Publications

EDITEUR

1. A. Miranville, M. Saad, R. Talhouk : Editeurs de Discrete and Continuous Dynamical Systems Series S, Volume 7, Number 2, April 2014. Preface Workshop in fluid mechanics and population dynamics. di:10.3934/dcdss.2014.7i.

2. Editorial board of:Numerical Simulation of Radiative Transfer.Mathematical Problems in Engineering, Volume 2015, 104 pages. http://dx.doi.org/10.1155/2015.
   
   

   ARTICLES
   

   
   
3. F. Bader, M. Bendahmane, M. Saad, R. Talhouk, Three-scale unfolding homogenization method applied to the cardiac bidomain model, Acta Applicandae Mathematicae 176, 14,  Pages 1--37, (2021). https://doi.org/10.1007/s10440-021-00459-6 (PDF ArXiv https://arxiv.org/abs/2201.03914)
4. F. Bader, M. Bendahmane, M. Saad, R. Talhouk,  Derivation of a new macroscopic bidomain model including three scales for the electrical activity of cardiac tissue, 
   Journal of Engineering  Mathematics 131, 3,  Pages 1--20, (2021).  https://doi.org/10.1007/s10665-021-10174-8 (PDF ArXiv https://arxiv.org/abs/2201.03412)
   
5. Y. Zou, M. Saad, F. Grondin, Numerical investigation for the effect of deformation and dynamic pressure on the fast drainage of porous materials.   European Journal of Environmental and Civil Engineering, Pages 1--21, 2021.  https://doi.org/10.1080/19648189.2021.1951360
6. Mohammed Almijalli, Moustafa Ibrahim, Ali Samir Saad, Mazen Saad,  Chemotaxis Model for Drug Delivery using Turing’s Instability and Non-Linear Diffusion,
   Appl. Sci. 2021,11, 4979. pages 1--10,  https://doi.org/10.3390/app11114979 (PDF version)
7. Y. Zou, M.  Saad, F.  Grondin,  Contribution of the capillary pressure second-order term on fast drying of concrete. Construction and Building Materials -- Volume 296, 16 August 2021, 123422.
   https://doi.org/10.1016/j.conbuildmat.2021.123422
8.  M. Bendahmane, F.  Mroué, M. Saad, A Positive Cell Vertex Godunov Scheme For a Beeler-Reuter Based Model of Cardiac Electrical Activity, Numerical Methods for Partial Differential Equations  8, Volume 37, Issue1, January 2021, Pages 262-301. (HAL version)
   
9. M. Ibrahim, E.H. Quenjel, M. Saad, Positive nonlinear DDFV scheme for a degenerate parabolic system describing chemotaxis,
    Computers and Mathematics with Applications 80 (2020) 2972–3003 https://doi.org/10.1016/j.camwa.2020.10.018
10. E.H. Quenjel, M. Saad, M. Ghilani, M. Bessemoulin-Chatard, Convergence of a positive nonlinear DDFV scheme for degenerate parabolic equations, Calcolo 57, 19 (2020). doi:10.1007{/}s10092-020-00367-5 (HAL version)
11. Ben Mansour Dia, Bilal Saad, Mazen Saad,  Modeling and simulation of partially miscible two-phase flow with kinetics mass transfer,    Mathematics and Computers in Simulation, Volume 186, August 2021, Pages 29-40 (HAL version)
    
12. Chamoun, M. Ibrahim, M. Saad, R. Talhouk,   Asymptotic behavior of solutions of a nonlinear degenerate chemotaxis model. Discrete and Continuous  Dynamical Systems, Series B,  2020, 25(11): 4165-4188 10.3934/dcdsb.2020092
13. E.H. Quenjel, M. Saad, M. Ghilani,  Positivity-preserving  finite volume scheme for compressible two-phase flows in anisotropic porous media : the densities are depending on the physical pressures,  Journal Of Computational Physics, vol 407, 15 April 2020 (PDF HAL)
    
14. Bendahmane, F. Mroue, M. Saad, T. Talhouk,  Unfolding homogenization method applied to physiological and phenomenological bidomain models in electrocardiology, Nonlinear Analysis: Real World Applications, Volume 50, December 2019, Pages 413-447. https://hal.archives-ouvertes.fr/hal-02142028v2
    
15. H. Nasser El Dine, M. Saad, R. Talhouk, Existence results for a monophasic compressible Darcy-Brinkman's flow in porous media, ,Journal of Elliptic and Parabolic Equations, June 2019, Volume 5, Issue 1, pp 125–147. (HAL version)
    
16. M. Ghilani, EH Quenjel, M. Saad, Positive control volume finite element scheme for a degenerate compressible two phase flow in anisotropic porous media,  Computational Geosciences,  Computational Geosciences, February 2019, Volume 23, Issue 1, pp 55–79. (PDF HAL)
    
17. M. Bendahmane, F. Mroue, M. Saad and R. Talhouk, Mathematical analysis of Cardiac electromechanics with physiological ionic model, Discrete and Continuous Dynamical Systems Series B, 2019, 24(9): 4863-4897. (HAL version)
    
18.   F. Foucher, M. Ibrahim, M. Saad,  Convergence of a positive nonlinear Control Volume Finite Element scheme for solving an anisotropic degenerate breast cancer development model.  Computers & Mathematics with Applications, Volume 76, Issue 3, 1 August 2018, Pages 551-578. 
    
19. K. Bouadjila, A. Mokrane, A.S. Saad, M. Saad, Numerical analysis of a finite volume scheme for two incompressible  phase flow with dynamic capillary pressure, Computers & Mathematics with Applications, volume 75, Issue 10, 15 May 2018, Pages 3614-3631.
20. G. Chamoun,  M. Saad, R. Talhouk, Numerical Analysis of a chemotaxis--swimming bacteria model on a general triangular mesh, Applied Numerical Mathematics,Volume 127, May 2018, Pages 324-348.
21. H. Nasser El Dine, M. Saad, Analysis of a  finite volume-finite element method for  Darcy-Brinkman  two-phase flows in porous media, Journal of Computational and Applied Mathematics,  Volume 337, 1 August 2018, Pages 51--72. 
22. C. Cancès, M. Ibrahim, M. Saad, Positive nonlinear CVFE scheme for degenerate anisotropic  Keller-Segel system, SMAI J. of Computational Mathematics, 2017, 3, pp. 1-28. https://hal.archives-ouvertes.fr/hal-01119210.
23.  M. Ibrahim, M. Saad, Weighted weak formulation for a nonlinear degenerate equation arising in chemotaxis or porous media. Journal of Mathematical Analysis and Applications 446(1) (2017) 945--969. https://hal.archives-ouvertes.fr/hal-01121897
24. M. Bessemoulin-Chatard, M. Saad, Preserving  monotony of  combined edge finite volume--finite element scheme for a bone healing model on general mesh. Journal of Computational and Applied Mathematics, Volume 309, 1 January 2017, Pages 287--311
25. A.S. Saad, B. Saad, M. Saad, Numerical study of compositional compressible degenerate two-phase flow in saturated-unsaturated heterogeneous porous media. Computers & Mathematics with Applications, Volume 71, Issue 2, January 2016, Pages 565--584. 
26.  B. Saad, M. Saad, A combined finite volume--nonconforming finite element scheme for compressible two phase flow in porous media.  Numer. Math. (2014) 129:691-722. version pdf
27. M. Ibrahim, M. Saad, An efficient mixed finite volume-finite element methods for the capture of patterns for a volume-filling chemotaxis model, Computers and Mathematics With Applications, 68,  (2014), pp. 1032-1051. version pdf
28. G. Chamoun, M. Saad, R. Talhouk, Monotone combined edge finite volume-finite element scheme for anisotropic Keller-Segel model, Numerical Methods for Partial Differential Equations,  Vol. 30, no 3, pp. 1030--1065, 2014. version pdf
29. G. Chamoun, M. Saad, R. Talhouk, Mathematical and numerical  analysis of a modified Keller-Segel model with general diffusive tensors, International Journal on Mathematical Methods ans Models in Biosciences,  Biomath Vol 2, No 2  (2013), pp. 1-6. version pdf
30. M. Saad, Slightly compressible and immiscible two-phase flow in porous media. Nonlinear Analysis, Real World Applications,  Volume 15, January 2014,  pages 12--26. version pdf
    
31.  G. Chamoun, M. Saad, R. Talhouk, A coupled anisotropic chemotaxis-fluid model: The case of two-sidedly degenerate diffusion.
    Computers and Mathematics With Applications,  68, (2014), pp. 1052-1070. version pdf
    
32. F. Caro, B. Saad, M. Saad,
    Study of degenerate parabolic system modeling the hydrogen displacement in a nuclear waste repository
    Discrete and Continuous Dynamical Systems Series S, Volume 7, Number  2, April 2014,   pp.  191--205. version pdf
33. M. Bendahmane, Z. Khalil, M. Saad, Convergence of a finite volume scheme for gas-water flow  in a multi-dimensional porous medium. Math. Models Methods Appl. Sci. , Vol. 24, No. 01, pp. 145-185 (2014).
34. B. Saad, M. Saad, Numerical analysis of a non equilibrium two-component two-compressible flow in porous media
    Discrete and Continuous Dynamical Systems Series S (DCDS-S),  Volume  7, Number  2, April 2014,  pp. 317--346.
35. B. Saad, M. Saad,  Study of  full implicit petroleum engineering finite volume scheme for compressible two phase flow in porous media. SIAM J. Numerical  Analysis, 51(1), pp. 716-741, 2013. 
36. M. Bendahmane, K.H. Karlsen, M. Saad, Nonlinear anisotropic elliptic and parabolic equations with variable exponents and L1 data. Communications on Pure and Applied Analysis, Volume 12, Numer 3, May 2013, Pages 1201–1220. 
37. Y. Coudière, M. Saad, A. Uzureau,  Analysis of a finite method for a bone growth system in vivo. Computers and Mathematics with Applications, Volume 66, Issue 9, November 2013, Pages 1581-1594. 
38. Y. Coudière, M. Saad, A. Uzureau,  Upstream  finite Volume scheme for a bone healing model. International Journal on Mathematical Methods and Models in Biosciences.  Biomath 1 (2012), 1209254, 1-5. Version pdf
39. F. Caro, B. Saad, M. Saad, Two-Component Two-Compressible Flow in Porous Media. Acta Applicandae Matehematicae,  February 2012, Volume 117, Issue 1, pp. 15--46.
40.  B. Andreianov, M. Bendahmane, M. Saad, Finite volume method for degenerate chemotaxis model. J. of Computational and Applied Mathematics, Vol. 235, Issue 14, pp. 4015-4031, 2011.
41. Khalil, M. Saad,  Degenerate two-phase compressible immiscible flow in porous media : The case where the density of each phase depends on its own pressure. Mathematics and computers in simulation, ,Vol. 81, issue 10, June 2011, pp. 2225-2233.
42. Z. Khalil, M. Saad, On a fully nonlinear degenerate parabolic system modelling immiscible gas-water  displacement in porous media. Nonlinear Analysis: Real World Applications , Vol. 12, issue 3, 2011, 1591-1615.
    
43. M. Bendahmane,  M. Saad,
    Mathematical analysis and pattern formation for a partial immune system modeling the spread of an epidemic disease.
    Acta Applicandae Mathematica (2011), Volume 115, pp. 17--42.
44. Z. Khalil, M. Saad, Solutions to a model for compressible immiscible two phase flow in porous media, EJDE, Vol. 2010(2010), No. 122, pp. 1-33.
    
45. F. Marpeau, M. Saad, 3D  simulation of the ground pollution by radionucleide. Int. J. Numer. Meth. Fluids (2009) Published online in Wiley interscience (www.interscience.wiley.com), Volume 64, Issue 1, 10 September 2010, Pages: 44–70.
46. C. Galusinski, M. Saad, Weak solutions for immiscible compressible multifluid flows in porous media, Partial Differential Equations, C. R. Acad. Sci. Paris, Ser. I 347 (2009) 249-254.
47. C. Galusinski, M. Saad, A nonlinear degenerate system modeling water-gas in reservoir flow. Discrete and continuous dynamical systems series B, Vol. 9, Num. 2, pp. 281--308, March 2008.
48. C. Galusinski, M. Saad,  Two compressible and immiscible fluids in porous media. J. Differential Equations 244 (2008)1741-1783.
49. F. Marpeau, M. Saad, Mathematical analysis of radionuclides displacemnt  in porous media with nonlinear adsorption.  J. Differential Equations 228, 412-439 (2006).
    
50. Ch.-H. Bruneau, M. Saad, The behaviour of high Reynolds flows in a driven cavity. Computational Fluids Dynamics Journal Vol 15, no 3 (2006).
51. Ch.-H. Bruneau, M. Saad,  The 2D lid-driven cavity problem revisited,  Computers & Fluids, 35 (2006), 326-348. pdf version
52. C. Galusinski, M. Saad, Water gas flow in porous media. Discrete and Continuous Dynamical Systems sup. Vol. , 307--316 (2005).
53. M. Bendahmane, M. Saad,  Entropy solution for anisotropic reaction-diffusion-advection systems with L1 data. Revista Matematica Complutense,  2005, 18, Num. 1, 49-67.
54. Ch.-H.Bruneau, F. Marpeau,  M. Saad,  Numerical simulation of the miscible diplacement of radionuclides in an heterogeneous porous medium. Int. J. Numer. Meth. Fluids, 49, 1053-1085, 2005.
55. C. Galusinski, M. Saad, On a degenerate parabolic system for compressible, immiscible, two-phase flows in porous media.  Advances in Differential Equations, Volume 9, number 11-12, pages  1235--1278 (2004). pdf version
56. M. Bendahmane, M. Langlais, M. Saad, On some anisotropic reaction-diffusion systems  systems with L^1-data modeling the propagation of an epidemic disease, Nonlinear Analysis, 54 (2003) 617-636.  pdf version
57. M. Bendahmane, M. Saad, A predator-prey system with L1-data,  J. Math. Anal. Appl. 277, 272-292, 2003. pdf version
58. M. Bendahmane, M. Langlais, M.Saad, Existence of solutions for reaction-diffusion systems with L^1-data.  Advances in Differential Equations, Vol. 7, no 6, 743-768, 2002. pdf version
59. Ch.-H. Bruneau, M. Saad, From steady to chaotic solutions in a differentiall heated cavity of aspect ratio 8.  Int. J. Numer. Meth. Fluids, 3540:1093-1107, 2002.
60. T. Goudon, M. Saad, Parabolic equations involving Oth and 1st  order terms with L^1 data.  Revista Matematica Iberoamerican, Vol. 17, no 3, pp. 433-469, 2001.
61. M. Saad, A unilateral problem for elliptic equations with quadratic growth and  L^1-data. Nonlinear Analysis TMA, Vol. 44, no 2, 217-238, 2001. pdf version
    
62. T. Goudon, M. Saad,  On a Fokker-Planck equation arising in population dynamics. Revista Matematica Vol.11, n2 p. 353-372, 1998.
63. M. Saad, H. Zhang.  Front tracking for two-phase in reservoir simulation by adaptive mesh. Numerical Methods for Partial differential equations.  13: 673-697, 1997. pdf version
64.  M. Saad, An accurate numerical algorithm for solving three-phase flow in porous media. Applicable Analysis, Vol. 66, pp. 57-88, 1997. P.
    
65. Fabrie, M. Saad,  Existence de solutions faibles pour un modèle d'écoulement triphasique en milieu poreux.  Ann. Fac. Sci. Toulouse, 2(3):p. 337-373, 1993.
    
66. M. Saad, Ensembles inertiels pour un modèle de convection naturelle dissipatif  en milieu poreux. C.R.Acad.Sci.Paris, t.316,Série I,p.1277--1280,1993.
    

    CHAPITRES de livres et PROCEEDINGS avec comité de lecture

67. Zongchao Qiao, Ina Taralova, Mazen Saad, and Safwan El Assad : Analysis of the logistic and skew tent map for smart coupling over a  finite field, in Springer Proceedings in Complexity accepted 4/12/2020, pages 14. 
    
68. Chamoun G., Ibrahim M., Saad M., Talhouk R. (2019) Numerical Simulation of Heterogeneous Steady States for a Reaction-Diffusion Degenerate Keller-Segel Model. In: Faragó I., Izsák F., Simon P. (eds) Progress in Industrial Mathematics at ECMI 2018. Mathematics in Industry, vol 30. pp. 411--417, Springer, November 2019, DOI 10.1007/978-3-030-27550-$\_$-52
    
69. F. Foucher, M. Ibrahim, M. Saad Analysis of a positive CVFE scheme for simulating breast cancer development, local treatment and recurrence. Finite Volumes for Complex Applications VIII--Methods and Theoretical Aspects, Springer Proceedings in Mathematics $\&$ Statistics 199, DOI  10.1007/978-3-319-57397-7 --13, p. 205--213, 2017.
70. F. Foucher, M. Ibrahim, M. Saad, Convergence of a nonlinear Control Volume Finite Element scheme for simulating degenerate breast cancer equations,  Progress in Industrial Mathematics at ECMI 2016 pp 217-224. doi.org/10.1007/978-3-319-63082-3_33
71. H. Nasser El Dine, M. Saad, R. Talhouk, A finite volume scheme for Darcy-Brinkman's model of two-phase flows in porous media, Progress in Industrial Mathematics at ECMI 2016 pp 695-703, https://doi.org/10.1007/978-3-319-63082-3$\_$104  
72. G. Chamoun,  M. Saad, R. Talhouk, Convergence analysis and numerical simulations of anisotropic Keller-Segel-fluid models,Progress in Mathematics at ECMI 2014. Editors: Russo, G., Capasso, V., Nicosia, G., Romano, V. (Eds.), ISBN 978-3-319-23413-7 (2016) (8 pages)
73. C. Cancès, M. Ibrahim, M. Saad,  A nonlinear CVFE scheme for an anisotropic degenerate nonlinear Keller-Segel model, Progress in Mathematics at ECMI 2014. Editors: Russo, G., Capasso, V., Nicosia, G., Romano, V. (Eds.) , ISBN 978-3-319-23413-7 (2016) 
74. M. Saad, Schémas volumes finis-éléments finis pour une équation de diffusion- convection, Proccedings de workshop CIMPA. Editors:  Alhalawi, (2016).
75.  M. Bessemoulin-Chatard, M. Saad, Monotone Combined Finite Volume-Finite Element Scheme for a Bone Healing Model.Finite Volumes for Complex Applications VII-Elliptic, Parabolic and Hyperbolic Problems, Springer Proceedings in Mathematics $\&$ Statistics Volume 78, 2014, pp 497-505. version pdf
76. Bilal Saad, Mazen Saad, Convergence Analysis of a FV-FE Scheme for Partially Miscible Two-Phase Flow in Anisotropic Porous Media.Finite Volumes for Complex Applications VII-Elliptic, Parabolic and Hyperbolic Problems, Springer Proceedings in Mathematics & Statistics Volume 78, 2014, pp 713-721. version pdf
77. G. Chamoun, M. Saad, R. Talhouk, Finite volume scheme for isotropic Keller-Segel model with general scalar diffusive functions, ESAIM Proceedings and surveys, septembre 2014, vol. 45, p. 128--137. version pdf
78. B. Saad, M. Saad, Study of a numerical scheme for two phase partially miscible flow in porous media. Proceedings in  Int. Conf. on approx. methods and numerical modelling in environnemnt and natural resources, April 2013,  pp. 573--578.
    
79. Z. Khalil, M. Saad, Degenerate two-phase compressible immiscible flow in porous media. Proceedings in  Int. Conf. on approx. methods and numerical modelling in environment and natural resources, juin 2009,  pp. 527--532.
80. F. Caro, B. Saad, M. Saad, {\it An existence result for a two--phase two--components porous media problem. Proceedings in  Int. Conf. on approx. methods and numerical modelling in environment and natural resources, mai 2011,  pp. 252--257.
81.  F. Marpeau, M. Saad,  {\it Three dimensional simulation of ground pollution by radionuclide.  Proceedings in  Int. Conf. on approx. methods and numerical modelling in environnemnt and natural resources, july 2007, pp. 411--415 .   
82. C. Galusinski, M. Saad,  Water gas flows in porous media, Proceedings of the  Fifth International Conference on Dynamical Systems and Differential Equations, June 16--19,  Pomona, CA,  USA (2004). 
83. Ch.-H. Bruneau, M. Saad, New-Benchmark results for the 2D lid-driven cavity problem,  Computational Fluid Dynamics 2002,  Proceedings of the Second International Conference on Computational Fluid Dynamics, ICCFD,  Sydney, Australia, 15-19 July 2002, Part VI,  pp 317-322, DOI 10.1007/978-3-642-59334-546.
84. Ch.-H. Bruneau, M. Saad, Computation of natural convection flows in the 8:1 enclosure by a multigrid method,  In Proceedings of the conference : 1st MIT Conf. on Comp. Fluid and Solid Mech., 2001.
85. M. Saad, H. Zhang, Adaptive mesh for two-phase flow in porous media. In Proceedings of the conference (May 1996 Maroc) : Recent advances in problems of flow and transport in porous media, p. 179-193. Kluwer Academic Publishers. MAY 1996 Maroc.
    
86. M. Saad, Numerical study for secondary recuperation of hydrocarbons in porous media.  In Proceedings of the conference : mathematical modelling of flow through porous media, World Scientific, Editors Bourgeat, Carasso, Luckhaus, Mikelic. p. 495--505, 22-26 MAY 1995.
    

    Communications récentes dans un congrès international (depuis 2012)

    
    
87. item M. Saad, Weighted weak solutions to a nonlinear degenerate equation arising in chemotaxis or porous media. Conférence plénière--Ecole de Recherche CIMPA 2021 & Workshop Nador (Maroc)
    EDP non-linéaires, théorie spectrale et applications, 31 mai-7 juin, 2021
    
88. Y. Zou, F. Grondin, M. Saad, Dynamic capillarity effect on drying and shrinkage of concrete,  The Biot-Bažant Conference on Engineering Mechanics and Physics of Porous Materials, June 1-2, 2021.
    
89. M. Saad, t  Positive DDFV scheme for degenerate parabolic equations}, Invitation dans minisymposium : Modeling and Numerical Analysis of Flow and Transport in Porous Media,  Jano'13, Khouribga, Feb. 22--24, 2021.
    
90. E.H. Quenjel, M.  Ibrahim,  M.  Saad, Positive nonlinear finite volume scheme for a Keller-Segel model describing chemotaxis,  ANZIAM Annual Conference 2021, 3rd February 2021 . 
    
91. M. Saad, Standard and nonstandard multiphase flows in porous media. Special CIPR Colloquium College of Petroleum Engineering $\&$ Geosciences at  King Fahd University of Petroleum & Minerals, Dahran KSA,  30 octobre 2019
92. M. Saad,  Monotone nonlinear DDFV scheme for degenerate and anistropic Keller-Segel model, conférencier dans le symposium {Numerical Methods for PDE-based multiphysics models in biomechanics}, ICIAM Valencia, 15--19 July   2019.
    
93. M. Bendahmane, F. Mroué M. Saad, R. Talhouk,   A Positive Cell Vertex Godunov Scheme for an Anisotropic Model of Cardiac Electrical Activity. Workshop international : Modélisation et Calcul en Biomathématique, Essaouira 8--10 juillet 2019.
    
94. M. Saad,  Numerical methods for nonstandard multiphase flows in porous media, conférencier plénier aux JSSA'19 : 3ème édition de la Conférence Internationale Journées Scientifiques en Sciences Appliquées, 15--16 février 2019, Larache, Maroc.
    
95. M. Saad, Schémas volumes finis/éléments finis  positifs  pour le  modèle de Keller-Segel  dégénéré, conférence à I'ENSAM-Meknès université Moulay Ismail, le 15 décembre  2018.
    
96. M. Saad,  Positive nonlinear finite volume schemes for degenerate and anistropic Keller-Segel model, conférence à IMUS (Institut de Mathématiques de  l'Université de Séville), le 30 octobre 2018.
    
97. E. Quenjel, M. Saad, M. Ghilani, A nonlinear DDFV scheme preserving positivity for compressible two-phase flow in porous media, JEMP 2018, French Interpore Conference on Porous Media, 9 October 2018, La Cité Nantes Event Center-Nantes (France).
98. Z. Yuliang, F. Grondin, M.  Saad,  Influence of the dynamic pressure on the dessiccation of cement-based materials, JEMP 2018, French Interpore Conference on Porous Media, 9 October 2018, La Cité Nantes Event Center-Nantes (France).
99. E. Quenjel, M. Ghilani, M. Saad, M. Bessemoulin,  Convergence of a positive nonlinear DDFV scheme for degenerate parabolic equations,The 20th European Conference on Mathematics for Industry, form 18 to 22 June 2018, Budapest, Hungary.
100. G. Chamoun, M. Ibrahim, M. Saad, R.  Talhouk,  Asymptotic behavior of solutions to a nonlinear degenerate Keller-Segel model,
     The 20th European Conference on Mathematics for Industry, form 18 to 22 June 2018, Budapest, Hungary.
101. M. Bendahmane, F. Mroué, M. Saad, R. Talhouk, Existence results for a physiological electromechanical model of cardiac activity.
     10th ESMC(European Solid Mechanics conference) Bologn July 2--6,  2018.
102. M. Bendahmane, F. Mroué, M. Saad, R. Talhouk, Electromechanical Modeling of Cardiac Activity: Existence Results for a Physiological Ionic Model. International Workshop "Mathematical Models in Health Sciences" Organisé au Centre Henri Lebesgue, 20--22 juin Nantes 2018.
     
103. F. Mroué, M. Saad, Positive nonlinear CVFE scheme for an anisotropic model of cardiac electrical activity, The 8th conference  LSMS  "Lebanese Society for the Mathematical Sciences",  Lebanese American University,  May 11-12, 2018. 
104. M. Saad,  Numerical methods for the Darcy-Brinkman two phase flow in porous media, SIAM conference on Mathematical and Computational issues in the Geosciences 2017, September 11-14, 2017 Erlangen Germany.
     
105. M. Saad,  Analysis of a positive CVFE scheme for simulating breast cancer development, local treatment and recurrence. Finite Volumes for Complex Applications VIII, Lille, France, 12--16 June 2017.
106. H. Nasser el Dine,  M. Saad,  Numerical scheme for anisotropic Darcy-Brinkman's model of two-phase flows in porous media.  International Conference on Approximation Methods and Numerical Modelling in Environment and Natural Resources MAMERN VII May, 2017, Oujda, Morocco.
107. E. Quenjel, M. Ghilani and M. Saad,  Positive nonlinear CVFE scheme for a compressible two phase flow in heterogeneous and anisotropic porous media, 7ème Congrès International de MAMERN du 17 au 20 Mai 2017, Oujda, Maroc.
108. M. Saad,  Degenerate weighted formulation for a dissipative equation. 5th International Congress of the SM2A, March 16 - 18, 2017, Meknes, Morocco.
     
109. M. Ibrahim, F. Foucher, M. Saad : Nonlinear CVFE scheme for simulating  a breast cancer model. In
      ECMI2016, 19th European Conference on Mathematics for Industry,  13--17th June 2016, Santiago de Compostela, Spain.
     
110. M.  Saad,  Numerical analysis for partially miscible two-phase two component flows in porous media. In ECMI2016, 19th European Conference on Mathematics for Industry, 13--17th June 2016, Santiago de Compostela, Spain.
     
111. H. Nasser El Dine, M. Saad  : A convergent finite volume scheme of Darcy-Brinkman's velocities of two phase flows in porous media. In
      ECMI2016, 19th European Conference on Mathematics for Industry, 13--17th June 2016, Santiago de Compostela, Spain.
     
112. Conférencier invité  LIAFSMA Sino-French Conference on Applied Mathematics, Bordeaux University, Titre :  Positive finite volume schemes for degenerate and anistropic Keller-Segel model. Bordeaux  20--26 mai 2016. 
113. Conférencier invité à la 10ème Rencontre d'Analyse Mathématique et Applications ( RAMA 10). Titre : Schémas volumes finis positifs  pour le  modèle de Keller-Segel  dégénéré et anisotrope. Université Kasdi Merbah, Ouargla, 07-11 Février 2016.
114. TAMTAM'15 : 7ème colloque sur les  Tendances des Applications en Mathématiques, Tunisie Algérie Maroc. Conférence plénière :  Schéma combiné volumes finis-éléments finis pour un écoulement diphasique compressible en milieu poreux. Tanger 04--08 mai 2015.
115. Conférence à l'ENS Kouba à Alger.Titre de la présentation  : Méthodes numériques pour un écoulement diphasique compressible en milieu poreux. Alger le 01 juin 2015.
116. Conférence à l'ENS Kouba à Alger.Titre de la présentation  :  Problème elliptique à donnée L1. Alger le 31 mai  2015.
117. Conférence à l'ENS Kouba à Alger.Titre de la présentation  :   Problème parabolique non linéaire à donnée L1. Alger le 02 juin   2015.
118.  International Conference on Numerical and Mathematical Modelling of Flow and transport in porous media, 29 Sep-3 oct. 2014, Dubrovnik, Croatia. Title of the presentation :  Finite volume--Edge finite element scheme for two--compressible two--component flow in nonhomogenous media porous media.
119.  Conférencier invité à la journée :  Modèles mathématiques et numériques des écoulements en milieux poreux. Application à l'exploitation des ressources hydriques, pétrolières et à la préservation de l'environnement  à l'ENSAM-Meknès. Titre de la présentation :  Ecoulement multifluide compressible et immiscible en milieu poreux. Le 13 décembre 2014.
120.  International conference  ECMI 2014 :  The 18th European Conference on Mathematics for Industry. Title of the presentation :  Convergence analysis and numerical simulations of anisotropic Keller-Segel-fluid models. Juin 2014, Taormine, Italie.  
121. International conference  ECMI 2014 :  The 18th European Conference on Mathematics for Industry. Title of the presentation :  A nonlinear CVFE scheme for an anisotropic degenerate nonlinear Keller-Segel model.  Juin 2014, Taormine, Italie. 
122. FVCA7,  Berlin, June 15--20, 2014. Title :  Monotone Combined Finite Volume-Finite Element Scheme for a Bone Healing Model.  
123. LAAS'20 :  ''International Science Conference  : Advanced research for Better Tomorrow''.  Title of the presentation:  Mathematical and numerical analysis of a coupled anisotropic chemotaxis-fluid model, 27--29 Mars 2014 à l'université Libanaise.  
124. FVCA7,  Berlin, June 15--20, 2014. Title of the presentation:  Convergence Analysis of a FV-FE Scheme for Partially Miscible Two-Phase Flow in Anisotropic Porous Media.
125. International conference  ECMI 2014 :  The 18th European Conference on Mathematics for Industry. Title : A nonlinear CVFE scheme for degenerate reaction-convection-diffusion systems modeling the chemotaxis process.  Juin 2014, Taormine, Italie.  
126. LAAS'20 : ''International Science Conference  : Advanced research for Better Tomorrow''.  Title  of the presentation:  Modelling and simulation of bone healing, 27--29 Mars 2014 à l'université Libanaise. 
127. Workshop Mathématiques pour les fluides, 8ième Journées Scientifiques la Recherche à l'université de Toulon 15--16 avril 2014. Titre : Combined Finite method -- Finite element method for compressible and immmiscible two-phase flow in porous media.   
128. International Workshop on Enhanced Oil Recovery and Porous Media Flows, TAMU-Qatar, Doha, Qatar, July 31-August 1-2013. Title of the presentation :   Finite Volume--Nonconforming Finite Element For Two Compressible And Immiscible Flow In Porous Media.
129.  "19th LAAS International Science Conference, New Frontiers in Sciences, LAU, Beirut, Lebanon, April 5--6, 2013", Title  : Convergence analysis  of numerical schemes for a degenerate chemotaxis  model with general  tensors.
130. SIAM Conference on Mathematical, and Computational issues in the Geosciences, June 17-20, 2013, Padua Italy. Title of the presentation : Combined finite volume--finite element scheme for compressible two phase flow in porous media.
131. Biomath 2013, International Conference on Mathematical Methods and Models in Biosciences,  Sofia, Bulgaria,  june 2013.  Title of the presentation: Pattern Formation and Cross-Diffusion for a Chemotaxis Model.
132. 5th International Conference on Porous Media $\&$ Annual Meeting of the International Society for Porous Media. INTERPORE. Title :  Study of a numerical scheme for two phase two component flow in porous media : the degenerate case. May 21--24 May, 2013, Prague, Czech Republic.
133.  5th International Conference MAMERN'13, April 22--25, 2013 Granada--Spain.  Title:   Study of a numerical scheme for two phase partially miscible flow in porous media.
134.  Biomath 2013, International Conference on Mathematical Methods and Models in Biosciences,  Sofia, Bulgaria,  june 2013. Title :   Monotone Combined Finite Volume-Finite Element Scheme for Anisotropic Keller-Segel Model.
135.  4th International Conference on Porous Media & Annual Meeting of the International Society for Porous Media. INTERPORE, May 14-16, 2012, Purdue University, West Lafayette, Indiana, USA. Title : Transfer of hydrogen in waste nuclear storage : numerical comparison of static and dynamic mass exchange.  
136. Biomath 2012, International Conference on Mathematical Methods and Models in Biosciences,  Sofia, Bulgaria, 17--22 june 2012.  Title : Upstream  finite Volume scheme for a bone healing model. 
137. Conférence à l'ENS de Kouba à Alger le 25 juin 2012 sur le thème :  Modèle eau-gaz en milieu poreux : analyse mathématique et numérique.
138. 4th International Conference on Porous Media & Annual Meeting of the International Society for Porous Media. INTERPORE, May 14-16, 2012,  Purdue University, West Lafayette, Indiana, USA. Title :  Upwind finite Volume scheme for compressible and immiscible two-phase flow in porous media.