Geodesic
High temperature thermal hydraulics modeling of a molten salt: application to a molten salt fast reactor (MSFR)
Pablo R. Rubiolo12 ; Mauricio Tano Retamales1 ; Véronique Ghetta1 ; Julien Giraud1
1 LPSC, University of Grenoble-Alpes, CNRS/IN2P3, 53 rue des Martyrs, 38026 Grenoble, France
2
ESAIM. Proceedings, Tome 58 (2017), pp. 98-117 Cet article a éte moissonné depuis la source EDP Sciences

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An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt Fast Reactor (MSFR) is presented. The MSFR employs a flowing liquid fuel based on a high temperature lithium fluoride salt. A molten salt flow can be considered in many situations as an incompressible flow. However, several phenomena intrinsic to a molten salt flow pose unique challenges (radiative heat transfer, volumetric heat source, strong neutronics feedbacks, etc.). To study some of these phenomena and to improve current Computational Fluid Dynamics (CFD) models an experimental facility called SWATH (Salt at WAll: Thermal ExcHanges) will be built as part of the European project SAMOFAR (2015-2019).
DOI : 10.1051/proc/201758098

Pablo R. Rubiolo 1, 2 ; Mauricio Tano Retamales 1 ; Véronique Ghetta 1 ; Julien Giraud 1

1 LPSC, University of Grenoble-Alpes, CNRS/IN2P3, 53 rue des Martyrs, 38026 Grenoble, France
2 
@article{EP_2017_58_a6,
     author = {Pablo R. Rubiolo and Mauricio Tano Retamales and V\'eronique Ghetta and Julien Giraud},
     title = {High temperature thermal hydraulics modeling of a molten salt: application to a molten salt fast reactor {(MSFR)}},
     journal = {ESAIM. Proceedings},
     pages = {98--117},
     year = {2017},
     volume = {58},
     doi = {10.1051/proc/201758098},
     language = {en},
     url = {http://geodesic.mathdoc.fr/articles/10.1051/proc/201758098/}
}
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Pablo R. Rubiolo; Mauricio Tano Retamales; Véronique Ghetta; Julien Giraud. High temperature thermal hydraulics modeling of a molten salt: application to a molten salt fast reactor (MSFR). ESAIM. Proceedings, Tome 58 (2017), pp. 98-117. doi: 10.1051/proc/201758098

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