Note: click on the reference to access the full publication.
[1] M. Gschwend, A 3D vertex centered CENO scheme for advection, Project-Team Ecuador, INRIA Research report, RR-9415, 2021 (https://hal.inria.fr/hal-03284753/file/RR-9415.pdf)
[2] V.A. Garanzha, L.N. Kudryavtseva, Moving deforming mesh generation based on quasi-isometric functional, Lecture Notes in Computational Science and Engineering, (2020) (WoS, Scopus-Q1)
[3] P.A. Bakhvalov, T.K. Kozubskaya, On using artificial viscosity in edge-based schemes on unstructured grids, Mathematical Models and Computer Simulations, Vol. 13, No4, pp. 705-715, 2021.
[4] A.P. Duben, T.K. Kozubskaya, P.V. Rodionov, V.O. Tsvetkova, EBR schemes with curvilinear reconstructions of variables in the near-wall region, Computational Mathematics and mathematical physics, Vol. 61, No1, pp. 1-16, 2021.
[5] F. Miralles, S. Wornom, B. Koobus, A. Dervieux, Simulation of the supercritical flow around a circular cylinder using hybrid models, 33rd Nordic Seminar on Computational Mechanics, Jönköping, Sweden, 25-26 november, 2021.
[6] F. Miralles, B. Sauvage, S. Wornom, B. Koobus, A. Dervieux, Application of hybrid RANS/VMS modeling to rotating machines, Conference on Modelling Fluid Flow (CMFF'22), August 30 - September 2, 2022, Budapest, Hungary.
[7] F. Miralles, B. Sauvage, S. Wornom, F. Alauzet, B. Koobus, A. Dervieux, Simulation of massively separated flows using hybrid models and mesh adapation, Direct and Large-Eddy Simulation 13, October 26th-29th, Udine, Italy.
[8] F. Miralles, B. Sauvage, S. Wornom, B. Koobus, A. Dervieux, Assessment of turbulence hybrid models with transition modeling for the simulation of massively separated flows, 22nd IACM Computational Fluids Conference, CFC 2023, 25-28 April, Cannes, France.
[9] B. Sauvage, F. Miralles, S. Wornom, B. Koobus, F. Alauzet, A. Dervieux, Assessment of mesh adaptation algorithms for LES and DES simulation of detached flows, 22nd IACM Computational Fluids Conference, CFC 2023, 25-28 April, Cannes, France.
[10] B. Sauvage, F. Miralles, S. Wornom, B. Koobus, A. Dervieux, About mesh adaptation for hybrid flow calculation, 14th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements, ETMM14, Barcelona 6th - 8th September 2023.
[11] F. Miralles, B. Koobus, Simulation of the flow past a circular cylinder from sub-critical to super-critical Reynolds numbers using an intermittency-based hybrid model, Journal of Fluids and Structures, Volume 123, 2023, 104008. (https://doi.org/10.1016/j.jfluidstructs.2023.104008)
[12] F. Miralles, Thèse : "Simulation aérodynamique et aéroacoustique d'écoulements massivement décollés par des modèles de turbulence hybrides et de transition", université de Montpellier, novembre 2023.
[13] B. Sauvage, Thèse : "Approximation et adaptation numériques pour les écoulements en machines tournantes", université Côte d'Azur, septembre 2024.
[14] B. Sauvage, F. Alauzet, A. Dervieux, A space and time fixed point adaptation method, Journal of Computational Physics, Volume 519, 2024, 113389.
[*] A paper, "A metric-based mesh adaptation for hybrid RANS/LES flow calculations", B. Sauvage, B. Koobus, F. Alauzet, A. Dervieux, is in preparation for a submission to a peer-reviewed journal. A preprint is available
here.
[**] A paper, "Computing the flow past a cylinder : influence of models and numerics", B. Sauvage, F. Miralles, S. Wornom, B. Koobus, A. Dervieux, is in preparation for a submission to a peer-reviewed journal. A preliminary version is available
here.
