2023
E. Eggenweiler, J. Nickl, and I. Rybak, “Justification of generalized interface conditions for Stokes-Darcy problems“, Finite Volumes for Complex Applications X (submitted), 2023
L. Ruan, and I. Rybak, “Stokes-Brinkman-Darcy models for coupled free-flow and porous-medium systems“, Finite Volumes for Complex Applications X (submitted), 2023
P. Strohbeck, C. Riethmüller, D. Göddeke, and I. Rybak, “Robust and efficient preconditioners for Stokes-Darcy problems“, Finite Volumes for Complex Applications X (submitted), 2023
M. Wolf, and I. Rybak, “Data-driven homogenization based on neural networks for permeability estimation“, Finite Volumes for Complex Applications X (submitted), 2023
C. T. Miller, W. G. Gray, C. E. Kees, I. Rybak, and B. J. Shepherd, “Correction to: Modelling Sediment Transport in Three-Phase Surface Water Systems“, J. Hydraul. Res., 61:168--171, 2023, doi: 10.1080/00221686.2022.2107580
P. Strohbeck, E. Eggenweiler, and I. Rybak, “A modification of the Beavers-Joseph condition for arbitrary flows to the fluid-porous interface“, Transp. Porous Med. (accepted), 2023, doi: doi:10.1007/s11242-023-01919-3
2022
I. Kröker, S. Oladyshkin, and I. Rybak, “Global sensitivity analysis using multi-resolution polynomial chaos expansion for coupled Stokes-Darcy flow problems“, Comput. Geosci. (submitted), 2022, doi: 10.21203/rs.3.rs-1742793/v1
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Elissa Eggenweiler
Dr. rer. nat.Postdoctoral researcher