Performance evaluation of a trapezoidal interconnector configuration of solid oxide fuel cell: A numerical study

Summary A solid oxide fuel cell (SOFC) is an intricate system involving an amalgam of several electrochemical reactions with thermal‐fluid‐electrical interactions. To enhance the performance of the fuel cell, the interconnector configuration has to be designed judiciously. In this article, a trapezo...

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Bibliographic Details
Published inInternational journal of energy research Vol. 46; no. 14; pp. 19710 - 19722
Main Authors Kumar, Raj, Veeresh Babu, A., Sonawane, Shirish H.
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Inc 01.11.2022
Hindawi Limited
Subjects
Anodes
ANSYS
CAD
Cathodes
Chemical reactions
Computer aided design
Configurations
Design
Electrochemistry
Flow channels
Fuel cells
Fuel technology
interconnector
Operating temperature
Performance evaluation
Physics
rib width
SOFC
Solid oxide fuel cells
Temperature
Transport
Trapezoidal channels
Width
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Summary:Summary A solid oxide fuel cell (SOFC) is an intricate system involving an amalgam of several electrochemical reactions with thermal‐fluid‐electrical interactions. To enhance the performance of the fuel cell, the interconnector configuration has to be designed judiciously. In this article, a trapezoidal interconnector (TI) design for anode and cathode flow channels after a thorough simulation carried out with all the multi‐physics involved using ANSYS fluent is proposed. The proposed TI design performance is compared against the conventional rectangular interconnector (CRI) configuration. From the results, it is observed that the TI design provides an increase of 18.2% power density compared to the CRI configuration when the cell is operated at 1123 K operating temperature. The proposed design offers the advantage of operating the cell at a lower operating temperature of 1073 K with an increment of 10.68% power density compared to the 1123 K operating temperature in a CRI configuration. In addition, the influence of rib width on the anode side fuel transport is also evaluated by designing a SOFC with a rectangular parallel anode interconnector and a trapezoidal channel cathode interconnector. It is concluded that the rib width of the anode side has a moderate effect on fuel transport in anode‐supported SOFCs. The novelty of the present article is the usage of a trapezoidal channel with a wider channel width and a narrow rib for the interconnector design. The trapezoidal interconnector's performance is compared to that of a conventional rectangular interconnector. An increase of 18.2% power density was observed against conventional rectangular interconnector design. It was found that rib width has a moderate effect on anode fuel transfer.
ISSN:0363-907X
1099-114X
DOI:10.1002/er.8656