Monter d'un niveau |
Denner, F., & Schenke, S. (juin 2022). Modelling acoustic emissions of cavitation bubbles [Communication écrite]. Symposium on Cavitation meets Data Science, Göttingen, Germany. Non disponible
Denner, F., & van Wachem, B. (2022). A Unified Algorithm for Interfacial Flows with Incompressible and Compressible Fluids. Dans Zeidan, D., Zhang, L. T., Da Silva, E. G., & Merker, J. (édit.), Advances in Fluid Mechanics: Modelling and Simulations (p. 179-208). Lien externe
Denner, F., Evrard, F., & van Wachem, B. (2022). Breaching the capillary time-step constraint using a coupled VOF method with implicit surface tension. Journal of Computational Physics, 459, 111128 (14 pages). Lien externe
Denner, F., Evrard, F., Castrejón-Pita, A. A., Castrejón-Pita, J. R., & van Wachem, B. (2022). Reversal and Inversion of Capillary Jet Breakup at Large Excitation Amplitudes. Flow, Turbulence and Combustion, 108(3), 843-863. Lien externe
Denner, F., Gorges, C., Evrard, F., & van Wachem, B. (septembre 2022). Fully-coupled algorithm for viscoelastic interfacial flows [Résumé]. 4th International Conference on Numerical Methods in Multiphase Flows (ICNMMF-4), Venice, Italy (1 page). Lien externe
Gorges, C., Evrard, F., van Wachem, B., & Denner, F. (août 2022). Front tracking of surfactant-laden interfacial flows with surface viscosity [Communication écrite]. 92nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2022), Aachen, Germany. Non disponible
Gorges, C., Evrard, F., van Wachem, B., & Denner, F. (2022). Reducing volume and shape errors in front tracking by divergence-preserving velocity interpolation and parabolic fit vertex positioning. Journal of Computational Physics, 457, 111072 (25 pages). Lien externe
Gorges, C., Hodzic, A., Evrard, F., Velte, C. M., van Wachem, B., & Denner, F. (septembre 2022). Front tracking with surface normal propagation restriction [Résumé]. 4th International Conference on Numerical Methods in Multiphase Flows (ICNMMF-4), Venice, Italy (1 page). Lien externe
Schenke, S., Saha, R., & Denner, F. (mai 2022). Predicting acoustic emissions of ultrasound-driven lipid-coated microbubbles [Résumé]. 182nd Meeting of the Acoustical Society of America, Denver, CO, USA (1 page). Publié dans Journal of the Acoustical Society of America, 151(4_Suppleme). Lien externe
Schenke, S., Sewerin, F., van Wachem, B., & Denner, F. (2022). Acoustic black hole analogy to analyze nonlinear acoustic wave dynamics in accelerating flow fields. Physics of Fluids, 34(9), 097103 (14 pages). Lien externe
Schenke, S., Sewerin, F., van Wachem, B., & Denner, F. (2022). Explicit predictor–corrector method for nonlinear acoustic waves excited by a moving wave emitting boundary. Journal of Sound and Vibration, 527, 116814 (22 pages). Lien externe
Schenke, S., Sewerin, F., van Wachem, B., & Denner, F. (août 2022). Numerical prediction of acoustic wave dynamics in moving fluids and acoustic black holes [Communication écrite]. 92nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2022), Aachen, Germany. Non disponible
Schenke, S., Sewerin, F., van Wachem, B., & Denner, F. (mai 2022). Simulating acoustic waves in acoustic black hole analogues [Résumé]. 182nd Meeting of the Acoustical Society of America, Denver, CO, USA (1 page). Publié dans Journal of the Acoustical Society of America, 151(4_Suppleme). Lien externe
van Wachem, B., Chandran, A., Denner, F., & Evrard, F. Self-induced velocity disturbance correction in Euler-Lagrange simulations of dense particle-laden flows [Résumé]. 75th Annual DFD Meeting of the American Physical Society, Indianapolis, IN, USA. Lien externe
Zanutto, C. P., Evrard, F., van Wachem, B., Denner, F., & Paladino, E. E. (2022). Modeling interfacial mass transfer of highly non-ideal mixtures using an algebraic VOF method. Chemical Engineering Science, 251, 117458 (17 pages). Lien externe
Zanutto, C. P., Paladino, E. E., Evrard, F., van Wachem, B., & Denner, F. (2022). Modeling of interfacial mass transfer based on a single-field formulation and an algebraic VOF method considering non-isothermal systems and large volume changes. Chemical Engineering Science, 247, 116855 (21 pages). Lien externe