Modeling of proton-conducting solid oxide fuel cells fueled with syngas

Meng Ni; Zongping Shao; Kwong Yu Chan

doi:10.3390/en7074381

Modeling of proton-conducting solid oxide fuel cells fueled with syngas

Meng Ni, Zongping Shao, Kwong Yu Chan

化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

20 引用（Scopus）

摘要

Solid oxide fuel cells (SOFCs) with proton conducting electrolyte (H-SOFCs) are promising power sources for stationary applications. Compared with other types of fuel cells, one distinct feature of SOFC is their fuel flexibility. In this study, a 2D model is developed to investigate the transport and reaction in an H-SOFC fueled with syngas, which can be produced from conventional natural gas or renewable biomass. The model fully considers the fluid flow, mass transfer, heat transfer and reactions in the H-SOFC. Parametric studies are conducted to examine the physical and chemical processes in H-SOFC with a focus on how the operating parameters affect the H-SOFC performance. It is found that the presence of CO dilutes the concentration of H₂, thus decreasing the H-SOFC performance. With typical syngas fuel, adding H₂O cannot enhance the performance of the H-SOFC, although water gas shift reaction can facilitate H₂ production.

源语言	英语
页（从-至）	4381-4396
页数	16
期刊	Energies
卷	7
期	7
DOI	https://doi.org/10.3390/en7074381
出版状态	已出版 - 7月 2014

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title = "Modeling of proton-conducting solid oxide fuel cells fueled with syngas",

abstract = "Solid oxide fuel cells (SOFCs) with proton conducting electrolyte (H-SOFCs) are promising power sources for stationary applications. Compared with other types of fuel cells, one distinct feature of SOFC is their fuel flexibility. In this study, a 2D model is developed to investigate the transport and reaction in an H-SOFC fueled with syngas, which can be produced from conventional natural gas or renewable biomass. The model fully considers the fluid flow, mass transfer, heat transfer and reactions in the H-SOFC. Parametric studies are conducted to examine the physical and chemical processes in H-SOFC with a focus on how the operating parameters affect the H-SOFC performance. It is found that the presence of CO dilutes the concentration of H2, thus decreasing the H-SOFC performance. With typical syngas fuel, adding H2O cannot enhance the performance of the H-SOFC, although water gas shift reaction can facilitate H2 production.",

keywords = "Computational fluid dynamics, Coupled transport and reaction syngas, Electrochemistry, Mathematical modeling, Proton-conducting solid oxide fuel cells, Water gas shift reaction",

author = "Meng Ni and Zongping Shao and Chan, {Kwong Yu}",

year = "2014",

month = jul,

doi = "10.3390/en7074381",

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T1 - Modeling of proton-conducting solid oxide fuel cells fueled with syngas

AU - Ni, Meng

AU - Shao, Zongping

AU - Chan, Kwong Yu

PY - 2014/7

Y1 - 2014/7

N2 - Solid oxide fuel cells (SOFCs) with proton conducting electrolyte (H-SOFCs) are promising power sources for stationary applications. Compared with other types of fuel cells, one distinct feature of SOFC is their fuel flexibility. In this study, a 2D model is developed to investigate the transport and reaction in an H-SOFC fueled with syngas, which can be produced from conventional natural gas or renewable biomass. The model fully considers the fluid flow, mass transfer, heat transfer and reactions in the H-SOFC. Parametric studies are conducted to examine the physical and chemical processes in H-SOFC with a focus on how the operating parameters affect the H-SOFC performance. It is found that the presence of CO dilutes the concentration of H2, thus decreasing the H-SOFC performance. With typical syngas fuel, adding H2O cannot enhance the performance of the H-SOFC, although water gas shift reaction can facilitate H2 production.

AB - Solid oxide fuel cells (SOFCs) with proton conducting electrolyte (H-SOFCs) are promising power sources for stationary applications. Compared with other types of fuel cells, one distinct feature of SOFC is their fuel flexibility. In this study, a 2D model is developed to investigate the transport and reaction in an H-SOFC fueled with syngas, which can be produced from conventional natural gas or renewable biomass. The model fully considers the fluid flow, mass transfer, heat transfer and reactions in the H-SOFC. Parametric studies are conducted to examine the physical and chemical processes in H-SOFC with a focus on how the operating parameters affect the H-SOFC performance. It is found that the presence of CO dilutes the concentration of H2, thus decreasing the H-SOFC performance. With typical syngas fuel, adding H2O cannot enhance the performance of the H-SOFC, although water gas shift reaction can facilitate H2 production.

KW - Computational fluid dynamics

KW - Coupled transport and reaction syngas

KW - Electrochemistry

KW - Mathematical modeling

KW - Proton-conducting solid oxide fuel cells

KW - Water gas shift reaction

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DO - 10.3390/en7074381

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SN - 1996-1073

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JO - Energies

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ER -

Modeling of proton-conducting solid oxide fuel cells fueled with syngas

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