Numerical study of in-vessel retention under the gallium–water external reactor vessel cooling system using MARS-LMR
In: Journal of Nuclear Science and Technology, Jg. 53 (2015-08-05), S. 345-352
Online
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Zugriff:
To confirm the feasibility of the gallium–water IVR-ERVCS (in-vessel retention-external reactor vessel cooling system), this paper focuses on the numerical simulation of severe accidents in APR 1400 using MARS-LMR (multidimensional analysis of reactor safety-liquid metal reactor). To analyze the gallium-cooled systems, the properties of liquid gallium were added to the MARS-LMR code used in our previous work. In this system, the generated decay heat is transferred to liquid gallium through the reactor pressure vessel and then removed from the water pool as a heat sink. The numerical analyses results show that the temperature range of the liquid gallium is much lower than its boiling point and confirm the natural convection. Sensitivity studies were also performed by changing several parameters such as the initial temperature of gallium and water pool inventory and their results indicated that the working time of the gallium–water IVR-ERVCS depends on the inventory of the water pool. Because liquid gallium...
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Numerical study of in-vessel retention under the gallium–water external reactor vessel cooling system using MARS-LMR
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Autor/in / Beteiligte Person: | In Guk Kim ; Kang, Sarah ; In Cheol Bang ; Seong Dae Park |
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Zeitschrift: | Journal of Nuclear Science and Technology, Jg. 53 (2015-08-05), S. 345-352 |
Veröffentlichung: | Informa UK Limited, 2015 |
Medientyp: | unknown |
ISSN: | 1881-1248 (print) ; 0022-3131 (print) |
DOI: | 10.1080/00223131.2015.1045951 |
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