Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability

Daniel Birlan; Gabriele Benzoni; William Brace; Alessandro Bruschi; Antonio Cammi; René Chavan; Fabien Crisinel; Oliver Crofts; Saul Garavaglia; Timothy Goodman; Jean-Philippe Hogge; Cinta Lucia Marraco Borderas; Avelino Mas Sanchez; Changyang Li; Janne Lyytinen; Hannu Martikainen; Aditya Sinha; Peter Spaeh; Marc Torrance; Anna Unt; Chuanren Wu; Huapeng Wu; Anastasia Xydou

doi:10.1016/j.fusengdes.2025.115267

Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability

Daniel Birlan^*
, Gabriele Benzoni
, William Brace
, Alessandro Bruschi
, Antonio Cammi
, René Chavan
, Fabien Crisinel
, Oliver Crofts
, Saul Garavaglia
, Timothy Goodman
, Jean-Philippe Hogge
, Cinta Lucia Marraco Borderas
, Avelino Mas Sanchez
, Changyang Li
, Janne Lyytinen
, Hannu Martikainen
, Aditya Sinha
, Peter Spaeh
, Marc Torrance
, Anna Unt

Chuanren Wu, Huapeng Wu, Anastasia Xydou

^*Corresponding author for this work

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

Abstract

The EUropean DEMOnstration power plant (EU-DEMO) project, a EUROfusion initiative, seeks to advance fusion power technology by developing a reliable Electron Cyclotron (EC) heating and current drive system capable of delivering up to 130 MW of auxiliary heating power presently through six equatorial ports. This paper introduces an innovative alternative to the baseline ex-vessel waveguide (EW) system design, which could be major for effective EC operations. The proposed design reduces vacuum-sealed interfaces significantly — from 173 to seven — minimizing failure points and reducing the need for extensive monitoring in confined port spaces. Enhanced for remote maintainability, the design simplifies maintenance tasks and mitigates vacuum breach risks. The vacuum dimple-plated casing, acting as the primary confinement boundary, ensures nuclear safety and enables integration with current infrastructure, while addressing challenges like dynamic loads and vessel movements to maintain structural integrity. These advancements indicate that the modular and sealless waveguide approach offers a more reliable, maintainable solution.

Original language	English
Article number	115267
Journal	Fusion Engineering and Design
Volume	219
DOIs	https://doi.org/10.1016/j.fusengdes.2025.115267
Publication status	Published - Oct 2025
MoE publication type	A1 Journal article-refereed
Event	33rd Symposium on Fusion Technology, SOFT 2024: SOFT 2024 - Dublin City University, Ireland, Dublin, Ireland Duration: 22 Sept 2024 → 27 Sept 2024 https://soft2024.eu/

Funding

This work has been carried out within the framework of the EUROfusion Consortium, via the Euratom Research and Training Programme (Grant Agreement No 101052200 — EUROfusion) and funded by the Swiss State Secretariat for Education, Research and Innovation (SERI) .

Keywords

Nuclear safety
Electron Cyclotron heating
EUROfusion
DEMO
Ex-vessel waveguides
Remote handling

UN SDGs

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

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10.1016/j.fusengdes.2025.115267Licence: CC BY

Cite this

Birlan, D., Benzoni, G., Brace, W., Bruschi, A., Cammi, A., Chavan, R., Crisinel, F., Crofts, O., Garavaglia, S., Goodman, T., Hogge, J.-P., Marraco Borderas, C. L., Mas Sanchez, A., Li, C., Lyytinen, J., Martikainen, H., Sinha, A., Spaeh, P., Torrance, M., ... Xydou, A. (2025). Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability. Fusion Engineering and Design, 219, Article 115267. https://doi.org/10.1016/j.fusengdes.2025.115267

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title = "Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability",

abstract = "The EUropean DEMOnstration power plant (EU-DEMO) project, a EUROfusion initiative, seeks to advance fusion power technology by developing a reliable Electron Cyclotron (EC) heating and current drive system capable of delivering up to 130 MW of auxiliary heating power presently through six equatorial ports. This paper introduces an innovative alternative to the baseline ex-vessel waveguide (EW) system design, which could be major for effective EC operations. The proposed design reduces vacuum-sealed interfaces significantly — from 173 to seven — minimizing failure points and reducing the need for extensive monitoring in confined port spaces. Enhanced for remote maintainability, the design simplifies maintenance tasks and mitigates vacuum breach risks. The vacuum dimple-plated casing, acting as the primary confinement boundary, ensures nuclear safety and enables integration with current infrastructure, while addressing challenges like dynamic loads and vessel movements to maintain structural integrity. These advancements indicate that the modular and sealless waveguide approach offers a more reliable, maintainable solution.",

keywords = "Nuclear safety, Electron Cyclotron heating, EUROfusion, DEMO, Ex-vessel waveguides, Remote handling",

author = "Daniel Birlan and Gabriele Benzoni and William Brace and Alessandro Bruschi and Antonio Cammi and Ren{\'e} Chavan and Fabien Crisinel and Oliver Crofts and Saul Garavaglia and Timothy Goodman and Jean-Philippe Hogge and \{Marraco Borderas\}, \{Cinta Lucia\} and \{Mas Sanchez\}, Avelino and Changyang Li and Janne Lyytinen and Hannu Martikainen and Aditya Sinha and Peter Spaeh and Marc Torrance and Anna Unt and Chuanren Wu and Huapeng Wu and Anastasia Xydou",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s); 33rd Symposium on Fusion Technology, SOFT 2024 : SOFT 2024, SOFT ; Conference date: 22-09-2024 Through 27-09-2024",

year = "2025",

month = oct,

doi = "10.1016/j.fusengdes.2025.115267",

language = "English",

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journal = "Fusion Engineering and Design",

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Birlan, D, Benzoni, G, Brace, W, Bruschi, A, Cammi, A, Chavan, R, Crisinel, F, Crofts, O, Garavaglia, S, Goodman, T, Hogge, J-P, Marraco Borderas, CL, Mas Sanchez, A, Li, C, Lyytinen, J , Martikainen, H, Sinha, A, Spaeh, P, Torrance, M, Unt, A, Wu, C, Wu, H & Xydou, A 2025, 'Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability', Fusion Engineering and Design, vol. 219, 115267. https://doi.org/10.1016/j.fusengdes.2025.115267

TY - JOUR

T1 - Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability

AU - Birlan, Daniel

AU - Benzoni, Gabriele

AU - Brace, William

AU - Bruschi, Alessandro

AU - Cammi, Antonio

AU - Chavan, René

AU - Crisinel, Fabien

AU - Crofts, Oliver

AU - Garavaglia, Saul

AU - Goodman, Timothy

AU - Hogge, Jean-Philippe

AU - Marraco Borderas, Cinta Lucia

AU - Mas Sanchez, Avelino

AU - Li, Changyang

AU - Lyytinen, Janne

AU - Martikainen, Hannu

AU - Sinha, Aditya

AU - Spaeh, Peter

AU - Torrance, Marc

AU - Unt, Anna

AU - Wu, Chuanren

AU - Wu, Huapeng

AU - Xydou, Anastasia

PY - 2025/10

Y1 - 2025/10

N2 - The EUropean DEMOnstration power plant (EU-DEMO) project, a EUROfusion initiative, seeks to advance fusion power technology by developing a reliable Electron Cyclotron (EC) heating and current drive system capable of delivering up to 130 MW of auxiliary heating power presently through six equatorial ports. This paper introduces an innovative alternative to the baseline ex-vessel waveguide (EW) system design, which could be major for effective EC operations. The proposed design reduces vacuum-sealed interfaces significantly — from 173 to seven — minimizing failure points and reducing the need for extensive monitoring in confined port spaces. Enhanced for remote maintainability, the design simplifies maintenance tasks and mitigates vacuum breach risks. The vacuum dimple-plated casing, acting as the primary confinement boundary, ensures nuclear safety and enables integration with current infrastructure, while addressing challenges like dynamic loads and vessel movements to maintain structural integrity. These advancements indicate that the modular and sealless waveguide approach offers a more reliable, maintainable solution.

AB - The EUropean DEMOnstration power plant (EU-DEMO) project, a EUROfusion initiative, seeks to advance fusion power technology by developing a reliable Electron Cyclotron (EC) heating and current drive system capable of delivering up to 130 MW of auxiliary heating power presently through six equatorial ports. This paper introduces an innovative alternative to the baseline ex-vessel waveguide (EW) system design, which could be major for effective EC operations. The proposed design reduces vacuum-sealed interfaces significantly — from 173 to seven — minimizing failure points and reducing the need for extensive monitoring in confined port spaces. Enhanced for remote maintainability, the design simplifies maintenance tasks and mitigates vacuum breach risks. The vacuum dimple-plated casing, acting as the primary confinement boundary, ensures nuclear safety and enables integration with current infrastructure, while addressing challenges like dynamic loads and vessel movements to maintain structural integrity. These advancements indicate that the modular and sealless waveguide approach offers a more reliable, maintainable solution.

KW - Nuclear safety

KW - Electron Cyclotron heating

KW - EUROfusion

KW - DEMO

KW - Ex-vessel waveguides

KW - Remote handling

UR - https://www.scopus.com/pages/publications/105008797612

U2 - 10.1016/j.fusengdes.2025.115267

DO - 10.1016/j.fusengdes.2025.115267

M3 - Article

SN - 0920-3796

VL - 219

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

M1 - 115267

T2 - 33rd Symposium on Fusion Technology, SOFT 2024

Y2 - 22 September 2024 through 27 September 2024

ER -

Conceptual design proposal for the EU-DEMO electron cyclotron ex-vessel waveguide system with enhanced remote maintainability

Abstract

Funding

Keywords

UN SDGs

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