1 to 6 of 6 Results
Mar 16, 2022 - Subarea A2
Hitz, Timon; Jöns, Steven; Heinen, Matthias; Vrabec, Jadran; Munz, Claus-Dieter, 2022, "Data from: Comparison of Macro- and Microscopic Solutions of the Riemann Problem II. Two-Phase Shock Tube", https://doi.org/10.18419/darus-2539, DaRUS, V1, UNF:6:KXHY7YYiRv92XPlj1dmSGg== [fileUNF]
This dataset refers to the results of a compressible sharp-interface code published in: Hitz et al. 2021 (Comparison of macro- and microscopic solutions of the Riemann problem II. Two-phase shock tube). Therein, three shock tube-like scenarios were considered in which the initial... |
Mar 3, 2022 - Subarea A7
Potyka, Johanna, 2022, "Exemplary Simulation Results for the Collision of Fully Wetting immiscible Liquids SOM5+G50", https://doi.org/10.18419/darus-2489, DaRUS, V1
Simulation results of the Collision of two droplets of the fully wetting immiscible liquids SOM5 (Silicon Oil M5) and G50 (Glycerol-Water solution 50%) produced with the in-house of the Institute of Aerospace Thermodynamics code FS3D for the final report of the SFB-TRR75. For liq... |
Feb 22, 2022 - Subarea A4
Lee, Eunsang, 2022, "Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms", https://doi.org/10.18419/darus-2235, DaRUS, V1
This tutorial is for Multi-body dissipative particle dynamics simulations of droplets of dilute polymer solution on a solvophobic surface for different droplet sizes, impact velocities and polymer-solvent attraction strengths. The simulations are performed using the self-written... |
Feb 22, 2022 - Subarea A4
Lee, Eunsang, 2022, "Rebound suppression by small amount of polymer additives: Slow hopping mechanism", https://doi.org/10.18419/darus-2234, DaRUS, V1
This tutorial is for Multi-body dissipative particle dynamics simulations of droplets of dilute polymer solution on a solvophobic surface. The simulations are performed using the self-written software DropDPD. A detailed instruction can be found in the file documentation.pdf. |
Feb 4, 2022 - Subarea B6
Hoffmann, Marco; Diewald, Felix; Langenbach, Kai, 2022, "Coalescence of two nanoscopic argon droplets by phase-field modeling", https://doi.org/10.18419/darus-2456, DaRUS, V1, UNF:6:aSSyMvbguQioQHMdsX/qhw== [fileUNF]
Coalescence of argon droplets with a radius of R=25, 50 and 100 nm was studied with computational fluid dynamics (CFD). The constitutive equations for the CFD simulations were derived from a phase-field model coupled to the Navier-Stokes equations. Therein, the thermodynamics of... |
Feb 4, 2022 - Subarea B6
Heinen, Matthias; Vrabec, Jadran, 2022, "Coalescence of two nanoscopic argon droplets by molecular dynamics simulation", https://doi.org/10.18419/darus-2434, DaRUS, V1, UNF:6:iT5PmPJDWlYYFAvkmpH6cQ== [fileUNF]
Coalescence of argon droplets with a radius of R=25, 50 and 100 nm was studied with molecular dynamics simulation. The truncated and shifted Lennard-Jones (LJTS) potential was chosen for the intermolecular interactions. Surrounded by coexisting vapor, the droplets were first equi... |