Modelling of a reversible SOC in AnSYs fluent

S. Herrmann; Z. Ong; M. Hauck; M. Hauser; F. Fischer; J. Weinrich; M. Gaderer; H. Spliethoff

doi:10.1149/09101.2065ecst

Modelling of a reversible SOC in AnSYs fluent

S. Herrmann, Z. Ong, M. Hauck, M. Hauser, F. Fischer, J. Weinrich, M. Gaderer, H. Spliethoff

Technical University of Munich

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

Abstract

Reversible Solid Oxide Cells (SOC) are quite susceptible to variations in operating parameters, and especially the switching of operating modes is not yet well understood. Effects like thermal stress from changes in the current density pattern, as well as carbon deposition and nickel oxidation can destroy SOC. Thus, in order to design a robust SOC system a SOC stack model has been built in ANSYS Fluent 17.0. In this work, this model is used to study the impact of operating mode transition from fuel cell to electrolysis on the stack. It is found that the thermal gradients resulting from switching operation modes are largely depending on the gas compositions fed during both operating modes. Therefore, at fixed operating temperature especially by adjusting the gas feeds thermal gradients can be flattened, so that their effect on the lifetime of the SOC can be significantly reduced.

Original language	English
Title of host publication	Solid Oxide Fuel Cells 16, SOFC 2019
Editors	K. Eguchi, S. C. Singhal
Publisher	Electrochemical Society Inc.
Pages	2065-2074
Number of pages	10
Edition	1
ISBN (Electronic)	9781607688747, 9781607688747
DOIs	https://doi.org/10.1149/09101.2065ecst
State	Published - 2019
Event	16th International Symposium on Solid Oxide Fuel Cells, SOFC 2019 - Kyoto, Japan Duration: 8 Sep 2019 → 13 Sep 2019

Publication series

Name	ECS Transactions
Number	1
Volume	91
ISSN (Print)	1938-6737
ISSN (Electronic)	1938-5862

Conference

Conference	16th International Symposium on Solid Oxide Fuel Cells, SOFC 2019
Country/Territory	Japan
City	Kyoto
Period	8/09/19 → 13/09/19

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10.1149/09101.2065ecst

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title = "Modelling of a reversible SOC in AnSYs fluent",

abstract = "Reversible Solid Oxide Cells (SOC) are quite susceptible to variations in operating parameters, and especially the switching of operating modes is not yet well understood. Effects like thermal stress from changes in the current density pattern, as well as carbon deposition and nickel oxidation can destroy SOC. Thus, in order to design a robust SOC system a SOC stack model has been built in ANSYS Fluent 17.0. In this work, this model is used to study the impact of operating mode transition from fuel cell to electrolysis on the stack. It is found that the thermal gradients resulting from switching operation modes are largely depending on the gas compositions fed during both operating modes. Therefore, at fixed operating temperature especially by adjusting the gas feeds thermal gradients can be flattened, so that their effect on the lifetime of the SOC can be significantly reduced.",

author = "S. Herrmann and Z. Ong and M. Hauck and M. Hauser and F. Fischer and J. Weinrich and M. Gaderer and H. Spliethoff",

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Herrmann, S, Ong, Z, Hauck, M, Hauser, M, Fischer, F, Weinrich, J, Gaderer, M & Spliethoff, H 2019, Modelling of a reversible SOC in AnSYs fluent. in K Eguchi & SC Singhal (eds), Solid Oxide Fuel Cells 16, SOFC 2019. 1 edn, ECS Transactions, no. 1, vol. 91, Electrochemical Society Inc., pp. 2065-2074, 16th International Symposium on Solid Oxide Fuel Cells, SOFC 2019, Kyoto, Japan, 8/09/19. https://doi.org/10.1149/09101.2065ecst

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T1 - Modelling of a reversible SOC in AnSYs fluent

AU - Herrmann, S.

AU - Ong, Z.

AU - Hauck, M.

AU - Hauser, M.

AU - Fischer, F.

AU - Weinrich, J.

AU - Gaderer, M.

AU - Spliethoff, H.

PY - 2019

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N2 - Reversible Solid Oxide Cells (SOC) are quite susceptible to variations in operating parameters, and especially the switching of operating modes is not yet well understood. Effects like thermal stress from changes in the current density pattern, as well as carbon deposition and nickel oxidation can destroy SOC. Thus, in order to design a robust SOC system a SOC stack model has been built in ANSYS Fluent 17.0. In this work, this model is used to study the impact of operating mode transition from fuel cell to electrolysis on the stack. It is found that the thermal gradients resulting from switching operation modes are largely depending on the gas compositions fed during both operating modes. Therefore, at fixed operating temperature especially by adjusting the gas feeds thermal gradients can be flattened, so that their effect on the lifetime of the SOC can be significantly reduced.

AB - Reversible Solid Oxide Cells (SOC) are quite susceptible to variations in operating parameters, and especially the switching of operating modes is not yet well understood. Effects like thermal stress from changes in the current density pattern, as well as carbon deposition and nickel oxidation can destroy SOC. Thus, in order to design a robust SOC system a SOC stack model has been built in ANSYS Fluent 17.0. In this work, this model is used to study the impact of operating mode transition from fuel cell to electrolysis on the stack. It is found that the thermal gradients resulting from switching operation modes are largely depending on the gas compositions fed during both operating modes. Therefore, at fixed operating temperature especially by adjusting the gas feeds thermal gradients can be flattened, so that their effect on the lifetime of the SOC can be significantly reduced.

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BT - Solid Oxide Fuel Cells 16, SOFC 2019

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T2 - 16th International Symposium on Solid Oxide Fuel Cells, SOFC 2019

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ER -

Modelling of a reversible SOC in AnSYs fluent

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