Multi-scale, multi-physics approach for solid oxide fuel cell anode reaction

S. Liu; S. Liu; L. C. Saha; A. M. Iskandarov; Z. Jiao; S. Hara; T. Ishimoto; T. Tada; Y. Umeno; N. Shikazono; S. Matsumura; Michihisa Koyama

doi:10.1149/07801.2835ecst

Multi-scale, multi-physics approach for solid oxide fuel cell anode reaction

S. Liu, S. Liu, L. C. Saha, A. M. Iskandarov, Z. Jiao, S. Hara, T. Ishimoto, T. Tada, Y. Umeno, N. Shikazono, S. Matsumura, Michihisa Koyama

Quantum Sciences of Materials

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The electrode performance in solid oxide fuel cell depends both on electrode materials and microstructure. Therefore, it is important to breakdown the complexity of multi-physics in the porous electrode into processes in different scales. To clarify the multi-physics toward better electrode design, the use of both the advanced measurement and the simulation techniques is inevitable. For this purpose, we have taken the combined top-down and bottom-up approaches. In this manuscript, we discuss the practical issues in multi-scale, multi-physics simulation, focusing on the local activity of Ni-YSZ anode.

Original language	English
Title of host publication	ECS Transactions
Editors	S. C. Singhal, T. Kawada
Publisher	Electrochemical Society Inc.
Pages	2835-2844
Number of pages	10
Edition	1
ISBN (Electronic)	9781607688150, 9781607688150
DOIs	https://doi.org/10.1149/07801.2835ecst
Publication status	Published - May 30 2017
Event	15th International Symposium on Solid Oxide Fuel Cells, SOFC 2017 - Hollywood, United States Duration: Jul 23 2017 → Jul 28 2017

Publication series

Name	ECS Transactions
Number	1
Volume	78
ISSN (Print)	1938-6737
ISSN (Electronic)	1938-5862

Other

Other	15th International Symposium on Solid Oxide Fuel Cells, SOFC 2017
Country/Territory	United States
City	Hollywood
Period	7/23/17 → 7/28/17

All Science Journal Classification (ASJC) codes

Engineering(all)

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10.1149/07801.2835ecst

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Liu, S., Liu, S., Saha, L. C., Iskandarov, A. M., Jiao, Z., Hara, S., Ishimoto, T., Tada, T., Umeno, Y., Shikazono, N., Matsumura, S., & Koyama, M. (2017). Multi-scale, multi-physics approach for solid oxide fuel cell anode reaction. In S. C. Singhal, & T. Kawada (Eds.), ECS Transactions (1 ed., pp. 2835-2844). (ECS Transactions; Vol. 78, No. 1). Electrochemical Society Inc.. https://doi.org/10.1149/07801.2835ecst

Liu, S, Liu, S, Saha, LC, Iskandarov, AM, Jiao, Z, Hara, S, Ishimoto, T, Tada, T, Umeno, Y, Shikazono, N, Matsumura, S & Koyama, M 2017, Multi-scale, multi-physics approach for solid oxide fuel cell anode reaction. in SC Singhal & T Kawada (eds), ECS Transactions. 1 edn, ECS Transactions, no. 1, vol. 78, Electrochemical Society Inc., pp. 2835-2844, 15th International Symposium on Solid Oxide Fuel Cells, SOFC 2017, Hollywood, United States, 7/23/17. https://doi.org/10.1149/07801.2835ecst

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abstract = "The electrode performance in solid oxide fuel cell depends both on electrode materials and microstructure. Therefore, it is important to breakdown the complexity of multi-physics in the porous electrode into processes in different scales. To clarify the multi-physics toward better electrode design, the use of both the advanced measurement and the simulation techniques is inevitable. For this purpose, we have taken the combined top-down and bottom-up approaches. In this manuscript, we discuss the practical issues in multi-scale, multi-physics simulation, focusing on the local activity of Ni-YSZ anode.",

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AU - Ishimoto, T.

AU - Tada, T.

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AB - The electrode performance in solid oxide fuel cell depends both on electrode materials and microstructure. Therefore, it is important to breakdown the complexity of multi-physics in the porous electrode into processes in different scales. To clarify the multi-physics toward better electrode design, the use of both the advanced measurement and the simulation techniques is inevitable. For this purpose, we have taken the combined top-down and bottom-up approaches. In this manuscript, we discuss the practical issues in multi-scale, multi-physics simulation, focusing on the local activity of Ni-YSZ anode.

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Multi-scale, multi-physics approach for solid oxide fuel cell anode reaction

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