A strategy to reduce the impact of tar on a Ni-YSZ anode of solid oxide fuel cells

Huili Chen; Wenhua Guo; Yufang Wu; Guangming Yang; Jing Shi; Wei Zhou; Jianping Bai; Si Dian Li; Zongping Shao

doi:10.1002/er.4484

A strategy to reduce the impact of tar on a Ni-YSZ anode of solid oxide fuel cells

Huili Chen, Wenhua Guo, Yufang Wu, Guangming Yang, Jing Shi, Wei Zhou, Jianping Bai, Si Dian Li, Zongping Shao

化工学院

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摘要

High-temperature raw coke oven gas (COG) is a promising fuel for use in solid oxide fuel cells (SOFCs) because it is rich in both hydrogen (55%-60%) and methane (23%-27%). However, the tar present in COG limits its ability to directly generate power using state-of-art SOFCs because the presence of tar limits the cell's performance and stability. In this work, a strategy is presented in the attempt to reduce the influence of tar on SOFCs by applying a La_0.7Sr_0.3MnO₃ catalyst as a protective layer for the cell. The results showed that 44-g Nm⁻³ toluene had a profoundly negative effect on the performance of a conventional cell, which showed severely reduced performance after only 1.4 hours of exposure to toluene-contaminated hydrogen. In contrast, the catalyst-modified cell showed good stability for at least 110 hours under the same conditions. This work provides a promising route to directly utilize raw COG as an SOFC fuel that is also suitable for biosyngas.

源语言	英语
页（从-至）	3038-3048
页数	11
期刊	International Journal of Energy Research
卷	43
期	7
DOI	https://doi.org/10.1002/er.4484
出版状态	已出版 - 10 6月 2019

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title = "A strategy to reduce the impact of tar on a Ni-YSZ anode of solid oxide fuel cells",

abstract = "High-temperature raw coke oven gas (COG) is a promising fuel for use in solid oxide fuel cells (SOFCs) because it is rich in both hydrogen (55%-60%) and methane (23%-27%). However, the tar present in COG limits its ability to directly generate power using state-of-art SOFCs because the presence of tar limits the cell's performance and stability. In this work, a strategy is presented in the attempt to reduce the influence of tar on SOFCs by applying a La0.7Sr0.3MnO3 catalyst as a protective layer for the cell. The results showed that 44-g Nm−3 toluene had a profoundly negative effect on the performance of a conventional cell, which showed severely reduced performance after only 1.4 hours of exposure to toluene-contaminated hydrogen. In contrast, the catalyst-modified cell showed good stability for at least 110 hours under the same conditions. This work provides a promising route to directly utilize raw COG as an SOFC fuel that is also suitable for biosyngas.",

keywords = "coke oven gas (COG), coking resistance, independent catalyst layer, solid oxide fuel cell (SOFC), toluene",

author = "Huili Chen and Wenhua Guo and Yufang Wu and Guangming Yang and Jing Shi and Wei Zhou and Jianping Bai and Li, {Si Dian} and Zongping Shao",

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T1 - A strategy to reduce the impact of tar on a Ni-YSZ anode of solid oxide fuel cells

AU - Chen, Huili

AU - Guo, Wenhua

AU - Wu, Yufang

AU - Yang, Guangming

AU - Shi, Jing

AU - Zhou, Wei

AU - Bai, Jianping

AU - Li, Si Dian

AU - Shao, Zongping

PY - 2019/6/10

Y1 - 2019/6/10

N2 - High-temperature raw coke oven gas (COG) is a promising fuel for use in solid oxide fuel cells (SOFCs) because it is rich in both hydrogen (55%-60%) and methane (23%-27%). However, the tar present in COG limits its ability to directly generate power using state-of-art SOFCs because the presence of tar limits the cell's performance and stability. In this work, a strategy is presented in the attempt to reduce the influence of tar on SOFCs by applying a La0.7Sr0.3MnO3 catalyst as a protective layer for the cell. The results showed that 44-g Nm−3 toluene had a profoundly negative effect on the performance of a conventional cell, which showed severely reduced performance after only 1.4 hours of exposure to toluene-contaminated hydrogen. In contrast, the catalyst-modified cell showed good stability for at least 110 hours under the same conditions. This work provides a promising route to directly utilize raw COG as an SOFC fuel that is also suitable for biosyngas.

AB - High-temperature raw coke oven gas (COG) is a promising fuel for use in solid oxide fuel cells (SOFCs) because it is rich in both hydrogen (55%-60%) and methane (23%-27%). However, the tar present in COG limits its ability to directly generate power using state-of-art SOFCs because the presence of tar limits the cell's performance and stability. In this work, a strategy is presented in the attempt to reduce the influence of tar on SOFCs by applying a La0.7Sr0.3MnO3 catalyst as a protective layer for the cell. The results showed that 44-g Nm−3 toluene had a profoundly negative effect on the performance of a conventional cell, which showed severely reduced performance after only 1.4 hours of exposure to toluene-contaminated hydrogen. In contrast, the catalyst-modified cell showed good stability for at least 110 hours under the same conditions. This work provides a promising route to directly utilize raw COG as an SOFC fuel that is also suitable for biosyngas.

KW - coke oven gas (COG)

KW - coking resistance

KW - independent catalyst layer

KW - solid oxide fuel cell (SOFC)

KW - toluene

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JO - International Journal of Energy Research

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A strategy to reduce the impact of tar on a Ni-YSZ anode of solid oxide fuel cells

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