EUROfusion contributions to ITER nuclear operation

X. Litaudon; U. Fantz; R. Villari; V. Toigo; M. H. Aumeunier; J. L. Autran; P. Batistoni; E. Belonohy; S. Bradnam; M. Cecchetto; Antti Snicker; et al.; EUROfusion Tokamak Exploitation Team; NBTF Team; JET Contributors

doi:10.1088/1741-4326/ad346e

EUROfusion contributions to ITER nuclear operation

X. Litaudon^*
, U. Fantz
, R. Villari
, V. Toigo
, M. H. Aumeunier
, J. L. Autran
, P. Batistoni
, E. Belonohy
, S. Bradnam
, M. Cecchetto
, Antti Snicker
, et al.
, EUROfusion Tokamak Exploitation Team
, NBTF Team
, JET Contributors

^*Corresponding author for this work

BA4511 Fusion energy

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

16 Citations (Scopus)

Abstract

ITER is of key importance in the European fusion roadmap as it aims to prove the scientific and technological feasibility of fusion as a future energy source. The EUROfusion consortium of labs within Europe is contributing to the preparation of ITER scientific exploitation and operation and aspires to exploit ITER outcomes in view of DEMO. The paper provides an overview of the major progress obtained recently, carried out in the frame of the new (initiated in 2021) EUROfusion work-package called ‘Preparation of ITER Operation’ (PrIO). The overview paper is directly supported by the eleven EUROfusion PrIO contributions given at the 29th Fusion Energy Conference (16–21 October 2023) London, UK [www.iaea.org/events/ fec2023]. The paper covers the following topics: (i) development and validation of tools in support to ITER operation (plasma breakdown/burn-through with evolving plasma volume, new infra-red synthetic diagnostic for off-line analysis and wall monitoring using Artificial Intelligence techniques, synthetic diagnostics development, development and exploitation of multi-machine databases); (ii) R&D for the radio-frequency ITER neutral beam sources leading to long duration of negative deuterium/hydrogen ions current extraction at ELISE and participation in the neutral beam test facility with progress on the ITER source SPIDER, and, the commissioning of the 1 MV high voltage accelerator (MITICA) with lessons learned for ITER; (iii) validation of neutronic tools for ITER nuclear operation following the second JET deuterium–tritium experimental campaigns carried out in 2021 and in 2023 (neutron streaming and shutdown dose rate calculation, water activation and activated corrosion products with advanced fluid dynamic simulation; irradiation of several materials under 14.1 MeV neutron flux etc).

Original language	English
Article number	112006
Journal	Nuclear Fusion
Volume	64
Issue number	11
DOIs	https://doi.org/10.1088/1741-4326/ad346e
Publication status	Published - Nov 2024
MoE publication type	A1 Journal article-refereed

Funding

This work has been carried out within the framework of the EUROfusion Consortium, funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200—EUROfusion). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Commission. Neither the European Union nor the European Commission can be held responsible for them. We would like to thank the JET operator (UKAEA) for the continuous support for the implementation of neutronic experiments at JET within PrIO. This work was partially funded by the Academy of Finland Project Nos. 328874, 353370 and 324759.

Keywords

neutral beam heating and current drive
neutronics
nuclear fusion
tokamak operation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1741-4326/ad346eLicence: CC BY

Cite this

@article{a973ee0422fa48acb0ebd38ff8d92a84,

title = "EUROfusion contributions to ITER nuclear operation",

abstract = "ITER is of key importance in the European fusion roadmap as it aims to prove the scientific and technological feasibility of fusion as a future energy source. The EUROfusion consortium of labs within Europe is contributing to the preparation of ITER scientific exploitation and operation and aspires to exploit ITER outcomes in view of DEMO. The paper provides an overview of the major progress obtained recently, carried out in the frame of the new (initiated in 2021) EUROfusion work-package called {\textquoteleft}Preparation of ITER Operation{\textquoteright} (PrIO). The overview paper is directly supported by the eleven EUROfusion PrIO contributions given at the 29th Fusion Energy Conference (16–21 October 2023) London, UK [www.iaea.org/events/ fec2023]. The paper covers the following topics: (i) development and validation of tools in support to ITER operation (plasma breakdown/burn-through with evolving plasma volume, new infra-red synthetic diagnostic for off-line analysis and wall monitoring using Artificial Intelligence techniques, synthetic diagnostics development, development and exploitation of multi-machine databases); (ii) R\&D for the radio-frequency ITER neutral beam sources leading to long duration of negative deuterium/hydrogen ions current extraction at ELISE and participation in the neutral beam test facility with progress on the ITER source SPIDER, and, the commissioning of the 1 MV high voltage accelerator (MITICA) with lessons learned for ITER; (iii) validation of neutronic tools for ITER nuclear operation following the second JET deuterium–tritium experimental campaigns carried out in 2021 and in 2023 (neutron streaming and shutdown dose rate calculation, water activation and activated corrosion products with advanced fluid dynamic simulation; irradiation of several materials under 14.1 MeV neutron flux etc).",

keywords = "neutral beam heating and current drive, neutronics, nuclear fusion, tokamak operation",

author = "X. Litaudon and U. Fantz and R. Villari and V. Toigo and Aumeunier, \{M. H.\} and Autran, \{J. L.\} and P. Batistoni and E. Belonohy and S. Bradnam and M. Cecchetto and A. Colangeli and F. Dacquait and \{Dal Bello\}, S. and M. Dentan and \{De Pietri\}, M. and J. Eriksson and M. Fabbri and G. Falchetto and L. Figini and J. Figueiredo and D. Flammini and N. Fonnesu and L. Frassinetti and J. Gald{\'o}n-Quiroga and R. Garcia-Alia and M. Garcia-Munoz and Z. Ghani and J. Gonzalez-Martin and E. Grelier and \{Di Grazia\}, L. and B. Grove and Grove, \{C. L.\} and A. Gusarov and B. Heinemann and A. Hjalmarsson and O. Hyv{\"a}rinen and V. Ioannou-Sougleridis and L. Jones and Kim, \{H. T.\} and M. K{\l}osowski and M. Kocan and B. Kos and L. Kos and D. Kotnik and E. Laszynska and D. Leichtle and I. Lengar and E. Leon-Gutierrez and L{\'o}pez-Revelles, \{A. J.\} and Antti Snicker and \{et al.\} and \{EUROfusion Tokamak Exploitation Team\} and \{NBTF Team\} and \{JET Contributors\}",

year = "2024",

month = nov,

doi = "10.1088/1741-4326/ad346e",

language = "English",

volume = "64",

journal = "Nuclear Fusion",

issn = "0029-5515",

publisher = "Institute of Physics IOP",

number = "11",

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T1 - EUROfusion contributions to ITER nuclear operation

AU - Litaudon, X.

AU - Fantz, U.

AU - Villari, R.

AU - Toigo, V.

AU - Aumeunier, M. H.

AU - Autran, J. L.

AU - Batistoni, P.

AU - Belonohy, E.

AU - Bradnam, S.

AU - Cecchetto, M.

AU - Colangeli, A.

AU - Dacquait, F.

AU - Dal Bello, S.

AU - Dentan, M.

AU - De Pietri, M.

AU - Eriksson, J.

AU - Fabbri, M.

AU - Falchetto, G.

AU - Figini, L.

AU - Figueiredo, J.

AU - Flammini, D.

AU - Fonnesu, N.

AU - Frassinetti, L.

AU - Galdón-Quiroga, J.

AU - Garcia-Alia, R.

AU - Garcia-Munoz, M.

AU - Ghani, Z.

AU - Gonzalez-Martin, J.

AU - Grelier, E.

AU - Di Grazia, L.

AU - Grove, B.

AU - Grove, C. L.

AU - Gusarov, A.

AU - Heinemann, B.

AU - Hjalmarsson, A.

AU - Hyvärinen, O.

AU - Ioannou-Sougleridis, V.

AU - Jones, L.

AU - Kim, H. T.

AU - Kłosowski, M.

AU - Kocan, M.

AU - Kos, B.

AU - Kos, L.

AU - Kotnik, D.

AU - Laszynska, E.

AU - Leichtle, D.

AU - Lengar, I.

AU - Leon-Gutierrez, E.

AU - López-Revelles, A. J.

AU - Snicker, Antti

AU - et al.

AU - EUROfusion Tokamak Exploitation Team

AU - NBTF Team

AU - JET Contributors

PY - 2024/11

Y1 - 2024/11

N2 - ITER is of key importance in the European fusion roadmap as it aims to prove the scientific and technological feasibility of fusion as a future energy source. The EUROfusion consortium of labs within Europe is contributing to the preparation of ITER scientific exploitation and operation and aspires to exploit ITER outcomes in view of DEMO. The paper provides an overview of the major progress obtained recently, carried out in the frame of the new (initiated in 2021) EUROfusion work-package called ‘Preparation of ITER Operation’ (PrIO). The overview paper is directly supported by the eleven EUROfusion PrIO contributions given at the 29th Fusion Energy Conference (16–21 October 2023) London, UK [www.iaea.org/events/ fec2023]. The paper covers the following topics: (i) development and validation of tools in support to ITER operation (plasma breakdown/burn-through with evolving plasma volume, new infra-red synthetic diagnostic for off-line analysis and wall monitoring using Artificial Intelligence techniques, synthetic diagnostics development, development and exploitation of multi-machine databases); (ii) R&D for the radio-frequency ITER neutral beam sources leading to long duration of negative deuterium/hydrogen ions current extraction at ELISE and participation in the neutral beam test facility with progress on the ITER source SPIDER, and, the commissioning of the 1 MV high voltage accelerator (MITICA) with lessons learned for ITER; (iii) validation of neutronic tools for ITER nuclear operation following the second JET deuterium–tritium experimental campaigns carried out in 2021 and in 2023 (neutron streaming and shutdown dose rate calculation, water activation and activated corrosion products with advanced fluid dynamic simulation; irradiation of several materials under 14.1 MeV neutron flux etc).

AB - ITER is of key importance in the European fusion roadmap as it aims to prove the scientific and technological feasibility of fusion as a future energy source. The EUROfusion consortium of labs within Europe is contributing to the preparation of ITER scientific exploitation and operation and aspires to exploit ITER outcomes in view of DEMO. The paper provides an overview of the major progress obtained recently, carried out in the frame of the new (initiated in 2021) EUROfusion work-package called ‘Preparation of ITER Operation’ (PrIO). The overview paper is directly supported by the eleven EUROfusion PrIO contributions given at the 29th Fusion Energy Conference (16–21 October 2023) London, UK [www.iaea.org/events/ fec2023]. The paper covers the following topics: (i) development and validation of tools in support to ITER operation (plasma breakdown/burn-through with evolving plasma volume, new infra-red synthetic diagnostic for off-line analysis and wall monitoring using Artificial Intelligence techniques, synthetic diagnostics development, development and exploitation of multi-machine databases); (ii) R&D for the radio-frequency ITER neutral beam sources leading to long duration of negative deuterium/hydrogen ions current extraction at ELISE and participation in the neutral beam test facility with progress on the ITER source SPIDER, and, the commissioning of the 1 MV high voltage accelerator (MITICA) with lessons learned for ITER; (iii) validation of neutronic tools for ITER nuclear operation following the second JET deuterium–tritium experimental campaigns carried out in 2021 and in 2023 (neutron streaming and shutdown dose rate calculation, water activation and activated corrosion products with advanced fluid dynamic simulation; irradiation of several materials under 14.1 MeV neutron flux etc).

KW - neutral beam heating and current drive

KW - neutronics

KW - nuclear fusion

KW - tokamak operation

UR - https://www.scopus.com/pages/publications/85202442753

U2 - 10.1088/1741-4326/ad346e

DO - 10.1088/1741-4326/ad346e

M3 - Article

AN - SCOPUS:85202442753

SN - 0029-5515

VL - 64

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 11

M1 - 112006

ER -

EUROfusion contributions to ITER nuclear operation

Abstract

Funding

Keywords

UN SDGs

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