Rheolef
7.2
an efficient C++ finite element environment
|
[145] | T. Schiano, B. Bigot, J.-F. Haquet, P. Saramito, and C. Smutek. Non-Newtonian spreading simulation of molten nuclear combustible. In 7th world congress on momentum, heat and mass transfer (MHMT'22), 2022. [ bib ] |
[144] | O. Ozenda, P. Saramito, and G. Chambon. Shear-induced migration in concentrated suspensions: particle mass conservation, contact pressure and jamming. J. Non-Newt. Fluid. Mech., 304:104805, 2022. [ bib | .pdf ] |
[143] | P. Saramito, V. Dansereau, and J. Weiss. Linking bulk modulus to an unilateral damage yield criterion: a thermodynamic modeling approach. Int. J. Damage Mech., 30(7):1123–1145, 2021. [ bib | .pdf ] |
[142] | P. Saramito. A new brittle-elastoviscoplastic fluid based on the Drucker-Prager plasticity. J. Non-Newt. Fluid Mech., 294:104584, 2021. [ bib | .pdf ] |
[141] | V. Dansereau, J. Weiss, and P. Saramito. A continuum viscous-elastic-brittle, finite element DG model for the fracture and drift of sea ice. In Int. Assoc. Comput. Meth. Adv. Geomech., pages 125–139, 2021. [ bib ] |
[140] | F. Pigeonneau, L. Pereira, and A. Laplace. Mass transfer around a rising bubble in a glass-forming liquid involving oxidation-reduction reaction: numerical computation of the Sherwood number. Chem. Eng. Sci., page 116382, 2021. [ bib ] |
[139] | F. Pigeonneau, D. Xu, M. Vincent, and J.-F. Agassant. Heating and flow computations of an amorphous polymer in the liquefier of a material extrusion 3D printer. Additive Manufacturing, 32:101001, 2020. [ bib ] |
[138] | N. Shourick. Asymptotic expansion and numerical simulation in viscoelastic fluids with application to biological tissues. Master's thesis, M2 de l'université de Grenoble, 2020. [ bib ] |
[137] | T. Schiano, B. Bigot, J.-F. Haquet, P. Saramito, and C. Smutek. Modelling and numerical simulation of the spread of a dense and high-temperature fluid. In 20ème congrès français de thermique, pages 176–183, 2020. [ bib | .pdf ] |
[136] | O. Ozenda, P. Saramito, and G. Chambon. Tensorial rheological model for concentrated non-colloidal suspensions: normal-stress differences. to appear, 2020. [ bib | .pdf ] |
[135] | T. el Jammal. Numerical resolution of viscoelastic fluids. simulation of a flow in abrupt contraction. Master's thesis, M2 de l'université de Grenoble, 2020. [ bib ] |
[134] | F. Pigeonneau, E. Hachem, and P. Saramito. Discontinuous Galerkin finite element method applied to the coupled unsteady Stokes/Cahn-Hilliard equations. Int. J. Numer. Meth. Fluids, 90(6):267–295, 2019. [ bib | DOI | .pdf ] |
[133] | O. Ozenda. Modélisation continue de la rhéologie des suspensions et de la migration. PhD thesis, Université de Grenoble-Alpes, 2019. http://www-ljk.imag.fr/membres/Pierre.Saramito/Oze-2019-these.pdf. [ bib | .pdf ] |
[132] | S. Chakraborty. Continuous mathematical models of cell migration. Master's thesis, M2R ENSIMAG, Grenoble, 2019. [ bib ] |
[131] | V. Dansereau, V. Démery, E. Berthier, J. Weiss, and L. Ponson. Collective damage growth controls fault orientation in quasibrittle compressive failure. Phys. Rev. Lett., 122(8):085501, 2019. [ bib ] |
[130] | A. Wachs. Computational methods for viscoplastic fluid flows, pages 83–125. Springer, 2019. [ bib ] |
[129] | P. Saramito. An efficient C++ finite element environment, 2018. web page : https://www-ljk.imag.fr/membres/Pierre.Saramito/rheolef. [ bib | http ] |
[128] | P. Saramito. Efficient C++ finite element computing with Rheolef. CNRS and LJK, 2018. http://cel.archives-ouvertes.fr/cel-00573970. [ bib | http ] |
[127] | O. Ozenda, P. Saramito, and G. Chambon. A new rate-independent tensorial model for suspensions of non-colloidal rigid particles in newtonian fluids. J. Rheol., 62:889–903, 2018. [ bib | .pdf ] |
[126] | N. Bernabeu, P. Saramito, and A. Harris. Laminar shallow viscoplastic fluid flowing through an array of vertical obstacles. J. Non-Newt. Fluid Mech., 257:59–70, 2018. [ bib | .pdf ] |
[125] | N. Bernabeu, A. Finizola, C. Smutek, P. Saramito, and E. Delcher. Spatio-temporal evolution of temperature and fluid flow through a new "thermo-lithological" boundary; the case of a pit crater of karthala volcano (comoros archipelago) refilled on january 13th 2007 by a lava flow. J. Volc. Geotherm. Res., 367:7–19, 2018. [ bib | .pdf ] |
[124] | F. Pigeonneau, A. Cornet, and F. Lopépé. Thermoconvective instabilities of a non-uniform Joule-heated liquid enclosed in a rectangular cavity. J. Fluid Mech., 843:601–636, 2018. [ bib ] |
[123] | F. Pigeonneau. Détermination par une méthode aux éléments finis des coefficients de transfert de masse pour des bulles en ascension dans un écoulement en régime de stokes tenant de réactions chimiques proches de l'équilibre. In Congrès Matériaux. CNRS-CCSD, 2018. [ bib | .pdf ] |
[122] | A. Laadhari. An operator splitting strategy for fluid-structure interaction problems with thin elastic structures in an incompressible Newtonian flow. Appl. Math. Lett., in press, 2018. [ bib ] |
[121] | A. Laadhari. Implicit finite element methodology for the numerical modeling of incompressible two-fluid flows with moving hyperelastic interface. Appl. Math. Comput., 333:376–400, 2018. [ bib ] |
[120] | V. Démery, V. Dansereau, E. Berthier, L. Ponson, and J. Weiss. Elastic interactions in damage models of brittle failure. Arxiv preprint, 2018. [ bib | http ] |
[119] | M. Zare Bezgabadi. Fluid mechanics causes of gas migration: displacement of a yield stress fluid in a channel and onset of fluid invasion into a visco-plastic fluid. PhD thesis, University of Britisch Columbia, Vancouver, 2018. [ bib | http ] |
[118] | A. Maleki and S. Hormozi. Submerged jet shearing of visco-plastic sludge. J. Non-Newt. Fluid Mech., 252:19–27, 2018. [ bib ] |
[117] | O. Budenkova, N. Bernabeu, S. Rukolaine, Y. du Terrail Couvat, A. Gagnoud, R. Tarpagkou, and Y. Fautrelle. Thermoelectric problem for an axisymmetric ellipsoid particle in the liquid metal: analytical solution and numerical modeling. Appl. Math. Model., 45:590–605, 2017. [ bib ] |
[116] | N. Bernabeu, O. Budenkova, A. Gagnoud, S. Rukolaine, Y. du Terrail Couvat, and Y. Fautrelle. Modeling of coupled convective and magneto-thermoelectric phenomena for a sphere immersed in liquid metal using finite element method and adaptive meshes. Magnetohydrodynamics, 53(1):149–158, 2017. [ bib ] |
[115] | P. Saramito and A. Wachs. Progress in numerical simulation of yield stress fluid flows. J. Rheol., 56(3):211–230, 2017. [ bib ] |
[114] | A. Laadhari, P. Saramito, C. Misbah, and G. Székely. Fully implicit methodology for the dynamics of biomembranes and capillary interfaces by combining the level set and Newton methods. J. Comput. Phys., 343:271–299, 2017. [ bib ] |
[113] | M. Dicko, P. Saramito, G. B. Blanchard, C. M. Lye, B. Sanson, and J. Étienne. Geometry can provide long-range mechanical guidance for embryogenesis. PLOS Comput. Bio., 13(3):e1005443, 2017. [ bib ] |
[112] | A. Deharveng. Modélisation des coulées de débris. Master's thesis, M2R Université Nice-Sophia Antipolis, 2017. [ bib | .pdf ] |
[111] | V. Dansereau, J. Weiss, P. Saramito, P. Lattes, and E. Coche. Ice bridges and ridges in the Maxwell-EB sea ice rheology. The Cryosphere, 11:2033–2058, 2017. [ bib ] |
[110] | F. Pigeonneau. Thermoconvective instabilities of a non-uniform Joule-heated high Prandtl number liquid. In Congrès francais de mécanique, Lilles, 2017. [ bib | http ] |
[109] | A. Laadhari and G. Székely. Eulerian finite element method for the numerical modeling of fluid dynamics of natural and pathological aortic valves. J. of Comput. Appl. Math., 319:236–261, 2017. [ bib ] |
[108] | A. Laadhari and G. Székely. Fully implicit finite element method for the modeling of free surface flows with surface tension effect. Int. J. Numer. Meth. Eng., 111(11):1047–1074, 2017. [ bib ] |
[107] | A. Laadhari. Exact Newton method with third-order convergence to model the dynamics of bubbles in incompressible flow. Appl. Math. Lett., 69:138–145, 2017. [ bib ] |
[106] | J. Weiss and V. Dansereau. Linking scales in sea ice mechanics. Phil. Trans. R. Soc. A, 375(2086):20150352, 2017. [ bib | .pdf ] |
[105] | A. Laadhari and G. Székely. Warning about the risk of blood flow stagnation after transcatheter aortic valve implantation. Int. J. Math. Comput. Phys. Elec. Comput. Eng., 11(1):33–37, 2017. [ bib ] |
[104] | A. Maleki and S. Hormozi. Submerged jet shearing of visco-plastic sludge. J. Non-Newt. Fluid Mech., to appear, 2017. [ bib ] |
[103] | N. J. Balmforth, R. V. Craster, D. R. Hewitt, S. Hormozi, and A. Maleki. Viscoplastic boundary layers. J. Fluid Mech., 813:929–954, 2017. [ bib ] |
[102] | A. J. L. Harris, T. de Groeve, F. Garel, and S. A. Carn, editors. Detecting, modelling and responding to effusive eruptions. Geol. Soc., London, 2016. [ bib ] |
[101] | M. Ta, F. Pigeonneau, and P. Saramito. An implicit high order discontinuous Galerkin level set method for two-phase flow problems. In 9th international conference on multiphase flow (ICMF), 2016. [ bib | .pdf ] |
[100] | P. Saramito. Complex fluids: modelling and algorithms. Springer, 2016. [ bib ] |
[99] | P. Saramito. A damped Newton algorithm for computing viscoplastic fluid flows. J. Non-Newt. Fluid Mech., 238:6–15, 2016. [ bib | http ] |
[98] | F. Pigeonneau and P. Saramito. Discontinuous Galerkin finite element method applied to the coupled Navier-Stokes/Cahn-Hilliard equations. In 9th international conference on multiphase flow (ICMF), 2016. [ bib | .pdf ] |
[97] | A. Laadhari, P. Saramito, and G. Székely. Fully implicit method for capillary forces in incompressible two-phase flow. submitted, 2016. [ bib ] |
[96] | A. Laadhari, P. Saramito, and C. Misbah. An adaptive finite element method for the modeling of the equilibrium of red blood cells. Int. J. Numer. Meth. Fluids, 80(7):397–428, 2016. [ bib | .pdf ] |
[95] | M. Dicko. Méthodes numériques pour la résolution d'EDP sur des suraces. Application dans l'embryogénèse. PhD thesis, Université de Grenoble, 2016. [ bib | .pdf ] |
[94] | V. Dansereau, J. Weiss, P. Saramito, and P. Lattes. A Maxwell-elasto-brittle rheology for sea ice modelling. Cryosphere, 10:1339–1359, 2016. [ bib | .pdf ] |
[93] | V. Dansereau. A Maxwell-elasto-brittle model for the drift and deformation of sea ice. PhD thesis, Université de Grenoble, 2016. [ bib | http ] |
[92] | N. Bernabeu, P. Saramito, and C. Smutek. Modelling lava flow advance using a shallow-depth approximation for three-dimensional cooling of viscoplastic flows, chapter 27. Geol. Soc., London, 2016. [ bib | .pdf ] |
[91] | A. Laadhari and G. Székely. Implicit Eulerian fluid-structure interaction method for the modeling of highly deformable elastic membranes. Int. J. Math. Comput. Phys. Elec. Comput. Eng., 10(12):606–615, 2016. [ bib | http ] |
[90] | A. Laadhari and A. Quarteroni. Numerical modeling of heart valves using resistive Eulerian surfaces. Int. J. Numer. Meth. Biomed. Eng., 32(5), 2016. [ bib | .pdf ] |
[89] | A. Laadhari. An implicit methodology for the numerical modeling of locally inextensible membranes. Int. J. Math. Comput. Phys. Elec. Comput. Eng., 10(12):621–628, 2016. [ bib | http ] |
[88] | C. Roux, A. Duperray, V. M. Laurent, R. Michel, V. Peschetola, C. Verdier, and J. Étienne. Prediction of traction forces of motile cells. Interface Focus, 6(5):20160042, 2016. [ bib ] |
[87] | M. Zare, A. Roustaei, K. Alba, and I. A. Frigaard. Invasion of fluids into a gelled fluid column: yield stress effects. J. Non-Newt. Fluid Mech., 238:212–223, 2016. [ bib ] |
[86] | A. Roustaei. Yield stress fluid flows in uneven geometries: applications to the oil and gas industry. PhD thesis, University of British Columbia, Vancouver, Canada, 2016. [ bib ] |
[85] | G. Daviet and F. Bertails-Descoubes. Nonsmooth simulation of dense granular flows with pressure-dependent yield stress. J. Non-Newt. Fluid Mech., 234:15–35, 2016. [ bib | http ] |
[84] | G. Daviet. Modèles et algorithmes pour la simulation du contact frottant dans les matériaux complexes. Application aux milieux fibreux et granulaires. PhD thesis, Université de Grenoble, 2016. [ bib ] |
[83] | J. Boujlel, F. Pigeonneau, E. Gouillart, and P. Jop. Rate of chaotic mixing in localized flows. Phys. Rev. Fluids, 1(3):031301, 2016. [ bib ] |
[82] | P. Saramito. Efficient C++ finite element computing with Rheolef: volume 2: discontinuous Galerkin methods. CNRS and LJK, 2015. http://cel.archives-ouvertes.fr/cel-00863021. [ bib | http ] |
[81] | J.-B. Keck. De la simulation à la visualisation de coulées de lave. Master's thesis, M2R de l'université de Grenoble, 2015. [ bib ] |
[80] | V. Dansereau, J. Weiss, P. Saramito, P. Lattes, and E. Coche. A Maxwell-elasto-brittle rheology for sea ice modeling. Mercator Ocean Newsletter, 51:35–40, 2015. [ bib | http ] |
[79] | I. Cheddadi, P. Saramito, and F. Graner. La solidité de la mousse liquide. Pour la science, dćembre, 2015. [ bib ] |
[78] | N. Bernabeu. Modélisation multi-physique des écoulements viscoplastiques – application aux coulées de lave volcaniques. PhD thesis, Université de Grenoble, 2015. [ bib | .pdf ] |
[77] | T. S. Koltukluoglu, S. Hirsch, C. Binter, S. Kozerke, G. Szekely, and A. Laadhari. A robust comparison approach of velocity data between MRI and CFD based on divergence-free space projection. In IEEE Symposium on Biomedical Imaging (ISBI), 2015 IEEE 12th International, pages 1393–1397, 2015. [ bib | .pdf ] |
[76] | A. Ravasio, I. Cheddadi, T. Chen, T. Pereira, H. T. Ong, C. Bertocchi, A. Brugues, A. Jacinto, A. J. Kabla, Y. Toyama, X. Trepat, N. Gov, L. N. de Almeida, and B. Ladoux. Gap geometry dictates epithelial closure efficiency. Nature Comm., 2015. [ bib | .pdf ] |
[75] | A. Roustaei, A. Gosselin, and I. A. Frigaard. Residual drilling mud during conditioning of uneven boreholes in primary cementing. Part 1: rheology and geometry effects in non-inertial flows. J. Non-Newt. Fluid Mech., 220:87–98, 2015. [ bib ] |
[74] | A. Roustaei and I. A. Frigaard. Residual drilling mud during conditioning of uneven boreholes in primary cementing. Part 2: steady laminar inertial flows. J. Non-Newt. Fluid Mech., 226:1–15, 2015. [ bib ] |
[73] | A. Maleki, S. Hormozi, A. Roustaei, and I. A. Frigaard. Macro-size drop encapsulation. J. Fluid Mech., 769:482–521, 2015. [ bib ] |
[72] | S. Hormozi, A. M. Zamenjani, A. Roustaei, G. Dunbrack, and I. A. Frigaard. Viscoplastic forming and extrusion. submitted, 2015. [ bib | .pdf ] |
[71] | P. Saramito. On a modified non-singular log-conformation formulation for Johnson-Segalman viscoelastic fluids. J. Non-Newt. Fluid Mech., 211:16–30, 2014. [ bib | .pdf ] |
[70] | O. Ozenda. Modélisation multicouche d'écoulements visqueux minces et calculs thermiques appliqués à la simulation d'épanchements de lave. Master's thesis, M2R Université J. Fourier, Grenoble, 2014. [ bib | .pdf ] |
[69] | A. Laadhari, P. Saramito, and C. Misbah. Computing the dynamics of biomembranes by combining conservative level set and adaptive finite element methods. J. Comput. Phys., 263:328–352, 2014. [ bib | .pdf ] |
[68] | N. Bernabeu, P. Saramito, and C. Smutek. Numerical modeling of shallow non-Newtonian flows: Part II. Viscoplastic fluids and general tridimensional topographies. Int. J. Numer. Anal. Model., 11(1):213–228, 2014. [ bib | .pdf ] |
[67] | B. K. Mallat. Advection chaotique dans une cuve bidimensionnelle contenant un fluide non newtonien présentant un seuil. Master's thesis, M2P de l'université Paris-sud, 2014. [ bib ] |
[66] | N. J. Balmforth, I. A. Frigaard, and G. Ovarlez. Yielding to stress: recent developments in viscoplastic fluid mechanics. Annual Review of Fluid Mechanics, 46:121–146, 2014. [ bib ] |
[65] | P. Saramito, C. Smutek, and B. Cordonnier. Numerical modeling of shallow non-Newtonian flows. Part I. The horizontal dam break problem revisited. Int. J. Numer. Anal. Model. B, 4(3):283–298, 2013. [ bib | .pdf ] |
[64] | P. Saramito. Méthodes numériques en fluides complexes : théorie et algorithmes. CNRS-CCSD, 2013. http://cel.archives-ouvertes.fr/cel-00673816. [ bib | http ] |
[63] | P. Saramito. Language C++ et calcul scientifique. College Publications, London, 2013. [ bib ] |
[62] | I. Cheddadi and P. Saramito. A new operator splitting algorithm for elastoviscoplastic flow problems. J. Non-Newt. Fluid Mech., 202:13–21, 2013. [ bib | .pdf ] |
[61] | A. Laadhari, R. Ruiz-Baier, and A. Quarteroni. Fully eulerian finite element approximation of a fluid-structure interaction problem in cardiac cells. Int. J. Numer. Meth. Eng., 96(11):712–738, 2013. [ bib | .pdf ] |
[60] | A. Roustaei and I. A. Frigaard. The occurrence of fouling layers in the flow of a yield stress fluid along a wavy-walled channel. J. Non-Newt. Fluid Mech., 198:109–124, 2013. [ bib ] |
[59] | A. Laadhari, P. Saramito, and C. Misbah. Vesicle tumbling inhibited by inertia. Phys. Fluids, 24:031901, 2012. [ bib | .pdf ] |
[58] | I. Cheddadi, P. Saramito, and F. Graner. Steady Couette flows of elastoviscoplastic fluids are non-unique. J. Rheol., 56(1):213–239, 2012. [ bib | .pdf ] |
[57] | Z. Servadio. Apports de l'imagerie à haute résolution spectrale et spatiale dans les bilans de volume et les bilans radiatifs au Piton de La Fournaise. PhD thesis, Université de La Réunion, 2011. [ bib | .pdf ] |
[56] | A. Laadhari. Modélisation numérique de la dynamique des globules rouges par la méthode des fonctions de niveau. PhD thesis, Université de Grenoble, 2011. [ bib | .pdf ] |
[55] | M. Dicko. Méthodes mathématiques pour les écoulements sur des surfaces. Master's thesis, M2P Université J. Fourier, Grenoble, 2011. [ bib | .pdf ] |
[54] | I. Cheddadi, P. Saramito, B. Dollet, C. Raufaste, and F. Graner. Understanding and predicting viscous, elastic, plastic flows. Eur. Phys. J. E, 34(1):11001, 2011. [ bib | .pdf ] |
[53] | N. Bernabeu. Simulation numérique des coulées de lave de volcans. Master's thesis, M2P Université J. Fourier, Grenoble, 2011. [ bib | .pdf ] |
[52] | J. Étienne and A. Duperray. Initial dynamics of cell spreading are governed by dissipation in the actin cortex. Biophys. J., 101(3):611–622, 2011. [ bib | .pdf ] |
[51] | A. Maleki. Macro-size drop encapsulation. Master's thesis, M2R, Univ. British Columbia, Vancouver, Canada, 2011. [ bib | http ] |
[50] | D. Bresch and V. Milisic. High order multi-scale wall-laws, Part I: the periodic case. Quart. Appl. Math., 68:229–253, 2010. [ bib ] |
[49] | N.-J. Yangba Makoumbo. Simulation numérique des coulées d'un volcan. Master's thesis, M2R Université d'Angers, 2010. [ bib ] |
[48] | A. Laadhari, P. Saramito, and C. Misbah. Improving the mass conservation of the level set method. C. R. Acad. Sci. Paris, ser. I, 348:535–540, 2010. [ bib | .pdf ] |
[47] | A. Laadhari, C. Misbah, and P. Saramito. On the equilibrium equation for a generalized biological membrane energy by using a shape optimization approach. Phys. D, 239:1568–1572, 2010. [ bib | .pdf ] |
[46] | J. Étienne, J. Lohéac, and P. Saramito. A Lagrange-multiplier approach for the numerical simulation of an inextensible membrane or thread immersed in a fluid. submitted, 2010. [ bib | .pdf ] |
[45] | I. Cheddadi. Contribution à la modélisation numérique des écoulements de mousse. PhD thesis, Université de Grenoble, 2010. http://tel.archives-ouvertes.fr/tel-00497436. [ bib | .pdf ] |
[44] | L. Abouorm. Méthodes mathématiques pour les écoulements sur des surfaces. Master's thesis, M2R Université J. Fourier, Grenoble, 2010. [ bib | .pdf ] |
[43] | A. Putz and I. A. Frigaard. Creeping flow around particle in a Bingham fluid. J. Non-Newt. Fluid Mech., 165(5–6):263–280, 2010. [ bib ] |
[42] | P. Saramito. A new elastoviscoplastic model based on the Herschel-Bulkley viscoplasticity. J. Non-Newt. Fluid Mech., 158(1–3):154–161, 2009. [ bib | .pdf ] |
[41] | J. Lohéac. Simulation numérique de la déformation d'un globule rouge dans une artère. Master's thesis, M2R Université J. Fourier, Grenoble, 2009. [ bib | .pdf ] |
[40] | I. Cheddadi, P. Saramito, C. Raufaste, P. Marmottant, and F. Graner. Erratum to numerical modelling of foam Couette flows. Eur. Phys. J. E, 28:479–480, 2009. [ bib | .pdf ] |
[39] | Rebecca Bendick and Julia Baldwin. Dynamic models for metamorphic core complex formation and scaling: The role of unchannelized collapse of thickened continental crust. Tectonophysics, 477(1):93–101, 2009. [ bib ] |
[38] | J. Monnier, P. Witomski, P. Chow-Wing-Bom, and C. Scheid. Numerical modeling of electrowetting by a shape inverse approach. SIAM J. Appl. Math., 69(5):1477–1500, 2009. [ bib ] |
[37] | A. Putz, I. A. Frigaard, and D. M. Martinez. On the lubrication paradox and the use of regularisation methods for lubrication flows. J. Non-Newt. Fluid Mech., 163:62–77, 2009. [ bib | .pdf ] |
[36] | D. Bresch and V. Milisic. Vers des lois de parois multi-échelle implicites. C. R. Math., 346(15):833–838, 2008. [ bib ] |
[35] | N. Roquet and P. Saramito. An adaptive finite element method for viscoplastic flows in a square pipe with stick-slip at the wall. J. Non-Newt. Fluid Mech., 155:101–115, 2008. [ bib | .pdf ] |
[34] | I. Cheddadi, P. Saramito, C. Raufaste, P. Marmottant, and F. Graner. Numerical modelling of foam Couette flows. Eur. Phys. J. E, 27(2):123–133, 2008. [ bib | .pdf ] |
[33] | M. Brassel. Modélisation des instabilités de forme en croissance cristaline. PhD thesis, U. J. Fourier, Grenoble, 2008. [ bib | .pdf ] |
[32] | M. H. Tber, M. E. A. Talibi, and D. Ouazar. Parameters identification in a seawater intrusion model using adjoint sensitive method. Math. Comput. Simul., 77(2-3):301–312, 2008. [ bib ] |
[31] | M. H. Tber, M. el Alaoui Talibi, and D. Ouazar. Parameters identification in a seawater intrusion model using adjoint sensitive method. Math. Comput. Simul., 77(2):301–312, 2008. [ bib ] |
[30] | R. Bendick, D. McKenzie, and J. Etienne. Topography associated with crustal flow in continental collisions, with application to tibet. Geophys. J. Int., 175(1):375–385, 2008. [ bib | http ] |
[29] | P. Saramito. A new constitutive equation for elastoviscoplastic fluid flows. J. Non-Newt. Fluid Mech., 145(1):1–14, 2007. [ bib | .pdf ] |
[28] | A. Laadhari. Modélisation numérique des écoulements viscoplastiques de faible épaisseur : application aux laves volcaniques. Master's thesis, M2R mathématiques appliqués, Grenoble, 2007. [ bib | .pdf ] |
[27] | M. H. Tber and M. el Alaoui Talibi. A finite element method for hydraulic conductivity identification in a seawater intrusion problem. Comput. Geosci., 33(7):860–874, 2007. [ bib ] |
[26] | M. el Alaoui Talibi, D. Ouazar, and M. H. Tber. Identification of the hydraulic conductivities in a saltwater intrusion problem. J. Inv. Ill-posed Problems, 15(9):935–954, 2007. [ bib ] |
[25] | J. Monnier, A. Benselama, and I. Cotoi. Flow patterns in the vicinity of triple line dynamics arising from a local surface tension model. Int. J. Mult. Comput. Eng., 5(5):417–434, 2007. [ bib ] |
[24] | J. Monnier. Modèles numériques directs et inverses d'écoulements de fluides. PhD thesis, Thèse d'habilitation, Institut National Polytechnique de Grenoble, 2007. [ bib | .pdf ] |
[23] | J. Étienne, E. J. Hinch, and J. Li. A Lagrangian-Eulerian approach for the numerical simulation of free-surface flow of a viscoelastic material. J. Non-Newt. Fluid Mech., 136(2–3):157–166, 2006. [ bib ] |
[22] | L. Saldamli. PDEModelica: a high-level language for modeling with partial differential equations. PhD thesis, Linkopings universitet, Sweden, 2006. [ bib | .pdf ] |
[21] | E. Maitre, H. Boumaraf, P. Saramito, and B. Sauvage. Laboratoire de modélisation et de calcul, 2005. DVD, IMAG éditions, S. Despréaux (ed.), Grenoble. [ bib | http ] |
[20] | J. Étienne, P. Saramito, and E. J. Hopfinger. Numerical simulations of dense clouds on steep slopes: application to powder-snow avalanches. Annals of Glaciology, 38:279–383, 2005. [ bib | .pdf ] |
[19] | J. Étienne and P. Saramito. Estimations d'erreur a priori de la méthode de Lagrange-Galerkin pour les équations de type Kazhikhov-Smagulov. C. R. Acad. Sci. Paris, ser. I, 341:769–774, 2005. [ bib | .pdf ] |
[18] | J. Étienne, E. J. Hopfinger, and P. Saramito. Numerical simulation of high density ratio lock-exchange flows. Phys. Fluids, 17(3):036601, 2005. [ bib | .pdf ] |
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