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MATHEMATICAL MODEL OF THE INTERACTION BETWEEN CORIUM MELT, CONTAINING ZIRCONIUM AND URANIUM, AND SACRIFICIAL MATERIAL OF THE CORE CATCHER
Sulatskiy A.A.
A.P.Aleksandrov Scientific Research Tecnological Institute (NITI), Sosnovy Bor, Russia
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Citation:
Sulatskiy, A.A., (2013) Mathematical model of the interaction between corium melt, containing zirconium and uranium, and sacrificial material of the core catcher, Modern Science: Researches, Ideas, Results, Technologies, Iss. #1(12), PP. 55 - 61.
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Keywords:NPP; severe accident; molten corium; core catcher; sacrificial material; uranium; zirconium; interaction; liquid-phase burning; mathematical model |
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References:
Asmolov V.G., Bechta S.V., Berkovich V.M. et al. VVER-1000 Reactor Core Melt Catcher of Cold Crucible Type // Procideengs of Internatioanl Congress on Advances in Nuclear Power Plants (ICAPP 05), May 1519, 2005 - Seoul, Korea - Paper 5238. Khabensky V.B. et al. Severe Accident Management Concept of the VVER-1000 and the Justification of Corium Retention in a Crucible-type Core Catcher // Nuclear Engineering and Technology. - 2009. - V. 41. - N 5. - P. 561-574. Granovsky V.S, Sulatsky A.A., Khabensky V.B. et al. Modeling of Melt Retention in EU-APR1400 Ex-Vessel Core Catcher // Proceedings of International Congress on Advances in Nuclear Power Plants (ICAPP 12), June 24-28, 2012 - Chicago, USA - Paper 12348. Sulatskiy, A.A., (2012) Mathematical model of zirconium liquid-phase burning, Modern Science: Researches, Ideas, Results, Technologies, Iss. #2(10), PP. 3 - 9. Beshta S.V., Khabenskiy V.B., Granovskiy V.S. et al. Interaction between oxidic sacrificial material of core catcher and molten corium in severe accident of NPP with WWER // Proceedings of the 5-th Russian Conference on Heat Transfer, Russia, Moscow, October 25-29, 2010, V.1. Beshta S.V., Vitol S.A., Granovskiy V.S. et al. Formation of molten pool into crucible type core catcher for NPP with WWER // Thermal Engineering, 2011, 5, P.61-65.
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