Browse > Article

A Coherent Methodology for the Evaluation of a Steam Explosion Load Using TEXAS-V  

Song, Jin-Ho (Korea Atomic Energy Research Institute)
Park, Ik-Kyu (Korea Atomic Energy Research Institute)
Kim, Jong-Hwan (Korea Atomic Energy Research Institute)
Publication Information
Nuclear Engineering and Technology / v.36, no.6, 2004 , pp. 571-581 More about this Journal
Abstract
A methodology is proposed for the evaluation of a steam explosion load on a reactor scale by evaluating the steam explosion model against the experimental data. Being part of the OECD/SERENA program,, appropriate data was selected by international experts and the analytical model of TEXAS-V was chosen. The procedure consists of two steps. the pre-mixing model was verified against the FARO L-14 and FARO L-28 data. The explosion model was verified against the experimental data of KROTOS-44, FARO L-33, TROI-13, and TROI-34. The capabilities and deficiencies of the fundamental models of the TEXAS-V are reviewed in terms of their adequacy in a simulation of steam explosion on a reactor scale.
Keywords
steam explosion; TEXAS-V; FARO; KROTOS; TROI;
Citations & Related Records
연도 인용수 순위
  • Reference
1 J. H. Kim et aI., Phenomenological Studies of Steam Explosions Triggered by an External Trigger in the TROI Experiment, Proceedings of Korean Nuclear Society Spring Meeting, May, (2004)
2 J. H. Song et aI., Fuel Coolant Interaction Experiments in TROI Using a $UO_2/ZrO_2$ Mixture, Nuclear Engineering and Design, Vol.222, 1-15, (2003)   DOI   ScienceOn
3 D. Magallon, Summary conclusions and actions from 3rd SERENA meeting, Aix-en-Provence, May 15-18, France, (2004)
4 Annunziato, A., Addabbo, A., Leva, G., OECD/CSNI international standard problem No. 39 on FARO test L-14, Technical Note No. 1.96.64, Joint Research Center, (1996)
5 Nelson, L. S. and Duda, P. M. Steam explosion experiments with single drops of iron oxide melted with a C02 laser: Part II. Parametric studies. SAND82-1105, SNL, (1985)
6 Kim, H. Single droplet vapor explosion experiments, Ph. D. Thesis, University of Wisconsin, (1987)
7 J. Tang, Modeling of the complete process of one-dimensional vapor explosions, Ph. D. Thesis, University of Wisconsin, (1993)
8 B. Kim, M. Corradini, Modeling of small-scale single droplet fuel/coolant interactions, Nuc. Sci. Eng, 98, 16-28, (1988)   DOI
9 J. H. Song, I. K. Park, S. Nilsuwankosit, Evaluation of the TEXAS-V break up models against experimental data, 11th conference on nuclear engineering, Tokyo, Japan, ICONE11-36155, (2003)
10 I. K. Park, D. H. Kim, and J. H. Song, Steam explosion module development for the MELCOR code using TEXAS-V, Journal of Korean Nuclear Society, Vol. 35, Number 4, pp.286-298, (2003)
11 Carbiener, W. A. et aI., Appendix VIII in Reactor Safety Study, WASH-1400 (NUREG75/014), (1975)
12 Magallon et. ai, Proposal for a OECD research programme on fuel-coolant interaction-Steam Explosion Resolution for Nuclear Applications (SERENA), (2001)