J. P. Van-dorsselaere, The European Research on Severe Accidents in Generation, vol.2, issue.3

, Nuclear Power Plants, Science and Technology of Nuclear Installations, 2012.

, Association, NUGENIA Roadmap, 2013.

S. Leininger, Experimental investigation on reflooding of debris beds, Annals of Nuclear Energy, vol.74, pp.42-49, 2014.

M. Bürger, Coolability of particulate beds in severe accidents: Status and remaining uncertainties, Progress in Nuclear Energy, vol.52, issue.1, pp.61-75, 2010.

G. Repetto, Experimental program on debris reflooding (PEARL) -Results on PRELUDE facility, Nuclear Engineering and Design, vol.264, pp.176-186, 2013.

P. Kudinov, Agglomeration and size distribution of debris in DEFOR-A experiments with Bi2O3-WO3 corium simulant melt, Nuclear Engineering and Design, vol.263, pp.284-295, 2013.

V. Bouyer, N. Cassiaut-louis, P. Fouquart, and P. Piluso, PLINIUS Prototypic corium experimental platform : major results and future works, Proceedings of NURETH-15 Conference, 2015.

C. Journeau, Contributions of the VULCANO experimental programme to the understanding of MCCI phenomena, Nuclear Engineering and Technology, vol.44, pp.261-272, 2012.

J. Foit, MCCI of a Metal and Oxide Melt With Reinforced Siliceous Concrete in MOCKA Experiments, Proceedings of 22nd International Conference on Nuclear Engineering, vol.2, 2014.

T. Sevón, L. Ferry, and C. Journeau, MCCI with Hematite-containing Concrete: HECLA and VULCANO Experiments, Proceedings of OECD MCCI Seminar, Cadarache, pp.15-17, 2010.

J. J. Foit, Experiments on MCCI with oxide and steel, Annals of Nuclear Energy, vol.74, pp.100-109, 2014.

M. Cranga, Towards an European consensus on possible causes of MCCI ablation anisotropy in an oxidic pool, Annals of Nuclear Energy, vol.74, pp.72-88, 2014.

W. Klein-heßling, Conclusions on severe accident research priorities, Annals of Nuclear Energy, vol.74, pp.4-11, 2014.

, Main Results of the MASCA-1 and MASCA-2 Projects, vol.15, 2007.

M. Steinbrück, Synopsis and outcome of the QUENCH experimental program, Nuclear Engineering and Design, vol.240, issue.7, pp.1714-1727, 2010.

Z. Hózer, Behavior of VVER fuel rods tested under severe accident conditions in the CODEX facility, Nuclear Technology, vol.154, pp.203-317, 2006.

X. Gaus-liu, In-vessel melt pool coolibility test -Description and results of LIVE experiments, Nuclear Engineering and Design, vol.240, issue.11, pp.3898-3903, 2010.

D. Guenadou and E. Verloo, Presentation of the RESCUE Facilities for in Vessel Corium Retention Studies: Toolbox for Improving the Modelling, Proceeding of NENE 2012 conference, 2012.

L. Tarczal and G. Lajtha, CERES experiments calculation with the ASTEC code, Proceedings of the ERMSAR 2012 conference, 2012.

L. Meyer, Direct containment heating integral effects tests in geometries of European nuclear power plants, Nuclear Engineering and Design, vol.239, pp.2070-2084, 2009.

P. Piluso and S. W. Hong, OECD SERENA: A Fuel Coolant Interaction Program (FCI) devoted to reactor case, Proceedings of ISAMM 2009 conference, 2009.

A. Karbojian, A scoping study of debris bed formation in the DEFOR test facility, Nuclear Engineering and Design, vol.239, pp.1653-1659, 2009.

R. C. Hansson, Simultaneous high speed digital cinematographic and X-ray radiographic imaging of an intense multi-fluid interaction with rapid phase changes, Experimental Thermal and Fluid Science, vol.33, pp.754-756, 2009.

S. Bakardjieva, Improvement of the European thermodynamic database NUCLEA in the frame of EU-funded experiments, Proceedings of the 3rd European Review Meeting on Severe Accident Research (ERMSAR-2008), pp.23-25, 2008.

P. Piluso, Viscosity measurements of ceramic oxides by aerodynamic levitation, International Journal of Thermophysics, vol.23, issue.5, pp.1229-1240, 2002.

S. Bakardjieva, Quality improvements of thermodynamic data applied to corium interactions for severe accident modelling in SARNET2, Annals of Nuclear Energy, vol.74, pp.110-124, 2014.