An introduction to Spent Nuclear Fuel decay heat for Light Water Reactors: a review from the NEA WPNCS - IRSN - Institut de radioprotection et de sûreté nucléaire
Article Dans Une Revue EPJ N - Nuclear Sciences & Technologies Année : 2024

An introduction to Spent Nuclear Fuel decay heat for Light Water Reactors: a review from the NEA WPNCS

1 PSI - Paul Scherrer Institute
2 IFIC - Instituto de Fisica Corpuscular
3 ATOMKI - Institute for Nuclear Research [Budapest]
4 CIEMAT - Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas
5 IRSN/PSN-RES/SNC/BERAC - Bureau d'Evaluation des Risques de criticité et des Accidents de Criticité
6 EDF - EDF
7 UPM - Universidad Politécnica de Madrid
8 National Nuclear Laboratory
9 CEA Cadarache
10 Centrale nucléaire de Gösgen, Kraftwerkstrasse 1, 4658 Däniken
11 NTS - Nuclear Transport Solutions, Risley
12 KIT - Karlsruhe Institute of Technology = Karlsruher Institut für Technologie
13 SUBATECH - Laboratoire de physique subatomique et des technologies associées
14 SCK-CEN - Belgian Nuclear Research Centre [Mol, Belgique]
15 FANC - Federal Agency for Nuclear Control
16 VTT - VTT Technical Research Centre of Finland
17 GRS - Gesellschaft für Anlagen - und Reaktorsicherheit [Köln]
18 SERMA - Service d’Études des Réacteurs et de Mathématiques Appliquées
19 IRSN/PSN-RES/SNC/LN - Laboratoire de Neutronique
20 ORNL - Oak Ridge National Laboratory [Oak Ridge]
21 UW - University of Warsaw
22 IJS - Jozef Stefan Institute [Ljubljana]
23 HKUST - Hong Kong University of Science and Technology
24 Rolls Royce PLC
25 Orano R - Orano Recyclage
26 Orano
27 OCDE - Organisation de Coopération et de Développement Economiques = Organisation for Economic Co-operation and Development
28 AXPO, Baden - AXPO Power AG
29 Japan Atomic Energy Agency
30 CRIEPI - Central Research Institute of Electric Power Industry
31 SEA, Madrid - Science Engineering Associates S.L.
32 Sofia University "St. Kliment Ohridski"
33 PreussenElektra GmbH - PreussenElektra GmbH
34 NAGRA - Nationale Genossenschaft für die Lagerung radioaktiver Abfälle
35 Studsvik Scandpower, Inc., Newton, MA, USA
36 SKB - Swedish Nuclear Fuel and Waste Management Co
37 Lund University
38 Uppsala Universitet [Uppsala]
39 WTI - TI GmbH, Jülich
Dimitri Rochman
Øystein Bremnes
  • Fonction : Auteur
EDF
Coralie Carmouze
  • Fonction : Auteur
Axel Hoefer
  • Fonction : Auteur
Raphaelle Ichou
Frédéric Laugier
  • Fonction : Auteur
EDF
Agnés Launay
  • Fonction : Auteur
Vincent Léger
  • Fonction : Auteur
David Lecarpentier
  • Fonction : Auteur
EDF
David Mcginnes
  • Fonction : Auteur
Sven Tittelbach
  • Fonction : Auteur
Vanessa Vallet
  • Fonction : Auteur

Résumé

This paper summarized the efforts performed to understand decay heat estimation from existing spent nuclear fuel (SNF), under the auspices of the Working Party on Nuclear Criticality Safety (WPNCS) of the OECD Nuclear Energy Agency. Needs for precise estimations are related to safety, cost, and optimization of SNF handling, storage, and repository. The physical origins of decay heat (a more correct denomination would be decay power) are then introduced, to identify its main contributors (fission products and actinides) and time-dependent evolution. Due to limited absolute prediction capabilities, experimental information is crucial; measurement facilities and methods are then presented, highlighting both their relevance and our need for maintaining the unique current full-scale facility and developing new ones. The third part of this report is dedicated to the computational aspect of the decay heat estimation: calculation methods, codes, and validation. Different approaches and implementations currently exist for these three aspects, directly impacting our capabilities to predict decay heat and to inform decision-makers. Finally, recommendations from the expert community are proposed, potentially guiding future experimental and computational developments. One of the most important outcomes of this work is the consensus among participants on the need to reduce biases and uncertainties for the estimated SNF decay heat. If it is agreed that uncertainties (being one standard deviation) are on average small (less than a few percent), they still substantially impact various applications when one needs to consider up to three standard deviations, thus covering more than 95% of cases. The second main finding is the need of new decay heat measurements and validation for cases corresponding to more modern fuel characteristics: higher initial enrichment, higher average burnup, as well as shorter and longer cooling time. Similar needs exist for fuel types without public experimental data, such as MOX, VVER, or CANDU fuels. A third outcome is related to SNF assemblies for which no direct validation can be performed, representing the vast majority of cases (due to the large number of SNF assemblies currently stored, or too short or too long cooling periods of interest). A few solutions are possible, depending on the application. For the final repository, systematic measurements of quantities related to decay heat can be performed, such as neutron or gamma emission. This would provide indications of the SNF decay heat at the time of encapsulation. For other applications (short- or long-term cooling), the community would benefit from applying consistent and accepted recommendations on calculation methods, for both decay heat and uncertainties. This would improve the understanding of the results and make comparisons easier.
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hal-04737266 , version 1 (17-10-2024)

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Dimitri Rochman, Alejandro Algora, Francisco Àlvarez-Velarde, Aurelie Bardelay, Øystein Bremnes, et al.. An introduction to Spent Nuclear Fuel decay heat for Light Water Reactors: a review from the NEA WPNCS. EPJ N - Nuclear Sciences & Technologies, 2024, 10 (9), pp.1-83. ⟨10.1051/epjn/2024010⟩. ⟨hal-04737266⟩
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