N. Ahmad, Numerical simulation of macrosegregation: a comparison between finite volume method and finite element method predictions and a confrontation with experiments, Metallurgical and Materials Transactions A, vol.9, issue.2, pp.617-630, 1998.
DOI : 10.1007/978-3-642-87047-7

H. Alsmeyer, BETA experiments in verification of the Wechsl code: experimental results on the melt-concrete interaction, Nuclear Engineering and Design, vol.103, issue.1, pp.115-125, 1987.
DOI : 10.1016/0029-5493(87)90289-5

A. Bejan, 2000-1) -Shape and Structure, from Engineering to Nature

A. Bejan, 2000-2) -From Heat Transfer Principles to Shape and Structure in Nature: Constructal Theory, Journal of Heat Transfer, vol.22, pp.430-449

J. M. Bonnet, Thermal hydraulic phenomena in corium pools for ex-vessel situations: The BALI experiment -OECD Workshop on ex-vessel debris coolability, pp.15-18, 1999.

D. R. Bradley, Modelling of heat transfer between core debris and concrete, ANS Proceedings of the 1988 National Heat Transfer Conference, pp.37-49, 1988.

D. R. Bradley, CORCON-Mod3 : an integrated computer model for analysis of molten core-concrete interactions ? NUREG, p.5843, 1993.

H. Combeau, Récents progrès dans la compréhension et la prédiction des macro et mésoségrégations -Diplôme d'Habilitation à Diriger des Recherches, p.25, 2000.

E. R. Copus, Core-concrete interactions with overlying water pools, Proceedings of the Second OECD (NEA) CSNI Specialist Meeting on Molten Core Debris-Concrete Interactions, KfK 5108, NEA/CSNI/R(92)10, 1992.

M. Corradini, A transient model for the ablation and decomposition of concrete ? Nuclear Technology, pp.263-273, 1983.

. Cranga, Bilan des connaissances sur le comportement du corium hors-cuve et proposition d'une stratégie de R&D ? Note technique IPSN, pp.1-12, 2001.

M. Cranga, -The MEDICIS code, a versatile tool for MCCI modelling, Proceedings of ICAPP '05, 2005.

H. Davies, Application of MTDATA to the modelling of multicomponent equilibria ? High Temperature Science, pp.251-262, 1990.

W. D. Deckwer, On the mechanism of heat transfer in bubble column reactor - Chemical Engineering Science, pp.1341-1346, 1980.

F. Defoort and B. Et-tourniaire, Etude de la modélisation du calcul des températures liquidus et solidus dans le logiciel CORCON -Note technique CEA DEN, pp.5-82, 2005.

M. D. Dupouy and D. Camel, Effects of gravity on columnar dendritic growth of metallic alloys: flow pattern and mass transfer, Journal of Crystal Growth, vol.183, issue.3, pp.469-489, 1998.
DOI : 10.1016/S0022-0248(97)00415-6

M. T. Farmer, Status and future direction of the melt attack and coolability experiments (MACE) program at Argonne National Laboratory, Proceedings of the ICONE-9, 2001.

M. T. Farmer, 2001-b) -Modeling of ex-vessel corium coolability with the CORQUENCH code, Proceedings of the ICONE-9

M. T. Farmer, The results of the CCI-2 reactor material experiment investigating 2-D core-concrete interaction and debris coolability, Proceedings of the NURETH 11, 2005.

M. T. Farmer, The Results of the CCI-3 Reactor Material Experiment Investigating 2-D Core-Concrete Interaction and Debris Coolability with a Siliceous Concrete Crucible, Proceedings of the ICAPP'06, 2006.

E. Fischer, Thermodynamic optimization of the AgCl-KCl and BaCl2-LiCl systems, Journal of Phase Equilibria, vol.26, issue.2, pp.228-235, 2003.
DOI : 10.1016/S0364-5916(02)00033-0

J. J. Foit, ? The WECHSL-Mod3 Code: a computer program for the interaction of a core melt with concrete including the long term behavior; Model description and User's manual ? FZKA 5522, 1995.

A. Hellawell, Channel convection in partly solidified systems -Philosophical Transactions of The Royal Society of London A, pp.507-544, 1993.

J. Jain, Role of plume convection and remelting on the mushy layer structure during directional solidification, Journal of Physics D: Applied Physics, vol.40, issue.4, pp.1150-1160
DOI : 10.1088/0022-3727/40/4/037

J. Jain, 2007-2) -Numerical studies on channel formation and growth during solidification: Effect of process parameters -Journal of Heat Transfer -Transactions Of The ASME, pp.548-558

. Journeau, Current European Experiments on Molten Core Concrete Interaction: HECLA and VULCANO, Proceedings of the ICAPP'08, 2008.

M. Kaviany, Principles of heat transfer in porous media, 1999.

W. Konsetov, Heat transfer during bubbling of gas through liquid, International Journal of Heat and Mass Transfer, vol.9, issue.10, 1103.
DOI : 10.1016/0017-9310(66)90033-0

S. S. Kutateladze and I. G. Et-malenkov, Boiling and bubbling heat transfer under the conditions of free and forced convection -6 th Int, Heat Transfer Conf, 1978.

E. R. Lapwood, Convection of a fluid in a porous medium -Proceedings of The Cambridge Philosophical Society, pp.508-512, 1948.

S. Levy, Summary of coolability studies undertaken by ACE, MACE, ACEX - Référence non publique, 2002.

. Maruyama, A study on concrete degradation during molten core/concrete interactions, Nuclear Engineering and Design, vol.236, issue.19-21, pp.2237-2244, 2006.
DOI : 10.1016/j.nucengdes.2006.03.055

P. K. Mason and B. D. Et-turland, Assessment of ablation temperature and ablation enthalphy of concretes -ACEX report, 1996.

B. Michel and M. Et-cranga, Interpretation and calculations for the first series of tests for the ARTEMIS program (corium???concrete interaction with simulating materials), Nuclear Engineering and Design, vol.239, issue.3, pp.600-610, 2009.
DOI : 10.1016/j.nucengdes.2008.11.011

M. Nie, Advanced MCCI modelling based on stringent coupling of thermalhydraulics and real solution of thermochemistry in COSACO, Proceedings of the ICONE-10, 2002.

M. Peehs, The Behavior of Concrete in Contact with Molten Corium in the Case of a Hypothetical Core Melt Accident, Nuclear Technology, vol.46, issue.2, pp.192-198, 1979.
DOI : 10.13182/NT46-192

P. Roberts and D. Loper, Mush-chimney convection, Studies In Applied Mathematics, vol.18, pp.187-227, 2001.

M. F. Roche, Solidus and liquidus temperatures of concrete mixtures ? NUREG/CR-6032, 1993.

J. R. Sarazin and A. Hellawell, Channel formation in Pb-Sn, Pb-Sb, and Pb-Sn-Sb alloy ingots and comparison with the system NH4CI-H2O, Metallurgical Transactions A, vol.49, issue.7, pp.1861-1871, 1988.
DOI : 10.1007/BF02647095

T. P. Schulze and M. G. Et-worster, A numerical investigation of steady convection in mushy layers during the directional solidification of binary alloys, Journal of Fluid Mechanics, vol.356, pp.199-220, 1998.
DOI : 10.1017/S0022112097007878

J. M. Seiler, Phase segregation model and molten pool thermal-hydraulics during molten core concrete interaction -Nuclear Engineering and Design, pp.259-267, 1996.

J. M. Seiler and K. Et-froment, Material Effects on Multiphase Phenomena in Late Phases of Severe Accidents of Nuclear Reactor -Multiphase Science and Technology, pp.117-257, 2000.

. Spindler, Simulation of MCCI with the TOLBIAC-ICB code based on the phase segregation model -Nuclear Engineering and Design, pp.2264-2270, 2006.

F. Sudreau and G. Et-cognet, ? Corium viscosity modelling above liquidus temperature - Nuclear engineering and design, pp.269-277, 1997.

D. H. Thompson, Compilation, Analysis and Interpretation of ACE Phase C and MACE Experimental Data, Volume 1 ? MCCI Thermalhydraulics Results -ACEX, p.14, 1997.

B. Tourniaire, A heat transfer correlation based on a surface renewal model for molten core concrete interaction study -Nuclear engineering and design, pp.10-18, 2006.

G. Urbain, Viscosity estimation of slags -Steel Research, pp.111-116, 1987.

J. M. Veteau, ARTEMIS program: Investigation of MCCI by means of simulating material experiments, Proceedings of the ICAPP'06, 2006.

J. M. Veteau and B. Spindler, Molten Corium Concrete Interaction : Post-Calculations of 1D Artemis Tests With the TOLBIAC-ICB Code, Proceedings of the ICAPP'06, 2006.

M. G. Worster, Natural convection in a mushy layer, Journal of Fluid Mechanics, vol.216, issue.-1, pp.335-359, 1991.
DOI : 10.1017/S0022112086002938

M. G. Worster, Convection in mushy layers -Annual Review of Fluid Mechanics, pp.91-122, 1997.

W. Yang, Freckle criteria for the upward directional solidification of alloys - Metallurgical Transactions A, pp.397-406, 2001.