Descrizione del progetto
Codici e metodi migliorati per i reattori VVER
Il reattore energetico ad acqua pressurizzata (noto come VVER) rappresenta una parte importante del mercato europeo dell’energia. Il suo funzionamento sicuro a lungo termine si basa sull’uso industriale di neutroni e codici e metodi termoidraulici che ci consentono di studiare il comportamento della centrale in condizioni regolari e accidentali. Tuttavia, tali codici e metodi sono soggetti a controlli sulle esportazioni internazionali ed extra-UE. È stata sviluppata una nuova generazione di codici e metodi innovativi che consentono l’apertura del mercato del VVER all’industria nucleare dell’UE. Il progetto CAMIVVER, finanziato dall’UE, migliorerà i codici e i metodi europei per la valutazione inclusiva della sicurezza dei reattori VVER. Si occuperà degli sviluppi necessari affinché i nuovi codici siano interamente applicabili sui VVER, generalizzerà l’accoppiamento multifisico 3D e testerà la valutazione della sicurezza.
Obiettivo
VVER reactors constitute a significant and dynamic part of the European energy market. The safe LTO of VVER (maintenance, refuelling, safety-upgrade, revamping) is based on the industrial use of neutronics and thermal-hydraulics codes and methods that allow studying the behaviour of the plant in normal and accidental conditions. The objective of CAMIVVER project is to develop and improve codes and methods for VVER comprehensive safety assessment. Such development is strongly required for the following reasons:
1) Current codes and methods used for VVER safety assessment are subjected to international export controls from outside EU. Export controls from major countries have increase in the last years, threatening the EU sovereignty and security in terms of energy supply.
2) A new generation of innovative codes and methods are being developed within Europe. These new codes and methods are improving 3D-multiphysics modelling capabilities, and uncertainty quantification capabilities. These codes and methods are worth being transferred from lab to industry as they will substantially improve the physics comprehension of PWR and VVER behaviour.
3) European codes and methods development for VVER safety assessment will open the VVER market to the European nuclear industry and will support a free and fair competition on this market. To achieve this objective, CAMIVVER will perform developments required for the new generation codes to be fully applied on VVER scope (and to PWR scope too), CAMIVVER will generalise 3D-multiphysics coupling, CAMIVVER will perform experimental validation and benchmark against current industrial codes used for VVER safety assessment, and CAMIVVER will demonstrate CFD utility and compatibility with uncertainty propagation in the frame of a safety assessment.
Finally, CAMIVVER will provide guidance to European Safety Authorities, to VVER operators, and to the international research community, concerning the use of these innovative approaches of codes and methods development.
Campo scientifico
Programma(i)
- H2020-Euratom - Euratom Main Programme
- H2020-Euratom-1. - Indirect actions
Argomento(i)
Meccanismo di finanziamento
RIA - Research and Innovation actionCoordinatore
92400 Courbevoie
Francia