IVMR

In-Vessel Melt Retention Severe Accident Management Strategy for Existing and Future NPPs

Informazioni Generali

Coordinatore:: IRSN - INSTITUT DE RADIOPROTECTION ET DE SURETE NUCLEAIRE (Francia)
Responsabile:: BANDINI GIACOMINO - FSN-SICNUC-SIN (BO-MARTIRI MONTE SOLE)
Ruolo ENEA:: PARTNER
Sito WEB:: Sito WEB non disponibile

Programmi Europei

Programma:: HORIZON 2020 - Euratom -> Euratom fissione (RIA - Research and Innovation Action)

Descrizione e Attività

Descrizione Generale

The stabilization of molten corium is recognised as essential if a safe and stable state is to be reached following a severe accident. Among the possible options, In-Vessel Melt Retention (IVMR) appears as an attractive solution that would minimize the risks of containment failure (less Hydrogen produced, no corium-concrete interaction), if it can be proved to be feasible.
The strategy is already adopted for the VVER 440 type 213 based on thorough research work for the Finnish Loviisa NPP and Hungarian Paks NPP. It is also included in the design of some new Gen.III reactors like AP-1000, APR 1400 and Chinese CPR-1000. It has also been studied in the past for other reactor concepts like KERENA (BWR) or VVER-640.
Current approaches for reactors with relatively small power, such as VVER 440 or AP600, use conservative assumptions. However, for higher power reactors (around 1000 MWe), it is necessary to evaluate the IVMR strategy with best-estimate methods in order to address the uncertainties associated with the involved phenomena. Additional R&D is needed to ensure and demonstrate adequate safety margins, including identification of efficient technical solutions for the external cooling of the vessel and performing best-estimate evaluation of relevant scenarios. Among other provisions, the possibility of cooling the corium inside the vessel by direct injection of water into the degraded core, may be considered because it is likely to remove a significant part of the residual power.
The goal of the project is an analysis of the applicability and technical feasibility of the IVMR strategy to high power reactors, both for existing ones (e.g. VVER 1000 type 320 units) as well as for future reactors of different types (PWR or BWR). The main outcomes of the project will be elevant assumptions and scenarios to estimate the maximum heat load on the vessel wall, improved numerical tools for the analysis of IVMR issues and a harmonized methodology on the IVMR.

Attività svolta da ENEA

L'ENEA partecipa alle attività del work package 2 'Methodology, modelling reactor calculation, evaluation of safety margin', in particolare:
. attività di sviluppo e qualificazione di modelli numerici e codici di calcolo utilizzati nell'analisi di incidenti severi, attraverso l'analisi di prove sperimentali previste nell'ambito del progetto e finalizzate allo studio del raffreddamento del nocciolo degradato attraverso l'intervento dei sistemi di sicurezza;
. valutazione con codici CFD del comportamento di materiale fuso rilocato fondo vessel e della sua possibile ritenzione attraverso il raffreddamento della parete esterna del vessel;
. Calcoli di applicazione IVMR con il codice europeo ASTEC per impianti PWR esistenti e di generazioni future.

Dati Finanziari (in euro)

Costo Eleggibile

Progetto:

8.205.085,00

ENEA:

218.250,00

Contributo

Progetto:

4.831.454,00

ENEA:

109.125,00

Durata del Progetto

Anno di stipula e Durata:

2015 - 48 mesi

Periodo:

01-06-2015 -> 30-01-2020

Partner (23)

Ruolo	Nome	Nazione
	TRACTEBEL ENGINEERING S.A.	Belgio
	LEI - LITHUANIAN ENERGY INSTITUTE	Lituania
	MTA EK - HUNGARIAN ACADEMY OF SCIENCES/CENTRE FOR ENERGY RESEARCH	Ungheria
	KTH - ROYAL INSTITUTE OF TECHNOLOGY	Svezia
	IVS - Company for Engineering Calculations Trnava, Ltd	Slovacchia
	UJV REZ a.s. - USTAV JADERNEHO VYZKUMU REZ A.S.	Repubblica Ceca
	CVR - RESEARCH CENTRE REZ S.R.O.	Repubblica Ceca
	IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE	Regno Unito
	NCBJ - NATIONAL CENTER FOR NUCLEAR RESEARCH	Polonia
	NRG - NUCLEAR RESEARCH AND CONSULTANCY GROUP	Paesi Bassi
	JRC COMMISSION OF THE EUROPEAN COMMUNITIES	Organ. Internazionali
	NUBIKI NUCLEAR SAFETY RESEARCH INSTITUTE LTD.	Ungheria
	INRNE - BULGARIAN ACADEMY OF SCIENCES - INSTITUTE OF NUCLEAR RESEARCH AND NUCLEAR ENERGY	Bulgaria
	KIT - KARLSRUHER INSTITUTE OF TECHNOLOGY	Germania
	HZDR - HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF EV	Germania
	GRS gGmbH - GLOBAL RESEARCH FOR SAFETY AND NUCLEAR SAFETY	Germania
	AREVA NP GMBH	Germania
	EDF - ELECTRICITE DE FRANCE SA	Francia
	CEA - COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES	Francia
	VTT - TEKNOLOGIAN TUTKIMUSKESKUS VTT OY	Finlandia
	FORTUM POWER AND HEAT OY	Finlandia
COORD	IRSN - INSTITUT DE RADIOPROTECTION ET DE SURETE NUCLEAIRE	Francia
PARTNER	ENEA	Italia

Keyword CORDIS (3)

Keyword	Argomento
NUCLEAR FISSION	Energy
SAFETY	Protecting Man and his Environment
SCIENTIFIC RESEARCH	RTD Horizontal Topics

Altre Keyword (1)

Keyword
Severe accident management research

Det. 180/2019/FSN prolungamento attività e accertamento ulteriore entrata