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Optimizing Radiation Shielding for Fusion Maintenance Facilities: Insights From a Comprehensive Analysis of ITER Hot Cell

Publicat a:International Journal Of Energy Research. 2025 (1): - 2025-01-01 2025(1), DOI: 10.1155/er/9222155

Autors: Martínez-Albertos P; Sauvan P; Catalán JP; Belotti M; Javier F; Germa J; Le Tonqueze Y; Dammann A; Juárez R

Afiliacions

TECF3IR Group; Universidad Nacional de Educación a Distancia (UNED); C/Juan del Rosal 12; Madrid; 28040; Spain - Autor o coautor
TECF3IR Group; Universidad Nacional de Educación a Distancia (UNED); C/Juan del Rosal 12; Madrid; 28040; Spain; Hexana; Europarc de Pichaury; 1330 Rue Jean-René Guillibert Gautier de la Lauziére; Aix-en-Provence; 13290; France - Autor o coautor
TECF3IR Group; Universidad Nacional de Educación a Distancia (UNED); C/Juan del Rosal 12; Madrid; 28040; Spain; Newcleo; Tour Silex; 9 rue des Cuirassiers; Lyon; 69003; France - Autor o coautor

Resum

One of the primary goals of the ITER project is to demonstrate the safety characteristics of a fusion device, particularly in terms of radiation management. Radiation protection during maintenance periods is of special concern, as personnel performing maintenance-like activities will be exposed to delayed gamma fields from numerous and complex radioactive components. Ensuring a safe and equipped environment for such activities is the objective of the ITER hot cell. This facility requires extensive design optimization, balancing spatial and temporal availability constraints, radiation protection, and cost-effectiveness. In this paper, we present a comprehensive assessment of ITER hot cell’s radiation environment to support its efficient design and safe operation. The study evaluates the shielding efficiency of the conceptual design layout from 2021, providing meaningful insights for layout improvement. We show that substantial amounts of concrete (~2900 m3) could be saved from the currently evolving design while respecting radiological requirements. The evaluation of the occupational radiation exposure (ORE) associated with hot cell maintenance activities resulted in 179 man·mSv·year−1, which represents a significant fraction (36%) of the project’s annual budget. This highlights the importance of integrating shielding analysis, accounting for personnel radiation exposure, even in early design phases, to support the optimization of the maintenance plan according to safety requirements. Copyright © 2025 Pablo Martínez-Albertos et al. International Journal of Energy Research published by John Wiley & Sons Ltd.

Paraules clau

Budget controlComprehensive analysisElectromagnetic shieldingFusion devicesGamma raysHeat radiationHot cellIterIter projectMaintenance facilityOccupational radiation exposureRadiationRadiation exposureRadiation managementReactor shieldingShielding analysis

Indicis de qualitat

Impacte bibliomètric. Anàlisi de la contribució i canal de difusió

El treball ha estat publicat a la revista International Journal Of Energy Research a causa de la seva progressió i el bon impacte que ha aconseguit en els últims anys, segons l'agència WoS (JCR), s'ha convertit en una referència en el seu camp. A l'any de publicació del treball, 2025, es trobava a la posició 83/171, aconseguint així situar-se com a revista Q1 (Primer Cuartil), en la categoria Energy & Fuels.