Collaborative Research Center Transregio 75 (SFB-TRR 75)

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.

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11 to 20 of 47 Results

Evolution of flash boiling liquid nitrogen sprays by means of high-speed shadowgraphy Feb 25, 2022 - Subarea B4 Rees, Andreas; Oschwald, Michael, 2022, "Evolution of flash boiling liquid nitrogen sprays by means of high-speed shadowgraphy", https://doi.org/10.18419/darus-2527, DaRUS, V1, UNF:6:BUGHZ4FpfRZFZVCMfMDBPA== [fileUNF] Within this test case we show the experimental data of 22 flash boiling liquid nitrogen sprays in terms of their injection conditions and their respective morphology after an injection duration of 120 ms. The latter is realized by a shadowgraph image of each spray at this time.
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...
Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms 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...
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.
Coalescence of two nanoscopic argon droplets by phase-field modeling 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...
Coalescence of two nanoscopic argon droplets by molecular dynamics simulation 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...
Videos of the Numerical Simulation of Drop Impact onto Heated Walls Jan 4, 2022 Sontheimer, Henrik; Stephan, Peter; Gambaryan-Roisman, Tatiana, 2021, "Videos of the Numerical Simulation of Drop Impact onto Heated Walls" The videos show exemplary results of the numerical simulation of the drop impact onto heated walls. Five different drop impact configurations are shown: the single drop impact, the vertical coalescence during the sessile, spreading and receding phase of the initial drop and the i... This Dataset is harvested from our partners. Clicking the link will take you directly to the archival source of the data.
Data for: Evaporation driven by conductive heat transport Nov 11, 2021 - Subarea B6 Homes, Simon; Heinen, Matthias; Vrabec, Jadran; Fischer, Johann, 2021, "Data for: Evaporation driven by conductive heat transport", https://doi.org/10.18419/darus-2230, DaRUS, V1 The present data is a digest of the simulations conducted in the scope of the related publication. The phenomena of stationary evaporation of the Lennard-Jones-truncated-shifted fluid was studied using large scale Molecular Dynamics (MD) simulations. The domain of the conducted s...
Subarea B6(Universität Stuttgart) Nov 5, 2021 Droplets under gradients of temperature and velocity by atomistic simulation
Dataset: Thermosuperrepellency of a hot substrate caused by vapour percolation Oct 12, 2021 Schmidt, Johannes Benedikt; Hofmann, Julian; Tenzer, Fabian; Breitenbach, Jan; Tropea, Cameron; Roisman, Ilia, 2020, "Dataset: Thermosuperrepellency of a hot substrate caused by vapour percolation" The authors gratefully acknowledge the Deutsche Forschungsgemeinschaft for its financial support in the framework of the Collaborative Research Center SFB-TRR 75, project number 84292822 and the Industrieverband Massivumformung e.V.. This Dataset is harvested from our partners. Clicking the link will take you directly to the archival source of the data.

Evolution of flash boiling liquid nitrogen sprays by means of high-speed shadowgraphy

Feb 25, 2022 - Subarea B4

Rees, Andreas; Oschwald, Michael, 2022, "Evolution of flash boiling liquid nitrogen sprays by means of high-speed shadowgraphy", https://doi.org/10.18419/darus-2527, DaRUS, V1, UNF:6:BUGHZ4FpfRZFZVCMfMDBPA== [fileUNF]

Within this test case we show the experimental data of 22 flash boiling liquid nitrogen sprays in terms of their injection conditions and their respective morphology after an injection duration of 120 ms. The latter is realized by a shadowgraph image of each spray at this time.

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...

Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms

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...

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.

Coalescence of two nanoscopic argon droplets by phase-field modeling

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...

Coalescence of two nanoscopic argon droplets by molecular dynamics simulation

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...

Videos of the Numerical Simulation of Drop Impact onto Heated Walls

Jan 4, 2022

Sontheimer, Henrik; Stephan, Peter; Gambaryan-Roisman, Tatiana, 2021, "Videos of the Numerical Simulation of Drop Impact onto Heated Walls"

The videos show exemplary results of the numerical simulation of the drop impact onto heated walls. Five different drop impact configurations are shown: the single drop impact, the vertical coalescence during the sessile, spreading and receding phase of the initial drop and the i...

This Dataset is harvested from our partners. Clicking the link will take you directly to the archival source of the data.

Data for: Evaporation driven by conductive heat transport

Nov 11, 2021 - Subarea B6

Homes, Simon; Heinen, Matthias; Vrabec, Jadran; Fischer, Johann, 2021, "Data for: Evaporation driven by conductive heat transport", https://doi.org/10.18419/darus-2230, DaRUS, V1

The present data is a digest of the simulations conducted in the scope of the related publication. The phenomena of stationary evaporation of the Lennard-Jones-truncated-shifted fluid was studied using large scale Molecular Dynamics (MD) simulations. The domain of the conducted s...

Subarea B6(Universität Stuttgart)

Nov 5, 2021

Droplets under gradients of temperature and velocity by atomistic simulation

Dataset: Thermosuperrepellency of a hot substrate caused by vapour percolation

Oct 12, 2021

Schmidt, Johannes Benedikt; Hofmann, Julian; Tenzer, Fabian; Breitenbach, Jan; Tropea, Cameron; Roisman, Ilia, 2020, "Dataset: Thermosuperrepellency of a hot substrate caused by vapour percolation"

The authors gratefully acknowledge the Deutsche Forschungsgemeinschaft for its financial support in the framework of the Collaborative Research Center SFB-TRR 75, project number 84292822 and the Industrieverband Massivumformung e.V..

This Dataset is harvested from our partners. Clicking the link will take you directly to the archival source of the data.

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