Recherche
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Numerical simulation of micro flows with moving obstacles
Communication dans un congrès -
Locally refined discrete velocity grids for stationary rarefied flow simulations
(Journal of Computational Physics. vol. 257, n° 15, pp. 572-593, 2014)Article de revue -
On the Asymptotic Preserving property of the Unified Gas Kinetic Scheme for the diffusion limit of linear kinetic models
(Journal of Computational Physics. vol. 253, n° 15, pp. 138-156, 2013)Article de revue -
Local discrete velocity grids for deterministic rarefied flow simulations
(Journal of Computational Physics. vol. 266, n° 1, pp. 22-46, 2014)Article de revue -
Uniformly stable numerical schemes for the Boltzmann equation preserving the compressible Navier–Stokes asymptotics
(Journal of Computational Physics. vol. 227, n° 8, pp. 3781-3803, 2008)Article de revue -
A Cartesian Cut Cell Method for Rarefied Flow Simulations around Moving Obstacles
(Journal of Computational Physics. vol. 314, n° 1, pp. 465-488, 2016-06-01)Article de revue -
A moving interface method for dynamic kinetic-fluid coupling
(Journal of Computational Physics. vol. 227, n° 10, pp. 1176-1208, 2007)Article de revue -
A smooth coupling transition model between kinetic and hydrodynamic equations
(Journal of Computational Physics. vol. 209, pp. 665-694, 2005)Article de revue -
Local discrete velocity grids for deterministic rarefied flow simulations
(Journal of Computational Physics. vol. 266, pp. 22-46, 2014)Article de revue -
A robust implicit-explicit acoustic-transport splitting scheme for two-phase flows
(Journal of Computational Physics, 2017)Article de revue