs) have witnessed significant advancements in recent years, emerging as potential alternatives to low-temperature fuel cells for mobile applications owing to their wide fuel flexibility and high efficiency. This paper offers a comprehensive assessment of the progress achieved thus far and the challenges faced in transitioning from stationary to mobility sectors. Three pivotal aspects are highlighted across different levels: enhancing fuel tolerance and flexibility at the anode level, achieving rapid start-up at the cell level, and realizing compact integration at the stack level. This review can lay a theoretical foundation for the development of SOFC systems tailored to unique requirements, such as high power density and rapid start-up, crucial for mobile applications. This review will facilitate commercial breakthroughs and advances in the mobility of SOFCs, which holds substantial strategic importance.

源语言	英语
文章编号	101141
期刊	Progress in Energy and Combustion Science
卷	102
DOI	https://doi.org/10.1016/j.pecs.2023.101141
出版状态	已出版 - 5月 2024

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title = "Toward mobility of solid oxide Fuel cells",

abstract = "Solid oxide fuel cells (SOFCs) have witnessed significant advancements in recent years, emerging as potential alternatives to low-temperature fuel cells for mobile applications owing to their wide fuel flexibility and high efficiency. This paper offers a comprehensive assessment of the progress achieved thus far and the challenges faced in transitioning from stationary to mobility sectors. Three pivotal aspects are highlighted across different levels: enhancing fuel tolerance and flexibility at the anode level, achieving rapid start-up at the cell level, and realizing compact integration at the stack level. This review can lay a theoretical foundation for the development of SOFC systems tailored to unique requirements, such as high power density and rapid start-up, crucial for mobile applications. This review will facilitate commercial breakthroughs and advances in the mobility of SOFCs, which holds substantial strategic importance.",

keywords = "Fuel flexibility, Mobile and portable application, Solid oxide fuel cell, Stack compactness, Thermal shock resistance",

author = "Yuqing Wang and Jixin Shi and Xin Gu and Olaf Deutschmann and Yixiang Shi and Ningsheng Cai",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Ltd",

year = "2024",

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doi = "10.1016/j.pecs.2023.101141",

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volume = "102",

journal = "Progress in Energy and Combustion Science",

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T1 - Toward mobility of solid oxide Fuel cells

AU - Wang, Yuqing

AU - Shi, Jixin

AU - Gu, Xin

AU - Deutschmann, Olaf

AU - Shi, Yixiang

AU - Cai, Ningsheng

PY - 2024/5

Y1 - 2024/5

N2 - Solid oxide fuel cells (SOFCs) have witnessed significant advancements in recent years, emerging as potential alternatives to low-temperature fuel cells for mobile applications owing to their wide fuel flexibility and high efficiency. This paper offers a comprehensive assessment of the progress achieved thus far and the challenges faced in transitioning from stationary to mobility sectors. Three pivotal aspects are highlighted across different levels: enhancing fuel tolerance and flexibility at the anode level, achieving rapid start-up at the cell level, and realizing compact integration at the stack level. This review can lay a theoretical foundation for the development of SOFC systems tailored to unique requirements, such as high power density and rapid start-up, crucial for mobile applications. This review will facilitate commercial breakthroughs and advances in the mobility of SOFCs, which holds substantial strategic importance.

AB - Solid oxide fuel cells (SOFCs) have witnessed significant advancements in recent years, emerging as potential alternatives to low-temperature fuel cells for mobile applications owing to their wide fuel flexibility and high efficiency. This paper offers a comprehensive assessment of the progress achieved thus far and the challenges faced in transitioning from stationary to mobility sectors. Three pivotal aspects are highlighted across different levels: enhancing fuel tolerance and flexibility at the anode level, achieving rapid start-up at the cell level, and realizing compact integration at the stack level. This review can lay a theoretical foundation for the development of SOFC systems tailored to unique requirements, such as high power density and rapid start-up, crucial for mobile applications. This review will facilitate commercial breakthroughs and advances in the mobility of SOFCs, which holds substantial strategic importance.

KW - Fuel flexibility

KW - Mobile and portable application

KW - Solid oxide fuel cell

KW - Stack compactness

KW - Thermal shock resistance

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U2 - 10.1016/j.pecs.2023.101141

DO - 10.1016/j.pecs.2023.101141

M3 - Review article

AN - SCOPUS:85185177371

SN - 0360-1285

VL - 102

JO - Progress in Energy and Combustion Science

JF - Progress in Energy and Combustion Science

M1 - 101141

ER -

Toward mobility of solid oxide Fuel cells

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