Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall

M. Rubel; A. Widdowson; J. Grzonka; E. Fortuna-Zalesna; Sunwoo Moon; P. Petersson; N. Ashikawa; N. Asakura; D. Hamaguchi; Y. Hatano; K. Isobe; S. Masuzaki; H. Kurotaki; Y. Oya; M. Oyaidzu; M. Tokitani; JET contributors

doi:10.1016/j.fusengdes.2018.03.027

Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall

M. Rubel^*, A. Widdowson, J. Grzonka, E. Fortuna-Zalesna, Sunwoo Moon, P. Petersson, N. Ashikawa, N. Asakura, D. Hamaguchi, Y. Hatano, K. Isobe, S. Masuzaki, H. Kurotaki, Y. Oya, M. Oyaidzu, M. Tokitani, JET contributors

^*Corresponding author for this work

Hydrogen Isotope Research Center, Organization for Promotion of Research

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

60 Scopus citations

Abstract

Operation of the JET tokamak with beryllium and tungsten ITER-like wall provides unique opportunity for detailed studies on dust generation: quantity, morphology, location, etc. The programme carried out in response to ITER needs for safety assessment comprises: (i) remotely controlled vacuum cleaning of the divertor; (ii) local sampling of loosely bound matter from plasma-facing components (PFC); (iii) collection of mobilized dust on various erosion-deposition probes located in the divertor and in the main chamber. Results of comprehensive analyses performed by a number of complementary techniques, e.g. a range of microscopy methods, electron and ion spectroscopy, liquid scintillography and thermal desorption, are summarized by following points: (a) Total amount of dust collected by vacuum cleaning after three campaigns is about 1–1.4 g per campaign (19.1–23.5 h plasma operation), i.e. over 100 times smaller than in JET operated with carbon walls (i.e. in JET-C). (b) Two major categories of Be dust are identified: flakes of co-deposits formed on PFC and droplets (2–10 μm in diameter). Small quantifies, below 1 g, of Be droplets and splashes are associated mainly with melting of beryllium limiters. (c) Tungsten dust occurs mainly as partly molten flakes originating from the W-coated tiles.

Original language	English
Pages (from-to)	579-586
Number of pages	8
Journal	Fusion Engineering and Design
Volume	136
DOIs	https://doi.org/10.1016/j.fusengdes.2018.03.027
State	Published - 2018/11

Keywords

Beryllium
Dust
ITER-like wall
JET tokamak
Tungsten

ASJC Scopus subject areas

Civil and Structural Engineering
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

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10.1016/j.fusengdes.2018.03.027

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Rubel, M., Widdowson, A., Grzonka, J., Fortuna-Zalesna, E., Moon, S., Petersson, P., Ashikawa, N., Asakura, N., Hamaguchi, D., Hatano, Y., Isobe, K., Masuzaki, S., Kurotaki, H., Oya, Y., Oyaidzu, M., Tokitani, M., & JET contributors (2018). Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall. Fusion Engineering and Design, 136, 579-586. https://doi.org/10.1016/j.fusengdes.2018.03.027

@article{18d90c4de4b149e78ac22324bd4a5368,

title = "Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall",

abstract = "Operation of the JET tokamak with beryllium and tungsten ITER-like wall provides unique opportunity for detailed studies on dust generation: quantity, morphology, location, etc. The programme carried out in response to ITER needs for safety assessment comprises: (i) remotely controlled vacuum cleaning of the divertor; (ii) local sampling of loosely bound matter from plasma-facing components (PFC); (iii) collection of mobilized dust on various erosion-deposition probes located in the divertor and in the main chamber. Results of comprehensive analyses performed by a number of complementary techniques, e.g. a range of microscopy methods, electron and ion spectroscopy, liquid scintillography and thermal desorption, are summarized by following points: (a) Total amount of dust collected by vacuum cleaning after three campaigns is about 1–1.4 g per campaign (19.1–23.5 h plasma operation), i.e. over 100 times smaller than in JET operated with carbon walls (i.e. in JET-C). (b) Two major categories of Be dust are identified: flakes of co-deposits formed on PFC and droplets (2–10 μm in diameter). Small quantifies, below 1 g, of Be droplets and splashes are associated mainly with melting of beryllium limiters. (c) Tungsten dust occurs mainly as partly molten flakes originating from the W-coated tiles.",

keywords = "Beryllium, Dust, ITER-like wall, JET tokamak, Tungsten",

author = "M. Rubel and A. Widdowson and J. Grzonka and E. Fortuna-Zalesna and Sunwoo Moon and P. Petersson and N. Ashikawa and N. Asakura and D. Hamaguchi and Y. Hatano and K. Isobe and S. Masuzaki and H. Kurotaki and Y. Oya and M. Oyaidzu and M. Tokitani and {JET contributors}",

note = "Publisher Copyright: {\textcopyright} 2018 M. Rubel, A. Widdowson, J. Grzonka, E. Fortuna-Zalesna, Sunwoo Moon, P. Petersson, N. Ashikawa, N. Asakura, D. Hamaguchi, Y. Hatano, K. Isobe, S. Masuzaki, H. Kurotaki, Y. Oya, M. Oyaidzu, M. Tokitani, JET Contributors",

year = "2018",

month = nov,

doi = "10.1016/j.fusengdes.2018.03.027",

language = "英語",

volume = "136",

pages = "579--586",

journal = "Fusion Engineering and Design",

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Rubel, M, Widdowson, A, Grzonka, J, Fortuna-Zalesna, E, Moon, S, Petersson, P, Ashikawa, N, Asakura, N, Hamaguchi, D, Hatano, Y, Isobe, K, Masuzaki, S, Kurotaki, H, Oya, Y, Oyaidzu, M, Tokitani, M & JET contributors 2018, 'Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall', Fusion Engineering and Design, vol. 136, pp. 579-586. https://doi.org/10.1016/j.fusengdes.2018.03.027

TY - JOUR

T1 - Dust generation in tokamaks

T2 - Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall

AU - Rubel, M.

AU - Widdowson, A.

AU - Grzonka, J.

AU - Fortuna-Zalesna, E.

AU - Moon, Sunwoo

AU - Petersson, P.

AU - Ashikawa, N.

AU - Asakura, N.

AU - Hamaguchi, D.

AU - Hatano, Y.

AU - Isobe, K.

AU - Masuzaki, S.

AU - Kurotaki, H.

AU - Oya, Y.

AU - Oyaidzu, M.

AU - Tokitani, M.

AU - JET contributors

N1 - Publisher Copyright: © 2018 M. Rubel, A. Widdowson, J. Grzonka, E. Fortuna-Zalesna, Sunwoo Moon, P. Petersson, N. Ashikawa, N. Asakura, D. Hamaguchi, Y. Hatano, K. Isobe, S. Masuzaki, H. Kurotaki, Y. Oya, M. Oyaidzu, M. Tokitani, JET Contributors

PY - 2018/11

Y1 - 2018/11

N2 - Operation of the JET tokamak with beryllium and tungsten ITER-like wall provides unique opportunity for detailed studies on dust generation: quantity, morphology, location, etc. The programme carried out in response to ITER needs for safety assessment comprises: (i) remotely controlled vacuum cleaning of the divertor; (ii) local sampling of loosely bound matter from plasma-facing components (PFC); (iii) collection of mobilized dust on various erosion-deposition probes located in the divertor and in the main chamber. Results of comprehensive analyses performed by a number of complementary techniques, e.g. a range of microscopy methods, electron and ion spectroscopy, liquid scintillography and thermal desorption, are summarized by following points: (a) Total amount of dust collected by vacuum cleaning after three campaigns is about 1–1.4 g per campaign (19.1–23.5 h plasma operation), i.e. over 100 times smaller than in JET operated with carbon walls (i.e. in JET-C). (b) Two major categories of Be dust are identified: flakes of co-deposits formed on PFC and droplets (2–10 μm in diameter). Small quantifies, below 1 g, of Be droplets and splashes are associated mainly with melting of beryllium limiters. (c) Tungsten dust occurs mainly as partly molten flakes originating from the W-coated tiles.

AB - Operation of the JET tokamak with beryllium and tungsten ITER-like wall provides unique opportunity for detailed studies on dust generation: quantity, morphology, location, etc. The programme carried out in response to ITER needs for safety assessment comprises: (i) remotely controlled vacuum cleaning of the divertor; (ii) local sampling of loosely bound matter from plasma-facing components (PFC); (iii) collection of mobilized dust on various erosion-deposition probes located in the divertor and in the main chamber. Results of comprehensive analyses performed by a number of complementary techniques, e.g. a range of microscopy methods, electron and ion spectroscopy, liquid scintillography and thermal desorption, are summarized by following points: (a) Total amount of dust collected by vacuum cleaning after three campaigns is about 1–1.4 g per campaign (19.1–23.5 h plasma operation), i.e. over 100 times smaller than in JET operated with carbon walls (i.e. in JET-C). (b) Two major categories of Be dust are identified: flakes of co-deposits formed on PFC and droplets (2–10 μm in diameter). Small quantifies, below 1 g, of Be droplets and splashes are associated mainly with melting of beryllium limiters. (c) Tungsten dust occurs mainly as partly molten flakes originating from the W-coated tiles.

KW - Beryllium

KW - Dust

KW - ITER-like wall

KW - JET tokamak

KW - Tungsten

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U2 - 10.1016/j.fusengdes.2018.03.027

DO - 10.1016/j.fusengdes.2018.03.027

M3 - 学術論文

AN - SCOPUS:85044008512

SN - 0920-3796

VL - 136

SP - 579

EP - 586

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

ER -

Dust generation in tokamaks: Overview of beryllium and tungsten dust characterisation in JET with the ITER-like wall

Abstract

Keywords

ASJC Scopus subject areas

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