Replication Data for: Visualization of Finite-Time Separation in Multiphase Flow

<p>Collision of a droplet chain of a 50% water-glycerol solution colliding with a continuous jet of silicon oil M5, which is a combination of immiscible liquids. The collision process leads to the separation of compound droplets, i.e., the droplets are encapsulated by the jet's liquid. The Cartesian simulation grid originally had a size of 2048 x 1024 x 256 cells covering a domain of 0.704 cm x 0.352 cm x 0.088 cm. The dataset consists of 157 output time steps covering a time span of 1.872 ms. Only half of the jet and droplets were simulated with a mirror boundary condition at the z=0 plane. We reduced the size of the here published data by converting all double-precision floating-point values to single-precision and cropping the grid to regions containing fluid. This results in a grid size of 2048 x 768 x 128 cells. Finally, the data is stored in the VTK XML file format utilizing the built-in zlib compression.</p> <p>The dataset is stored as a rectilinear grid and contains the following fields:<ul> <li><strong>f3-function[-]</strong>: volume fractions of the f3-field ("droplets")</li> <li><strong>vof-function[-]</strong>: volume fractions of the f-field ("jet")</li> <li><strong>n_c_3ph[1]</strong>: PLIC normals for the f-field in three-phase cells</li> <li><strong>velocity[cm/s]</strong>: velocity-field</li> </ul></p> <p>In addition, two spatially downsampled variants of the dataset are attached. The 'ds1' directory is a downsampled variant where every eight cells were averaged to a single cell. The 'ds2' directory is downsampled the same way using the 'ds1' data.</p> <p>This simulation is a variant of the simulation initially presented in [1] using a slightly larger domain and was run on the Hawk supercomputer specifically for our paper. The specific method used in the simulation is presented in [2] and is implemented in FS3D [3].</p> <p>References:<ul> <li>[1] Potyka et al.: Towards DNS of Droplet-Jet Collisions of Immiscible Liquids with FS3D, <a href="https://doi.org/10.1007/978-3-031-46870-4_14">https://doi.org/10.1007/978-3-031-46870-4_14</a>.</li> <li>[2] Potyka and Schulte: A volume of fluid method for three dimensional direct numerical simulations of immiscible droplet collisions, <a href="https://doi.org/10.1016/j.ijmultiphaseflow.2023.104654">https://doi.org/10.1016/j.ijmultiphaseflow.2023.104654</a>.</li> <li>[3] Eisenschmidt et al., Direct Numerical Simulations for Multiphase Flows: An Overview of the Multiphase Code FS3D, <a href="https://doi.org/10.1016/j.amc.2015.05.095">https://doi.org/10.1016/j.amc.2015.05.095</a>.</li> </ul></p>