The fundamental understanding of droplet dynamics is the critical prerequisite to the prediction of natural processes and the optimization of technical systems. Many of these processes happen under extreme ambient conditions - e.g. high pressure or extreme temperatures - and can already be found in technical applications, despite the absence of fundamental knowledge. This is exactly where the new Collaborative Research Center focuses on. The goal is to gain a profound physical understanding of the essential processes. This understanding is the basis for new ways of analytical and numerical descriptions. Thereby, an improved prediction of large systems in nature or in technical applications shall be possible.
Featured Dataverses

In order to use this feature you must have at least one published or linked dataverse.

Publish Dataverse

Are you sure you want to publish your dataverse? Once you do so it must remain published.

Publish Dataverse

This dataverse cannot be published because the dataverse it is in has not been published.

Delete Dataverse

Are you sure you want to delete your dataverse? You cannot undelete this dataverse.

Advanced Search

21 to 30 of 47 Results
Experimentelle Untersuchungen zum Einfluss elektrischer Felder auf Tropfen mit Wandinteraktion
Apr 12, 2021 - Subarea C5
Nazemi, Mohammad Hossein, 2021, "Experimentelle Untersuchungen zum Einfluss elektrischer Felder auf Tropfen mit Wandinteraktion", https://doi.org/10.18419/darus-1782, DaRUS, V1
Die Daten liefern einen Auszug aus den im Teilprojekt C5 durchgeführten experimentellen Untersuchungen zum Einfluss elektrischer Felder auf Tropfen mit Wandinteraktion. Die Experimente zeigen die Anregung eines aufsitzenden Wassertropfens durch ein anliegendes elektrisches Feld....
Heat Transfer and Evaporation During the Impingement of a Drop Chain onto a Heated Wall - Supplementary Data
Jan 20, 2023
Sontheimer, Henrik; Gholijani, Alireza; Stephan, Peter; Gambaryan-Roisman, Tatiana, 2022, "Heat Transfer and Evaporation During the Impingement of a Drop Chain onto a Heated Wall - Supplementary Data"
Supplementary data for the journal paper "Hydrodynamics and heat transport during the vertical coalescence of multiple drops impacting successively onto a hot wall" which can be found under: https://doi.org/10.1016/j.ijheatmasstransfer.2023.123856
This Dataset is harvested from our partners. Clicking the link will take you directly to the archival source of the data.
Interface Preserving Moving Mesh (Code)
Interface Preserving Moving Mesh (Code)
Mar 8, 2023 - Projects without PN Affiliation
Alkämper, Maria; Magiera, Jim M., 2022, "Interface Preserving Moving Mesh (Code)", https://doi.org/10.18419/darus-1671, DaRUS, V2
Open source implementation in C++ for an interface preserving moving mesh in 2d and 3d using CGAL Delaunay triangulations. The time-dependent computational mesh allows for large point deformations while preserving a lower dimensional interface surface. See README.md for more info...
Rebound suppression by small amount of polymer additives: Slow hopping mechanism
Rebound suppression by small amount of polymer additives: Slow hopping mechanism
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.
Replication Data for: Constraint-aware neural networks for Riemann problems
Jan 11, 2024 - Projects without PN Affiliation
Magiera, Jim M., 2024, "Replication Data for: Constraint-aware neural networks for Riemann problems", https://doi.org/10.18419/darus-3869, DaRUS, V1
Data sets of the article "Constraint-aware neural networks for Riemann problems", consisting of training and test data sets for Riemann solutions of the cubic flux model, an isothermal two-phase model, and the Euler equations for an ideal gas. You can find detailed information in...
Spray Angles in Superheated LN2 Sprays
Spray Angles in Superheated LN2 Sprays
Feb 25, 2022 - Subarea B4
Rees, Andreas; Oschwald, Michael, 2022, "Spray Angles in Superheated LN2 Sprays", https://doi.org/10.18419/darus-2576, DaRUS, V1, UNF:6:6otWXycfd5kJb0+Qijd+UQ== [fileUNF]
Within this test case we show the experimental data of 21 flash boiling liquid nitrogen sprays in terms of their injection conditions and their respective spray opening angles after an injection duration of 120 ms. The latter is realized by post-processing shadowgraph images of e...
Subarea A - Associated(Universität Stuttgart)
May 10, 2021
Development and application of new thermodynamic models for interfaces based on classical density functional theory
Subarea A1(Universität Stuttgart)
May 10, 2021
Interactive visualization of droplet dynamic processes
Subarea A2(Universität Stuttgart)
May 10, 2021
Development of numerical methods for the simulation of compressible droplet dynamic processes under extreme conditions
Subarea A3(Universität Stuttgart)
Mar 16, 2021
Analysis and Numerics of sharp and diffuse interface models for droplet dynamics
Add Data

Log in to create a dataverse or add a dataset.

Log In
Share Dataverse

Share this dataverse on your favorite social media networks.

Link Dataverse
Reset Modifications

Are you sure you want to reset the selected metadata fields? If you do this, any customizations (hidden, required, optional) you have done will no longer appear.