Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms

H. Yokokawa; M. Suzuki; M. Yoda; T. Suto; K. Tomida; K. Hiwatashi; M. Shimazu; A. Kawakami; H. Sumi; M. Ohmori; T. Ryu; N. Mori; M. Iha; S. Yatsuzuka; K. Yamaji; H. Kishimoto; K. Develos-Bagarinao; T. Shimonosono; K. Sasaki; S. Taniguchi; T. Kawada; M. Muramatsu; K. Terada; K. Eguchi; T. Matsui; H. Iwai; M. Kishimoto; N. Shikazono; Y. Mugikura; T. Yamamoto; M. Yoshikawa; K. Yasumoto; K. Asano; Y. Matsuzaki; K. Sato; T. Somekawa

doi:10.1002/fuce.201800187

Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms

H. Yokokawa, M. Suzuki, M. Yoda, T. Suto, K. Tomida, K. Hiwatashi, M. Shimazu, A. Kawakami, H. Sumi, M. Ohmori, T. Ryu, N. Mori, M. Iha, S. Yatsuzuka, K. Yamaji, H. Kishimoto, K. Develos-Bagarinao, T. Shimonosono, K. Sasaki, S. TaniguchiT. Kawada, M. Muramatsu, K. Terada, K. Eguchi, T. Matsui, H. Iwai, M. Kishimoto, N. Shikazono, Y. Mugikura, T. Yamamoto, M. Yoshikawa, K. Yasumoto, K. Asano, Y. Matsuzaki, K. Sato, T. Somekawa

機械工学科

研究成果: Article › 査読

28 被引用数 (Scopus)

抄録

Achievements of NEDO durability projects on SOFC mode are summarized with a focus on the physicochemical mechanisms characterized by diffusion properties of cell components and chemical reactions of cell components with gaseous impurities. Ni sintering and depletion including impurity (P, B, S) effects have been examined in terms of the surface/interface energies of Ni/oxide cermet anodes. The conductivity degradation due to the transformation of the cubic YSZ electrolyte was found to be characterized in terms of two time constants for the reductive and the oxidative regions to be determined by the Y-diffusivity and its enhancement on NiO internal reduction in YSZ, while observed gaps in conductivity degradation behavior between stacks and button cells were ascribed to differences in those physicochemical properties involved, namely cation diffusion and kinetics associated with NiO internal reduction. The cathode performance degradation due to sulfur poisoning exhibits a variety of dependences on the microstructure (dense or porous) of doped-ceria interlayers, the thickness of YSZ electrolyte and the humidity in the anode atmosphere, suggesting effects of protons in the cathode vicinity and the SrO activity changes during fabrication the LSCF/GDC/YSZ multilayers. Some defect chemical considerations were made on how such defects are affected by fabrication processes.

本文言語	English
ページ（範囲）	311-339
ページ数	29
ジャーナル	Fuel Cells
巻	19
号	4
DOI	https://doi.org/10.1002/fuce.201800187
出版ステータス	Published - 2019

ASJC Scopus subject areas

再生可能エネルギー、持続可能性、環境
エネルギー工学および電力技術

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.1002/fuce.201800187

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Yokokawa, H., Suzuki, M., Yoda, M., Suto, T., Tomida, K., Hiwatashi, K., Shimazu, M., Kawakami, A., Sumi, H., Ohmori, M., Ryu, T., Mori, N., Iha, M., Yatsuzuka, S., Yamaji, K., Kishimoto, H., Develos-Bagarinao, K., Shimonosono, T., Sasaki, K., ... Somekawa, T. (2019). Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms. Fuel Cells, 19(4), 311-339. https://doi.org/10.1002/fuce.201800187

Yokokawa, H, Suzuki, M, Yoda, M, Suto, T, Tomida, K, Hiwatashi, K, Shimazu, M, Kawakami, A, Sumi, H, Ohmori, M, Ryu, T, Mori, N, Iha, M, Yatsuzuka, S, Yamaji, K, Kishimoto, H, Develos-Bagarinao, K, Shimonosono, T, Sasaki, K, Taniguchi, S, Kawada, T, Muramatsu, M, Terada, K, Eguchi, K, Matsui, T, Iwai, H, Kishimoto, M, Shikazono, N, Mugikura, Y, Yamamoto, T, Yoshikawa, M, Yasumoto, K, Asano, K, Matsuzaki, Y, Sato, K & Somekawa, T 2019, 'Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms', Fuel Cells, vol. 19, no. 4, pp. 311-339. https://doi.org/10.1002/fuce.201800187

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title = "Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms",

abstract = "Achievements of NEDO durability projects on SOFC mode are summarized with a focus on the physicochemical mechanisms characterized by diffusion properties of cell components and chemical reactions of cell components with gaseous impurities. Ni sintering and depletion including impurity (P, B, S) effects have been examined in terms of the surface/interface energies of Ni/oxide cermet anodes. The conductivity degradation due to the transformation of the cubic YSZ electrolyte was found to be characterized in terms of two time constants for the reductive and the oxidative regions to be determined by the Y-diffusivity and its enhancement on NiO internal reduction in YSZ, while observed gaps in conductivity degradation behavior between stacks and button cells were ascribed to differences in those physicochemical properties involved, namely cation diffusion and kinetics associated with NiO internal reduction. The cathode performance degradation due to sulfur poisoning exhibits a variety of dependences on the microstructure (dense or porous) of doped-ceria interlayers, the thickness of YSZ electrolyte and the humidity in the anode atmosphere, suggesting effects of protons in the cathode vicinity and the SrO activity changes during fabrication the LSCF/GDC/YSZ multilayers. Some defect chemical considerations were made on how such defects are affected by fabrication processes.",

keywords = "Anode Degradation, Cathode Degradation, Chromium, Conductivity Degradation, Diffusion, Durability, Impurities, Simulation, Solid Oxide Fuel Cell, Sulfur",

author = "H. Yokokawa and M. Suzuki and M. Yoda and T. Suto and K. Tomida and K. Hiwatashi and M. Shimazu and A. Kawakami and H. Sumi and M. Ohmori and T. Ryu and N. Mori and M. Iha and S. Yatsuzuka and K. Yamaji and H. Kishimoto and K. Develos-Bagarinao and T. Shimonosono and K. Sasaki and S. Taniguchi and T. Kawada and M. Muramatsu and K. Terada and K. Eguchi and T. Matsui and H. Iwai and M. Kishimoto and N. Shikazono and Y. Mugikura and T. Yamamoto and M. Yoshikawa and K. Yasumoto and K. Asano and Y. Matsuzaki and K. Sato and T. Somekawa",

note = "Funding Information: This work was made under the contract with NEDO on Fundamental study for rapid evaluation method of SOFC durability in “Technology development for promoting SOFC Commercialization.” This investigation has been conducted with cooperation with Kyocera: One of us (HY) as project leader would like to thank Yuichi Hori, Takashi Shigehisa and other members for their help in experimentation in CRIEPI, for discussions on technological aspects of Kyocera stacks and for permission of use of figures concerning Kyocera stacks. HY would like to thank also Sebastian Dierickx (KIT, IAU-WET) for his help in improving the format of all figures in the manuscript. Publisher Copyright: {\textcopyright} 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2019",

doi = "10.1002/fuce.201800187",

language = "English",

volume = "19",

pages = "311--339",

journal = "Fuel Cells",

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AU - Yokokawa, H.

AU - Suzuki, M.

AU - Yoda, M.

AU - Suto, T.

AU - Tomida, K.

AU - Hiwatashi, K.

AU - Shimazu, M.

AU - Kawakami, A.

AU - Sumi, H.

AU - Ohmori, M.

AU - Ryu, T.

AU - Mori, N.

AU - Iha, M.

AU - Yatsuzuka, S.

AU - Yamaji, K.

AU - Kishimoto, H.

AU - Develos-Bagarinao, K.

AU - Shimonosono, T.

AU - Sasaki, K.

AU - Taniguchi, S.

AU - Kawada, T.

AU - Muramatsu, M.

AU - Terada, K.

AU - Eguchi, K.

AU - Matsui, T.

AU - Iwai, H.

AU - Kishimoto, M.

AU - Shikazono, N.

AU - Mugikura, Y.

AU - Yamamoto, T.

AU - Yoshikawa, M.

AU - Yasumoto, K.

AU - Asano, K.

AU - Matsuzaki, Y.

AU - Sato, K.

AU - Somekawa, T.

N1 - Funding Information: This work was made under the contract with NEDO on Fundamental study for rapid evaluation method of SOFC durability in “Technology development for promoting SOFC Commercialization.” This investigation has been conducted with cooperation with Kyocera: One of us (HY) as project leader would like to thank Yuichi Hori, Takashi Shigehisa and other members for their help in experimentation in CRIEPI, for discussions on technological aspects of Kyocera stacks and for permission of use of figures concerning Kyocera stacks. HY would like to thank also Sebastian Dierickx (KIT, IAU-WET) for his help in improving the format of all figures in the manuscript. Publisher Copyright: © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2019

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N2 - Achievements of NEDO durability projects on SOFC mode are summarized with a focus on the physicochemical mechanisms characterized by diffusion properties of cell components and chemical reactions of cell components with gaseous impurities. Ni sintering and depletion including impurity (P, B, S) effects have been examined in terms of the surface/interface energies of Ni/oxide cermet anodes. The conductivity degradation due to the transformation of the cubic YSZ electrolyte was found to be characterized in terms of two time constants for the reductive and the oxidative regions to be determined by the Y-diffusivity and its enhancement on NiO internal reduction in YSZ, while observed gaps in conductivity degradation behavior between stacks and button cells were ascribed to differences in those physicochemical properties involved, namely cation diffusion and kinetics associated with NiO internal reduction. The cathode performance degradation due to sulfur poisoning exhibits a variety of dependences on the microstructure (dense or porous) of doped-ceria interlayers, the thickness of YSZ electrolyte and the humidity in the anode atmosphere, suggesting effects of protons in the cathode vicinity and the SrO activity changes during fabrication the LSCF/GDC/YSZ multilayers. Some defect chemical considerations were made on how such defects are affected by fabrication processes.

AB - Achievements of NEDO durability projects on SOFC mode are summarized with a focus on the physicochemical mechanisms characterized by diffusion properties of cell components and chemical reactions of cell components with gaseous impurities. Ni sintering and depletion including impurity (P, B, S) effects have been examined in terms of the surface/interface energies of Ni/oxide cermet anodes. The conductivity degradation due to the transformation of the cubic YSZ electrolyte was found to be characterized in terms of two time constants for the reductive and the oxidative regions to be determined by the Y-diffusivity and its enhancement on NiO internal reduction in YSZ, while observed gaps in conductivity degradation behavior between stacks and button cells were ascribed to differences in those physicochemical properties involved, namely cation diffusion and kinetics associated with NiO internal reduction. The cathode performance degradation due to sulfur poisoning exhibits a variety of dependences on the microstructure (dense or porous) of doped-ceria interlayers, the thickness of YSZ electrolyte and the humidity in the anode atmosphere, suggesting effects of protons in the cathode vicinity and the SrO activity changes during fabrication the LSCF/GDC/YSZ multilayers. Some defect chemical considerations were made on how such defects are affected by fabrication processes.

KW - Anode Degradation, Cathode Degradation, Chromium

KW - Conductivity Degradation

KW - Diffusion

KW - Durability

KW - Impurities

KW - Simulation

KW - Solid Oxide Fuel Cell

KW - Sulfur

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U2 - 10.1002/fuce.201800187

DO - 10.1002/fuce.201800187

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JO - Fuel Cells

JF - Fuel Cells

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ER -

Achievements of NEDO Durability Projects on SOFC Stacks in the Light of Physicochemical Mechanisms

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ASJC Scopus subject areas

UN SDG

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