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Capillary Rise - A Computational Benchmark for Wetting Processes.

D. Gründing, M. Smuda, T. Antritter, M. Fricke, D. Rettenmaier, F. Kummer, P. Stephan, H. Marschall, and D. Bothe. CoRR, (2019)

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Univ. -Prof. Dr. -Ing. Holger Steeb University of Stuttgart

Image processing code for characterization of multiphase flow in porous mediaS. Vahid Dastjerdi, and H. Steeb. Software, (2024)Related to: Vahid Dastjerdi, S.; Karadimitriou, N.; Hassanizadeh, S. M. & Steeb, H.: Experimental evaluation of fluid connectivity in two-phase flow in porous media during drainage. Water Resources Research 58 (2022), e2022WR033451. doi: 10.1029/2022WR033451.

Image processing code for characterization of multiphase flow in porous mediaS. Vahid Dastjerdi, and H. Steeb. Software, (2024)Related to: Vahid Dastjerdi, S.; Karadimitriou, N.; Hassanizadeh, S. M. & Steeb, H.: Experimental evaluation of fluid connectivity in two-phase flow in porous media during drainage. Water Resources Research 58 (2022), e2022WR033451. doi: 10.1029/2022WR033451.Data for: Formation of common preferential two-phase displacement pathways in porous mediaS. Vahid Dastjerdi, N. Karadimitriou, and H. Steeb. Dataset, (2024)Related to: Vahid Dastjerdi, S.; Karadimitriou, N.; Hassanizadeh, S. M. & Steeb, H.: Formation of common preferential two-phase displacement pathways in porous media. Water Resources Research (Submitted Jan. 2024).Data for: Experimental Evaluation of Fluid Connectivity in Two-phase Flow in Porous MediaS. Vahid Dastjerdi, N. Karadimitriou, and H. Steeb. Dataset, (2022)Related to: Vahid Dastjerdi, S.; Karadimitriou, N.; Hassanizadeh, S. M. & Steeb, H.: Experimental evaluation of fluid connectivity in two-phase flow in porous media. Advances in Water Resources 172 (2023), 104378. doi: 10.1016/j.advwatres.2023.104378.

Dr. Holger Jakob University of Stuttgart

Holger Sauter University of Stuttgart

Dr. -Ing. Holger Röseler University of Stuttgart

Dr. Holger Dietrich University of Stuttgart

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Drop bouncing by micro-groovesV. Fink, X. Cai, A. Stroh, R. Bernard, J. Kriegseis, B. Frohnapfel, H. Marschall, and M. Wörner. International journal of heat and fluid flow, (2018)Capillary Rise - A Computational Benchmark for Wetting Processes.D. Gründing, M. Smuda, T. Antritter, M. Fricke, D. Rettenmaier, F. Kummer, P. Stephan, H. Marschall, and D. Bothe. CoRR, (2019)On suitability of phase-field and algebraic volume-of-fluid OpenFOAM® solvers for gas-liquid microfluidic applications.F. Jamshidi, H. Heimel, M. Hasert, X. Cai, O. Deutschmann, H. Marschall, and M. Wörner. Comput. Phys. Commun., (2019)Boundedness-preserving implicit correction of mesh-induced errors for VOF based heat and mass transfer.S. Hill, D. Deising, T. Acher, H. Klein, D. Bothe, and H. Marschall. J. Comput. Physics, (2018)Boundedness-Preserving Implicit Correction of Mesh-Induced Errors for VoF Based Heat and Mass Transfer.S. Hill, D. Deising, T. Acher, H. Klein, D. Bothe, and H. Marschall. CoRR, (2017)An enhanced un-split face-vertex flux-based VoF method.T. Maric, H. Marschall, and D. Bothe. J. Comput. Physics, (2018)An extended volume of fluid method and its application to single bubbles rising in a viscoelastic liquid.M. Niethammer, G. Brenn, H. Marschall, and D. Bothe. J. Comput. Physics, (2019)Chemical Reactions at Freely Ascending Single BubblesL. Böhm, D. Merker, F. Strassl, S. Herres-Pawlis, M. Oßberger, P. Klüfers, S. Schindler, J. Guhathakurta, D. Grottke, S. Simon and 13 other author(s). in: Reactive Bubbly Flows - Final Report of the DFG Priority Program 1740, Springer Nature Switzerland, (2021)