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Documents dont l'auteur est "Tucny, Jean-Michel"

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Nombre de documents: 10

Tucny, J.-M., Leclaire, S., Vidal, D., & Bertrand, F. (2023). Computation of Effective Viscosities for Rarefied Gas Flows Using Ray-Tracing. International Journal of Applied and Computational Mathematics, 9(5), 110 (21 pages). Lien externe

Tucny, J.-M., Spreutels, L., Drolet, F., Leclaire, S., Bertrand, F., & Vidal, D. (2022). Impact of fiber diameter polydispersity on the permeability of fibrous media. Chemical Engineering Science, 262, 117984 (12 pages). Lien externe

Tucny, J.-M., Vidal, D., Leclaire, S., & Bertrand, F. (juillet 2022). Investigation on the validity of a rarefied gas flow model based on the LBM as an extended Navier-Stokes equation solver for porous media [Présentation]. Dans 32nd International Symposium on Rarefied Gas Dynamics (RGD 2022), Seoul, Korea, South. Non disponible

Tucny, J.-M., Vidal, D., Leclaire, S., & Bertrand, F. (2022). Kinetic Slip Boundary Condition for Isothermal Rarefied Gas Flows through Static Non-Planar Geometries Based on the Regularized Lattice-Boltzmann Method. Communications in Computational Physics, 31(3), 816-868. Lien externe

Tucny, J.-M., Vidal, D., Leclaire, S., & Bertrand, F. (décembre 2021). Convergence order of the Lattice Boltzmann method in rarefied regimes [Résumé]. Workshop on Controlling Error and Efficiency of Numerical Models: Methods, benchmarks, and case studies, Toronto, Ont.. Lien externe

Tucny, J.-M. (2020). Modélisation des écoulements de gaz raréfiés au travers de filtres fibreux par la méthode de Boltzmann sur réseau [Thèse de doctorat, Polytechnique Montréal]. Disponible

Tucny, J.-M., Vidal, D., Leclaire, S., & Bertrand, F. (2020). Comparison of existing and extended boundary conditions for the simulation of rarefied gas flows using the Lattice Boltzmann method. International Journal of Modern Physics C, 31(5), 2050070. Lien externe

Tucny, J.-M., Vidal, D., Drolet, F., & Bertrand, F. (2020). Impact of multilayering on the filtration performance of clean air filter media. Canadian Journal of Chemical Engineering, 98(12), 2632-2647. Lien externe

Tucny, J.-M., Vidal, D., & Bertrand, F. (octobre 2017). A New Lattice-Boltzmann Method for the Simulation of Rarefied Flows in Complex Porous Media [Présentation]. Dans 67th Canadian Chemical Engineering Conference (CSChE 2017), Edmonton, AB, Canada. Non disponible

Blais, B., Tucny, J.-M., Vidal, D., & Bertrand, F. (2015). A conservative lattice Boltzmann model for the volume-averaged Navier–Stokes equations based on a novel collision operator. Journal of Computational Physics, 294, 258-273. Disponible

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