2013 1(12)

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   Short abstract

 

Pages:

55 - 61

Language:

RU

Ref.:

6


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2013_1(12)_10.pdf

 

 

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


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.


Keywords:

NPP; severe accident; molten corium; core catcher; sacrificial material; uranium; zirconium; interaction; liquid-phase burning; mathematical model


Abstracts:

The purpose


References:

  1. 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.

  2. 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.

  3. 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.

  4. Sulatskiy, A.A., (2012) Mathematical model of zirconium liquid-phase burning, Modern Science: Researches, Ideas, Results, Technologies, Iss. #2(10), PP. 3 - 9.

  5. 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.

  6. 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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