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Consideration of reversed Boudouard reaction in solid oxide direct carbon fuel cell (SO-DCFC)open access

Authors
Vahc, Zuh YounYi, Sung Chul
Issue Date
Dec-2018
Publisher
KOREAN ASSOC CRYSTAL GROWTH, INC
Keywords
Direct carbon fuel cell; CFD; Boudouard reaction; Carbon monoxide; Carbon fuel
Citation
JOURNAL OF CERAMIC PROCESSING RESEARCH, v.19, no.6, pp.514 - 518
Indexed
SCIE
SCOPUS
KCI
Journal Title
JOURNAL OF CERAMIC PROCESSING RESEARCH
Volume
19
Number
6
Start Page
514
End Page
518
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/148862
DOI
10.36410/jcpr.2018.19.6.514
ISSN
1229-9162
Abstract
The direct carbon fuel cell (DCFC) has attracted researcher's attention recently, due to its high conversion efficiency and its abundant fuel, carbon. A DCFC mathematical model has developed in two-dimensional, lab-scale, and considers Boudouard reaction and carbon monoxide (CO) oxidation. The model simulates the CO production by Boudouard reaction and additional electron production by CO oxidation. The Boudouard equilibrium strongly depends on operating temperature and affects the amount of produced CO and consequentially affects the overall fuel cell performance. Two different operating temperatures (973 K, 1023 K) has been calculated to discover the CO production by Boudouard reaction and overall fuel cell performance. Moreover, anode thickness of the cell has been considered to find out the influence of the Boudouard reaction zone in fuel cell performance. It was found that in high temperature operating DCFC modeling, the Boudouard reaction cannot be neglected and has a vital role in the overall fuel cell performance.
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