Wall conditioning for ITER: Current experimental and modeling activities

D. Douai; D. Kogut; T. Wauters; S. Brezinsek; G. J.M. Hagelaar; S. H. Hong; P. J. Lomas; A. Lyssoivan; I. Nunes; R. A. Pitts; V. Rohde; P. C. De Vries; JET-EFDA Contributors; The ASDEX Upgrade Team

doi:10.1016/j.jnucmat.2014.12.034

Wall conditioning for ITER: Current experimental and modeling activities

D. Douai
, D. Kogut
, T. Wauters
, S. Brezinsek
, G. J.M. Hagelaar
, S. H. Hong
, P. J. Lomas
, A. Lyssoivan
, I. Nunes
, R. A. Pitts
, V. Rohde
, P. C. De Vries
, JET-EFDA Contributors
, The ASDEX Upgrade Team

Laboratory for Plasma Physics

Commissariat à l'Énergie Atomique (CEA)
FORSCHUNGSZENTRUM JULICH GMBH
Université Laplace Toulouse III
National Fusion Research Institute (NFRI)
Culham Centre for Fusion Energy
Instituto Superior Técnico
ITER
Max-Planck-Institut für Plasmaphysik

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

41 Citations (Scopus)

Résumé

Abstract Wall conditioning will be required in ITER to control fuel and impurity recycling, as well as tritium (T) inventory. Analysis of conditioning cycle on the JET, with its ITER-Like Wall is presented, evidencing reduced need for wall cleaning in ITER compared to JET-CFC. Using a novel 2D multi-fluid model, current density during Glow Discharge Conditioning (GDC) on the in-vessel plasma-facing components (PFC) of ITER is predicted to approach the simple expectation of total anode current divided by wall surface area. Baking of the divertor to 350°C should desorb the majority of the co-deposited T. ITER foresees the use of low temperature plasma based techniques compatible with the permanent toroidal magnetic field, such as Ion (ICWC) or Electron Cyclotron Wall Conditioning (ECWC), for tritium removal between ITER plasma pulses. Extrapolation of JET ICWC results to ITER indicates removal comparable to estimated T-retention in nominal ITER D:T shots, whereas GDC may be unattractive for that purpose.

langue originale	Anglais
Numéro d'article	48765
Pages (de - à)	150-156
Nombre de pages	7
journal	Journal of Nuclear Materials
Volume	463
Les DOIs	https://doi.org/10.1016/j.jnucmat.2014.12.034
état	Publié - 22 juil. 2015

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10.1016/j.jnucmat.2014.12.034

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Douai, D., Kogut, D., Wauters, T., Brezinsek, S., Hagelaar, G. J. M., Hong, S. H., Lomas, P. J., Lyssoivan, A., Nunes, I., Pitts, R. A., Rohde, V., De Vries, P. C., JET-EFDA Contributors, & The ASDEX Upgrade Team (2015). Wall conditioning for ITER: Current experimental and modeling activities. Journal of Nuclear Materials, 463, 150-156. Article 48765. https://doi.org/10.1016/j.jnucmat.2014.12.034

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title = "Wall conditioning for ITER: Current experimental and modeling activities",

abstract = "Abstract Wall conditioning will be required in ITER to control fuel and impurity recycling, as well as tritium (T) inventory. Analysis of conditioning cycle on the JET, with its ITER-Like Wall is presented, evidencing reduced need for wall cleaning in ITER compared to JET-CFC. Using a novel 2D multi-fluid model, current density during Glow Discharge Conditioning (GDC) on the in-vessel plasma-facing components (PFC) of ITER is predicted to approach the simple expectation of total anode current divided by wall surface area. Baking of the divertor to 350°C should desorb the majority of the co-deposited T. ITER foresees the use of low temperature plasma based techniques compatible with the permanent toroidal magnetic field, such as Ion (ICWC) or Electron Cyclotron Wall Conditioning (ECWC), for tritium removal between ITER plasma pulses. Extrapolation of JET ICWC results to ITER indicates removal comparable to estimated T-retention in nominal ITER D:T shots, whereas GDC may be unattractive for that purpose.",

author = "D. Douai and D. Kogut and T. Wauters and S. Brezinsek and Hagelaar, \{G. J.M.\} and Hong, \{S. H.\} and Lomas, \{P. J.\} and A. Lyssoivan and I. Nunes and Pitts, \{R. A.\} and V. Rohde and \{De Vries\}, \{P. C.\} and \{JET-EFDA Contributors\} and \{The ASDEX Upgrade Team\}",

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year = "2015",

month = jul,

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doi = "10.1016/j.jnucmat.2014.12.034",

language = "English",

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journal = "Journal of Nuclear Materials",

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Douai, D, Kogut, D, Wauters, T, Brezinsek, S, Hagelaar, GJM, Hong, SH, Lomas, PJ, Lyssoivan, A, Nunes, I, Pitts, RA, Rohde, V, De Vries, PC, JET-EFDA Contributors & The ASDEX Upgrade Team 2015, 'Wall conditioning for ITER: Current experimental and modeling activities', Journal of Nuclear Materials, VOL. 463, 48765, p. 150-156. https://doi.org/10.1016/j.jnucmat.2014.12.034

TY - JOUR

T1 - Wall conditioning for ITER

T2 - Current experimental and modeling activities

AU - Douai, D.

AU - Kogut, D.

AU - Wauters, T.

AU - Brezinsek, S.

AU - Hagelaar, G. J.M.

AU - Hong, S. H.

AU - Lomas, P. J.

AU - Lyssoivan, A.

AU - Nunes, I.

AU - Pitts, R. A.

AU - Rohde, V.

AU - De Vries, P. C.

AU - JET-EFDA Contributors

AU - The ASDEX Upgrade Team

PY - 2015/7/22

Y1 - 2015/7/22

N2 - Abstract Wall conditioning will be required in ITER to control fuel and impurity recycling, as well as tritium (T) inventory. Analysis of conditioning cycle on the JET, with its ITER-Like Wall is presented, evidencing reduced need for wall cleaning in ITER compared to JET-CFC. Using a novel 2D multi-fluid model, current density during Glow Discharge Conditioning (GDC) on the in-vessel plasma-facing components (PFC) of ITER is predicted to approach the simple expectation of total anode current divided by wall surface area. Baking of the divertor to 350°C should desorb the majority of the co-deposited T. ITER foresees the use of low temperature plasma based techniques compatible with the permanent toroidal magnetic field, such as Ion (ICWC) or Electron Cyclotron Wall Conditioning (ECWC), for tritium removal between ITER plasma pulses. Extrapolation of JET ICWC results to ITER indicates removal comparable to estimated T-retention in nominal ITER D:T shots, whereas GDC may be unattractive for that purpose.

AB - Abstract Wall conditioning will be required in ITER to control fuel and impurity recycling, as well as tritium (T) inventory. Analysis of conditioning cycle on the JET, with its ITER-Like Wall is presented, evidencing reduced need for wall cleaning in ITER compared to JET-CFC. Using a novel 2D multi-fluid model, current density during Glow Discharge Conditioning (GDC) on the in-vessel plasma-facing components (PFC) of ITER is predicted to approach the simple expectation of total anode current divided by wall surface area. Baking of the divertor to 350°C should desorb the majority of the co-deposited T. ITER foresees the use of low temperature plasma based techniques compatible with the permanent toroidal magnetic field, such as Ion (ICWC) or Electron Cyclotron Wall Conditioning (ECWC), for tritium removal between ITER plasma pulses. Extrapolation of JET ICWC results to ITER indicates removal comparable to estimated T-retention in nominal ITER D:T shots, whereas GDC may be unattractive for that purpose.

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JO - Journal of Nuclear Materials

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M1 - 48765

ER -

Wall conditioning for ITER: Current experimental and modeling activities

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