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\page references References

Here follows a list of useful references :

 \subsection relap5 Relap5 [1]
- 1- A. S. Shieh, V. H. Ransom, R. Krishnamurthy, Validation of numerical techniques in RELAP5/MOD3, RELAP5/MOD3 code manual volume 6, October 1994
 \subsection CobraTF Cobra-TF [2]
- 2- http://www.casl.gov/COBRA-TF.shtml
 \subsection ANSYS-CFX CFX [3]
- 3- http://www.ansys.com/Products/Simulation+Technology/Fluid+Dynamics/Fluid+Dynamics+Products/ANSYS+CFX
 \subsection cupid CUPID [4]
- 4- J. J. jeong, H. Y. Yoon, I. K. Park, H. K. Cho, J. Kim, A semi-implicit numerical scheme for transient two-phase flows, Nuclear Engineering and Design 236 (2008) 3403-3412
\subsection flica4 Flica4 [5]
- 5- I. Toumi, A. Bergeron, D. Gallo, E. Royer, D. Caruge, '' \a FLICA-4: \a a \a three-dimensional \a two-phase \a flow \a computer \a code \a with \a advanced \a numerical \a methods \a for \a nuclear \a applications, '' Nuclear Engineering and Design, Volume 200, Issues 1-2, August 2000, Pages 139-155.
\subsection cathare Cathare [6]
- 6- D. Bestion, '' \a The \a Physical \a Closure \a Laws \a in \a The \a CATHARE \a Code, \a Nuclear \a Engineering \a and \a Design, '' vol. 124, pp. 229-245, 1990.
\subsection neptuneCFD Neptune_CFD [7]
- 7- N. Méchitoua, M. Boucker, J. Laviéville, J.-M. Hérard, S. Pigny, and G. Serre. An Unstructured Finite Volume Solver for Two-Phase Water/Vapour Flows Modelling Based on an Elliptic Oriented Fractional Step Method. In NURETH 10, International Meeting on Nuclear Reactor Thermal-Hydraulics, Seoul, South Korea, 2003.
\subsection nist NIST [8]
- 8- Propriétés thermophysiques des systèmes fluides, http://webbook.nist.gov/chemistry/fluid/
\subsection ishii ISHII [9]
- 9- M. Ishii, ''\a  Thermo-Fluid \a  Dynamic \a Theory \a of \a Two-Phase \a Flow,'' Eyrolles, Paris, 1975.
\subsection Drew Drew [10]
- 10- D.A. Drew and S.L. Passman, '' \a Theory \a of \a Multicomponent \a Fluids,'' Springer-Verlag, New York, 1999.
\subsection roe Roe [11]
- 11- Ph. Roe, Approximate Riemann solvers, parameter vectors, and difference schemes, J. Comput. Phys., 43, 357, 1981
\subsection wbsourceterms Velasquez [12] 
- 12- ''\a Upwind \a methods \af or \a hyperbolic \a conservation \a laws \a with \a source \a terms'', A. Bermudez, E. Vazquez, Comp. Fluids, vol 23, issue 8, pp. 1049-1071,1994
\subsection kieu NGUYENFVCA6 [13]
- 13- M. Ndjinga, T.-P.-K. Nguyen, C. Chalons, Numerical simulation of an incompressible two-fluid model, Springer Proc. Math. \& Stat., Vol. 78, Finite Volumes for Complex Applications FVCA7, 2014
\subsection DaoFVCA6 DAOFVCA6 [14]
- 14- T.-H. Dao, M. Ndjinga, F. Magoules, Comparaison of Upwind and Centered Schemes for Low Mach Number Flows, Finite Volumes for Complex Applications VI - Problems \& Perspectives, Springer Proceedings in Mathematics 4, 2011
\subsection leveque LEVEQUE[15]
- 15- R. J. LeVeque, Finite Volume Methods for Hyperbolic Problems, Cambridge University Press, 2002
\subsection salome Salome [16]
- 16- Salome - The open source integration platform for numerical simulation: http://www.salome-platform.org
\subsection paraview Paraview [17]
- 17- Paraview - Parallel open-source data analysis and visualization application: http://www.paraview.org
\subsection vtk VTK [18]
- 18- VTK - Opensource Visualization Toolkit : http://www.vtk.org
\subsection petsc Petsc [19]
- 19- Petsc 3.4.5 - Parallel storage and manipulation of large sparse matrices : http://http://www.mcs.anl.gov/petsc/
\subsection cdmath CDMATH [20]
- 20- Project CDMATH ''\a Ce \a sont \a Des \a Mathématiques \a Appliquées \a à \a la \a Thermohydraulique'': http://cdmath.jimdo.com/
\subsection toolbox Toolbox [21]
- 21- Toolbox of the project CDMATH : https://github.com/PROJECT-CDMATH/CDMATH
\subsection swig SWIG [22]
- 22- SWIG - Simplified Wrapper and Interface Generator : http://www.swig.org
\subsection hdf5 HDF5 [23]
- 23- HDF5 - Data model and file format of large volume : http://www.hdfgroup.org/HDF5
\subsection doxygen DOXYGEN [24]
- 24- DOXYGEN - Generate documentation from source code : http://www.doxygen.org
\subsection cmake CMAKE [25]
- 25- CMAKE - Open-source build test and package software : http://www.cmake.org
\subsection med MED [26]
- 26- MED - Modèle d'échange de données http://www.code-aster.org/outils/med/html/introduction.html
\subsection numpy NUMPY [27]
- 27- NUMPY - Package for scientific computing with Python http://www.numpy.org/
\subsection flocal FLOCAL [28]
- 28- U. Grundmann, U. Rohde, S. Mittag, S. Kliem, ``DYN3D Version 3.2- Code for calculation of transients in light water reactors (LWR) with hexagonal or quadratic fuel elements'', technical report, Forschungszentrum Rossendorf, Germany, 2005
\subsection thuhuyen ThuHuyenPhDThesis [29]
- 29 Dao Thu Huyen, "Simulation numérique d’écoulements diphasiques par décomposition de domaine", PhD thesis Ecole Centrale des Arts et Manufactures, 2013
\subsection tassadit TASSADITInternship [30]
- 30 Tassadit Sid Abdelkader, "Environnement de simulation pour les écoulements bouillants dans des canaux
parallèles chauffés différentiellement", master thesis CEA Saclay - Ecole d'Ingénieurs Sup' Galilée, 2015
\subsection kieu NGUYENPhDThesis [31]
- 31 Thi Phuong Kieu Nguyen, "On the mathematical analysis and the numerical simulation of boiling
flow models in nuclear power plants thermal hydraulics", PhD thesis Université de Versailles-Saint-Quentin-En-Yvelines, 2016
\subsection vfroe VFRoe [32]
- [32] J. M. Masella, I. Faille and T. Gallouët,
"On an Approximate Godunov Scheme", Intl. J. Computational
Fluid Dynamics, 1999, Vol. 12, pp. 133-149. 
\subsection vffc VFFC [33]
- [33] J.M. Ghidaglia, A. Kumbaro, G. Le Coq, Une méthode volumes finis à flux caractéristiques pour la résolution numérique des systèmes hyperboliques de lois de conservation, Comptes Rendus de l'Acad. Sciences Paris, S\'erie 1, vol 322, pp. 981 988, 1996.


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