Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO

E. Joffrin; M. Wischmeier; M. Baruzzo; A. Hakola; A. Kappatou; D. Keeling; B. Labit; E. Tsitrone; N. Vianello; Aaro Järvinen; Jussi Karhunen; Anu Kirjasuo; J. Likonen; A. Salmi; A. Snicker; T. Tala; et al.; ASDEX Upgrade Team

doi:10.1088/1741-4326/ad2be4

Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO

E. Joffrin^*
, M. Wischmeier
, M. Baruzzo
, A. Hakola
, A. Kappatou
, D. Keeling
, B. Labit
, E. Tsitrone
, N. Vianello
, Aaro Järvinen
, Jussi Karhunen
, Anu Kirjasuo
, J. Likonen
, A. Salmi
, A. Snicker
, T. Tala
, et al.
, ASDEX Upgrade Team

^*Corresponding author for this work

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

22 Citations (Scopus)

Abstract

Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called ‘Tokamak Exploitation’. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment.

Original language	English
Article number	112019
Journal	Nuclear Fusion
Volume	64
Issue number	11
DOIs	https://doi.org/10.1088/1741-4326/ad2be4
Publication status	Published - 1 Nov 2024
MoE publication type	A1 Journal article-refereed

Funding

The authors would like to thank the work of Z Doagouei for her help in preparing the list of contributing authors to this Tokamak Exploitation Task Force first overview paper. 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\u2014EUROfusion). The SPI systems at AUG and JET have received funding through the ITER project and from the ITER Organization. The views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the ITER Organization. The Swiss contribution to this work has been funded by the Swiss state secretariat for education, research and innovation (SERI). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union, the European Commission or SERI. Neither the European Union nor the European commission nor SERI can be held responsible for them.

Keywords

ASDEX Upgrade
EUROfusion
JET
MAST-U
TCV
Tokamak Exploitation Task Force
WEST

UN SDGs

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

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10.1088/1741-4326/ad2be4Licence: CC BY

Cite this

Joffrin, E., Wischmeier, M., Baruzzo, M., Hakola, A., Kappatou, A., Keeling, D., Labit, B., Tsitrone, E., Vianello, N., Järvinen, A., Karhunen, J., Kirjasuo, A., Likonen, J., Salmi, A., Snicker, A., Tala, T., et al., & ASDEX Upgrade Team (2024). Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO. Nuclear Fusion, 64(11), Article 112019. https://doi.org/10.1088/1741-4326/ad2be4

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abstract = "Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called {\textquoteleft}Tokamak Exploitation{\textquoteright}. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment.",

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author = "E. Joffrin and M. Wischmeier and M. Baruzzo and A. Hakola and A. Kappatou and D. Keeling and B. Labit and E. Tsitrone and N. Vianello and D. Abate and J. Adamek and M. Agostini and C. Albert and Devasagayam, \{F. C.P.Albert\} and S. Aleiferis and E. Alessi and J. Alhage and S. Allan and J. Allcock and M. Alonzo and G. Anastasiou and Sunden, \{E. Andersson\} and C. Angioni and Y. Anquetin and L. Appel and Apruzzese, \{G. M.\} and M. Ariola and C. Arnas and Artaud, \{J. F.\} and W. Arter and O. Asztalos and L. Aucone and Aumeunier, \{M. H.\} and F. Auriemma and J. Ayllon and E. Aymerich and A. Baciero and F. Bagnato and J. Huang and Aaro J{\"a}rvinen and Jussi Karhunen and Kim, \{H. T.\} and Anu Kirjasuo and A. Kit and T. Kiviniemi and J. Likonen and A. Salmi and K. S{\"a}rkim{\"a}ki and A. Snicker and T. Tala and \{et al.\} and \{ASDEX Upgrade Team\}",

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month = nov,

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doi = "10.1088/1741-4326/ad2be4",

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Joffrin, E, Wischmeier, M, Baruzzo, M, Hakola, A, Kappatou, A, Keeling, D, Labit, B, Tsitrone, E, Vianello, N, Järvinen, A , Karhunen, J, Kirjasuo, A, Likonen, J , Salmi, A , Snicker, A , Tala, T, et al. & ASDEX Upgrade Team 2024, 'Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO', Nuclear Fusion, vol. 64, no. 11, 112019. https://doi.org/10.1088/1741-4326/ad2be4

TY - JOUR

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AU - Joffrin, E.

AU - Wischmeier, M.

AU - Baruzzo, M.

AU - Hakola, A.

AU - Kappatou, A.

AU - Keeling, D.

AU - Labit, B.

AU - Tsitrone, E.

AU - Vianello, N.

AU - Abate, D.

AU - Adamek, J.

AU - Agostini, M.

AU - Albert, C.

AU - Devasagayam, F. C.P.Albert

AU - Aleiferis, S.

AU - Alessi, E.

AU - Alhage, J.

AU - Allan, S.

AU - Allcock, J.

AU - Alonzo, M.

AU - Anastasiou, G.

AU - Sunden, E. Andersson

AU - Angioni, C.

AU - Anquetin, Y.

AU - Appel, L.

AU - Apruzzese, G. M.

AU - Ariola, M.

AU - Arnas, C.

AU - Artaud, J. F.

AU - Arter, W.

AU - Asztalos, O.

AU - Aucone, L.

AU - Aumeunier, M. H.

AU - Auriemma, F.

AU - Ayllon, J.

AU - Aymerich, E.

AU - Baciero, A.

AU - Bagnato, F.

AU - Huang, J.

AU - Järvinen, Aaro

AU - Karhunen, Jussi

AU - Kim, H. T.

AU - Kirjasuo, Anu

AU - Kit, A.

AU - Kiviniemi, T.

AU - Likonen, J.

AU - Salmi, A.

AU - Särkimäki, K.

AU - Snicker, A.

AU - Tala, T.

AU - et al.

AU - ASDEX Upgrade Team

PY - 2024/11/1

Y1 - 2024/11/1

N2 - Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called ‘Tokamak Exploitation’. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment.

AB - Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called ‘Tokamak Exploitation’. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment.

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KW - EUROfusion

KW - JET

KW - MAST-U

KW - TCV

KW - Tokamak Exploitation Task Force

KW - WEST

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DO - 10.1088/1741-4326/ad2be4

M3 - Article

AN - SCOPUS:85202295883

SN - 0029-5515

VL - 64

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 11

M1 - 112019

ER -

Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO

Abstract

Funding

Keywords

UN SDGs

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