Descripción del proyecto
Aumentar la seguridad de los reactores nucleares
La energía nuclear es una alternativa con bajas emisiones de carbono a los combustibles fósiles y puede desempeñar un papel fundamental en la transición hacia la neutralidad climática, un elemento clave para cumplir los objetivos del Pacto Verde Europeo. Sin embargo, los futuros reactores nucleares solo podrán integrarse en el sistema energético europeo cuando se demuestre su seguridad y su capacidad para satisfacer las necesidades sociales. Es en este contexto en el que interviene el equipo del proyecto ESFR-SIMPLE, financiado con fondos europeos. Su objetivo es mejorar la seguridad del diseño y la economía del actual reactor rápido de sodio europeo mediante tecnologías innovadoras, en consonancia con la hoja de ruta de la Iniciativa Industrial Europea sobre Fisión Nuclear Sostenible.
Objetivo
To facilitate the integration of the future nuclear reactors into the European energy system, it is necessary to demonstrate that the reactors have uncompromised safety and meet the future societal needs. The ESFR-SIMPLE project aims at challenging the current European Sodium Fast Reactor (ESFR) design to improve its safety and economics through implementation of innovative technologies in accordance with the ESNII roadmap. The project has 5 specific objectives:
1) Rethink the ESFR design in order to simplify it and make it more cost-competitive, while still achieving resource sustainability and having safety reinforced by intrinsic behaviour. This can be accomplished through reducing the size of the reactor, which will also allow taking advantage of Small Modular Reactor features such as transportability, modularisation, standardisation, and flexible operation, all ultimately leading to improved economics.
2) Assess impact of alternative technologies, such as metallic fuel and compact secondary system design, for the large-size ESFR on the economics and safety.
3) Propose, develop and assess advanced methods of monitoring and processing operational data using Artificial Intelligence, e.g. to optimise fault detection in steam generators at an early stage.
4) Produce new experimental data in order to assist in qualification of innovative components, such as expansion bellows, core catcher and thermo-electric pumps.
5) Ensure that the knowledge generated in the project is shared not only among the project partner institutions, but also with a wide range of stakeholders in Europe and internationally. The project activities will also be informed by the public and other stakeholders’ perception of risks and benefits of ESFR technology.
Close interactions with EU safety regulator experts will enable continued review and recommendation of the solutions proposed and developed in the project.
Ámbito científico
- natural sciencescomputer and information sciencesartificial intelligence
- natural scienceschemical sciencesinorganic chemistryalkali metals
- social scienceseconomics and businesseconomics
- engineering and technologyother engineering and technologiesnuclear engineering
- engineering and technologyenvironmental engineeringenergy and fuels
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Tema(s)
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EURATOM-RIA - EURATOM Research and Innovation ActionsCoordinador
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