T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test

Hideaki Matsuura; Taisei Abe; Kanta Kitagawa; Motomasa Naoi; Hiromi Kawai; Kazunari Katayama; Teppei Otsuka; Minoru Goto; Shigeaki Nakagawa; Etsuo Ishitsuka; Shimpei Hamamoto; Kenji Tobita; Satoshi Konishi; Yuki Koga; Ryoji Hiwatari; Youji Someya; Yoshiteru Sakamoto

doi:10.1016/j.fusengdes.2023.114054

T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test

Hideaki Matsuura, Taisei Abe, Kanta Kitagawa, Motomasa Naoi, Hiromi Kawai, Kazunari Katayama, Teppei Otsuka, Minoru Goto, Shigeaki Nakagawa, Etsuo Ishitsuka, Shimpei Hamamoto, Kenji Tobita, Satoshi Konishi, Yuki Koga, Ryoji Hiwatari, Youji Someya, Yoshiteru Sakamoto

ENG - Quantum Science and Energy Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This work proposes tritium (T) production using a high-temperature gas-cooled reactor (HTGR) and studies it for the initial T inventory in a demonstration fusion reactor and a prior engineering test with T handling. At this stage, the aim is to investigate the compatibility between electricity and T production, which makes the stable confinement of T in the Li-loading rods during the HTGR operation period a crucial issue. The total T outflow into the helium gas during the reactor operation period was attempted to be reduced using Zr spheres with Ni coating as a T absorption material to avoid an increase in the inner T pressure. The basic hydrogen absorption properties of the Zr spheres with Ni coating, which coexist in an environment with Al₂O₃ and/or LiAlO₂ oxides, were measured. The structures of the Li-loading rod for a typical commercial HTGR and irradiation test were studied using the obtained data. In addition, an outline of the irradiation test is reported.

Original language	English
Article number	114054
Journal	Fusion Engineering and Design
Volume	197
DOIs	https://doi.org/10.1016/j.fusengdes.2023.114054
Publication status	Published - 2023 Dec

Keywords

DEMO fusion reactor
GTHTR300
HTTR
Irradiation test module
Ni coating
Tritium
Zirconium

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10.1016/j.fusengdes.2023.114054

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Matsuura, H., Abe, T., Kitagawa, K., Naoi, M., Kawai, H., Katayama, K., Otsuka, T., Goto, M., Nakagawa, S., Ishitsuka, E., Hamamoto, S., Tobita, K., Konishi, S., Koga, Y., Hiwatari, R., Someya, Y., & Sakamoto, Y. (2023). T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test. Fusion Engineering and Design, 197, Article 114054. https://doi.org/10.1016/j.fusengdes.2023.114054

@article{bbee7800499948578894b42da582601a,

title = "T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test",

abstract = "This work proposes tritium (T) production using a high-temperature gas-cooled reactor (HTGR) and studies it for the initial T inventory in a demonstration fusion reactor and a prior engineering test with T handling. At this stage, the aim is to investigate the compatibility between electricity and T production, which makes the stable confinement of T in the Li-loading rods during the HTGR operation period a crucial issue. The total T outflow into the helium gas during the reactor operation period was attempted to be reduced using Zr spheres with Ni coating as a T absorption material to avoid an increase in the inner T pressure. The basic hydrogen absorption properties of the Zr spheres with Ni coating, which coexist in an environment with Al2O3 and/or LiAlO2 oxides, were measured. The structures of the Li-loading rod for a typical commercial HTGR and irradiation test were studied using the obtained data. In addition, an outline of the irradiation test is reported.",

keywords = "DEMO fusion reactor, GTHTR300, HTTR, Irradiation test module, Ni coating, Tritium, Zirconium",

author = "Hideaki Matsuura and Taisei Abe and Kanta Kitagawa and Motomasa Naoi and Hiromi Kawai and Kazunari Katayama and Teppei Otsuka and Minoru Goto and Shigeaki Nakagawa and Etsuo Ishitsuka and Shimpei Hamamoto and Kenji Tobita and Satoshi Konishi and Yuki Koga and Ryoji Hiwatari and Youji Someya and Yoshiteru Sakamoto",

note = "Publisher Copyright: {\textcopyright} 2023",

year = "2023",

month = dec,

doi = "10.1016/j.fusengdes.2023.114054",

language = "English",

volume = "197",

journal = "Fusion Engineering and Design",

issn = "0920-3796",

publisher = "Elsevier B.V.",

}

Matsuura, H, Abe, T, Kitagawa, K, Naoi, M, Kawai, H, Katayama, K, Otsuka, T, Goto, M, Nakagawa, S, Ishitsuka, E, Hamamoto, S, Tobita, K, Konishi, S, Koga, Y, Hiwatari, R, Someya, Y & Sakamoto, Y 2023, 'T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test', Fusion Engineering and Design, vol. 197, 114054. https://doi.org/10.1016/j.fusengdes.2023.114054

TY - JOUR

T1 - T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor

T2 - Li rod structure for the initial irradiation test

AU - Matsuura, Hideaki

AU - Abe, Taisei

AU - Kitagawa, Kanta

AU - Naoi, Motomasa

AU - Kawai, Hiromi

AU - Katayama, Kazunari

AU - Otsuka, Teppei

AU - Goto, Minoru

AU - Nakagawa, Shigeaki

AU - Ishitsuka, Etsuo

AU - Hamamoto, Shimpei

AU - Tobita, Kenji

AU - Konishi, Satoshi

AU - Koga, Yuki

AU - Hiwatari, Ryoji

AU - Someya, Youji

AU - Sakamoto, Yoshiteru

PY - 2023/12

Y1 - 2023/12

N2 - This work proposes tritium (T) production using a high-temperature gas-cooled reactor (HTGR) and studies it for the initial T inventory in a demonstration fusion reactor and a prior engineering test with T handling. At this stage, the aim is to investigate the compatibility between electricity and T production, which makes the stable confinement of T in the Li-loading rods during the HTGR operation period a crucial issue. The total T outflow into the helium gas during the reactor operation period was attempted to be reduced using Zr spheres with Ni coating as a T absorption material to avoid an increase in the inner T pressure. The basic hydrogen absorption properties of the Zr spheres with Ni coating, which coexist in an environment with Al2O3 and/or LiAlO2 oxides, were measured. The structures of the Li-loading rod for a typical commercial HTGR and irradiation test were studied using the obtained data. In addition, an outline of the irradiation test is reported.

AB - This work proposes tritium (T) production using a high-temperature gas-cooled reactor (HTGR) and studies it for the initial T inventory in a demonstration fusion reactor and a prior engineering test with T handling. At this stage, the aim is to investigate the compatibility between electricity and T production, which makes the stable confinement of T in the Li-loading rods during the HTGR operation period a crucial issue. The total T outflow into the helium gas during the reactor operation period was attempted to be reduced using Zr spheres with Ni coating as a T absorption material to avoid an increase in the inner T pressure. The basic hydrogen absorption properties of the Zr spheres with Ni coating, which coexist in an environment with Al2O3 and/or LiAlO2 oxides, were measured. The structures of the Li-loading rod for a typical commercial HTGR and irradiation test were studied using the obtained data. In addition, an outline of the irradiation test is reported.

KW - DEMO fusion reactor

KW - GTHTR300

KW - HTTR

KW - Irradiation test module

KW - Ni coating

KW - Tritium

KW - Zirconium

UR - http://www.scopus.com/inward/record.url?scp=85177561067&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85177561067&partnerID=8YFLogxK

U2 - 10.1016/j.fusengdes.2023.114054

DO - 10.1016/j.fusengdes.2023.114054

M3 - Article

AN - SCOPUS:85177561067

SN - 0920-3796

VL - 197

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

M1 - 114054

ER -

T production using a high-temperature gas-cooled reactor for the DEMO fusion reactor: Li rod structure for the initial irradiation test

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Keywords

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