Acknowledgement
Supported by : Korea Radiation Safety Foundation (KORSAFe)
References
- J. Colombani, C. Pascal, N. Monchalin, L. Martinet, C. Gomez, Experimental study of organic iodide volatilization from painted surfaces present in the containment during a severe accident, in: 6th European Review Meeting on Severe Accident Research (ERMSAR-2013), Avignon, France, October 2-4, 2013.
- N. Girault, F. Payot, Insights into iodine behaviour and speciation in the Phebus primary circuit, Ann. Nucl. Energy 61 (2013) 143-156. https://doi.org/10.1016/j.anucene.2013.03.038
- D. Jacquemain, N. Hanniet, C. Poletiko, S. Dickinson, C. Wren, D. Powers, E. Krausmann, F. Funke, R. Cripps, B. Herrero, An overview of the iodine behaviour in the two first PHEBUS tests FPT-0 and FPT-1, in: OECD Workshop on Iodine Aspects of Severe Accident Management, Vantaa, Finland, May 18-20, 1999.
- B. Simondi-Teisseire, N. Girault, F. Payot, B. Clement, Iodine behaviour in the containment in Phebus FP tests, Ann. Nucl. Energy 61 (2013) 157-169. https://doi.org/10.1016/j.anucene.2013.02.039
- Severine Guilbert, Loic Bosland, Sylvie Fillet, Didier Jacquemain, Bernard Clement, Francois Andreo, Gerard Ducros, Shirley Dickinson, Luis Herranz, Joanne Ball, Formation of organic iodide in the containment in case of a severe accident, Trans. Am. Nucl. Soc. Annual Meeting. 98 (2008) 291-292.
- L. Bosland, S. Dickinson, G.A. Glowa, L.E. Herranz, H.C. Kim, D.A. Powers, M. Salay, S. Tietze, Iodine-paint interactions during nuclear reactor severe accidents, Ann. Nucl. Energy 74 (2014) 184-199.
- L. Bosland, F. Funke, N. Girault, G. Langrock, PARIS project: Radiolytic oxidation of molecular iodine in containment during a nuclear reactor severe accident. Part 1. Formation and destruction of air radiolysis products - experimental results and modeling, Nucl. Eng. Design 238 (2008) 3542-3550. https://doi.org/10.1016/j.nucengdes.2008.06.023
- L. Bosland, F. Funke, N. Girault, G. Langrock, PARIS project: Radiolytic oxidation of molecular iodine in containment during a nuclear reactor severe accident. Part 2. Formation and destruction of iodine oxides compounds under irradiation - experimental results and modelling, Nucl. Eng. Design 238 (2011) 4026-4044.
- B. Clement, et al., State of the Art Report on Iodine Chemistry, NEA/CSNI/R(2007)1, 2007.
- B. Clement, R. Zeyen, The Phebus Fission Product and Source Term International Programmes, In: Proc. Int. Cont. on Nuclear Energy for New Europe 2005, Bled, Slovenia, September 5-8, 2005.
- OECD, OECD/NEA Behaviour of Iodine Project Final Summary Report, NEA/CSNI/R (2011) 11, 2012.
- B. Clement, B. Simondi-Teisseire, An IRSN proposal for a new OECD Project on Source Term Evaluation and Mitigation (STEM), SERCI 2010-077- DR, 2010.
- J.Y. Oh, J.I. Yun, D.S. Kim, H.C. Kim, Development of Assessment Methodology of Chemical Behavior of Volatile Iodide under Severe Accident Conditions Using EPICUR Experiments, Transactions of the Korea Nuclear Society Spring Meeting, Taebaek, Korea, May 26-27, 2011.
- H.C. Kim, Y.H. Cho, M.H. Ryu, Study of Iodine Behavior in the Gas Phase during a Severe Accident, Transactions of the Korean Nuclear Society Spring Meeting, Jeju, Korea, May 29-30, 2014.
- J.C. Wren, G.A. Glowa, J.M. Ball, A Simplified Model for Containment Iodine Chemistry and Transport: Model Description and Validation Using Stainless Steel RTF Test Results, NEA/CSNI/R(99)7, OECD Workshop on Iodine Aspects of Severe Accident Management, Vantaa, Finland, May 18-20, 1999.
- J.C. Wren, G.A. Glowa, J.M. Ball, IMOD, a containment iodine behaviour model: model description and simulation of RTF tests, in: Proceedings of Korean Nuclear Society Autumn Meeting, Taejon, October 2000.
- L. Bosland, L. Cantrel, N. Gireault, B. Clement, Modeling of iodine radiochemistry in the ASTEC severe accident code: description and application to FPT-2 PHEBUS test, Nucl. Technol. 171 (2010) 88-107. https://doi.org/10.13182/NT10-A10774
- F. Funke, Data Analysis and Modelling of Organic Iodide Production at Painted Surfaces, NEA/CSNI/R(99)7, OECD Workshop on Iodine Aspects of Severe Accident Management, Vantaa, Finland, May 18-20, 1999.
- R.O. Gauntt, et al., MELCOR Computer Code Manuals, NUREG/CR-6119, Vol. 1 and Vol. 2, Rev. 2, SAND2000-2417, 2000.
- H.C. Kim, S.B. Kim, J.H. Park, S.W. Cho, Analysis of Phebus FP experiments in Korea, Ann. Nucl. Energy 61 (2013) 215-224. https://doi.org/10.1016/j.anucene.2013.04.018
- J.C. Wren, J.M. Ball, G.A. Glowa, The chemistry of iodine in containment, Nucl. Technol. 129 (2000) 297-325. https://doi.org/10.13182/NT129-297
- J.C. Wren, J.M. Ball, LIRIC 3.2 an updated model for iodine behavior in the presence of organic impurities, Rad. Phys. Chem. 60 (2001) 577-596. https://doi.org/10.1016/S0969-806X(00)00385-6
- S. Dickinson, H.E. Sims, Development of the INSPECT model for the prediction of iodine volatility from irradiated solutions, Nucl. Technol. 129 (2000) 374. https://doi.org/10.13182/NT00-A3068
- L. Bosland, L. Cantrel, Iodine behavior in the circuit and containment: Modeling improvements in the last decade and remaining uncertainties, Proceedings of the International OECD-NEA/NUGENIA-SARNET Workshop on the Progress in Iodine Behaviour for NPP Accident Analysis and Management, Marseille, France, March 30, April 1, 2015.
- F. Funke, G. Langrock, T. Kanzleiter, G. Poss, K. Fischer, A. Kuhnel, G. Weber, H.-J. Allelein, Iodine oxides in largescale THAI tests, Nucl. Eng. Design 245 (2012) 206-222. https://doi.org/10.1016/j.nucengdes.2012.01.005
- G.A. Glowa, C.J. Moore, J.M. Ball, The main outcomes of the OECD Behaviour of Iodine (BIP) Project, Ann. Nucl. Energy 61 (2013) 179-189. https://doi.org/10.1016/j.anucene.2013.02.036
-
S. Guilbert, S1-9 EPICUR Test Report, DPAM-SEREA-2007-352 indice 1, ISTP
$n^{\circ}60$ , June, 2008. -
S. Guilbert, S1-11 EPICUR Test Report, DPAM-SEREA-2007-244 indice 1, ISTP
$n^{\circ}53$ , June, 2008. -
J. Colombani, C. Gomez, L. Martinet, C. Pascal, C. Bertorello, S2-6-5-2 EPICUR Test Report, SERCI-2009-160-DR, ISTP
$n^{\circ}97$ , May 2009. -
J. Colombani, C. Gomez, L. Martinet, C. Pascal, B. Ferretti, S2-6-14 EPICUR Test Report, SERCI-2010-385-DR, ISTP
$n^{\circ}130$ , December 2010. - G.A. Glowa, C.J. Moore, Containment Iodine Behaviour: The Behaviour of Iodine Project, PHWR Safety 2014/CANSAS-2014 Workshop, June 23-25, 2014.
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