Collaborative Research Center Transregio 75 (SFB-TRR 75)

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81 to 90 of 252 Results

simulations.tar.gz Feb 22, 2022 - Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms Gzip Archive - 1.3 GB - MD5: d1be9bb56c127652c150b9f538d96935
softwares.tar.gz Feb 22, 2022 - Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms Gzip Archive - 11.2 MB - MD5: b8b2638710e7c3553e39b60c73a3f153
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.
documentation.pdf Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism Adobe PDF - 116.4 KB - MD5: 9ef39c80282ec303049c37e5ed3630f3
figures.tar.gz Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism Gzip Archive - 230.3 KB - MD5: 0d04c33325ac135ced83a67e848894ed
pydroptools.tar.gz Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism Gzip Archive - 6.0 KB - MD5: ccb488b9d427a27c9ca0bd8651d09bee pre- / post-processing scripts
simulations.tar.gz Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism Gzip Archive - 212.9 MB - MD5: b4d654284a36fe02398ce58c7cd685cc simulation input files
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 the fluid were incorporated by an equation of state for the Lennard-Jo...
coal_contour_sequence.py Feb 4, 2022 - Coalescence of two nanoscopic argon droplets by phase-field modeling Python Source Code - 2.2 KB - MD5: 3133376c8f6301379487545e13ca52e1 Simple python script to plot coalescing droplets contours from .csv files and save them as .pdf files. Additionally, a sequence of all contours is created by merging the *.pdf files to a single file.
early.tar.xz Feb 4, 2022 - Coalescence of two nanoscopic argon droplets by phase-field modeling XZ Archive - 1.9 MB - MD5: d2226dfa3973d65715fc0aff5abb13e3 Archive containing interface contours of the "early" stages of the droplet coalescence process as .csv files with fine time resolution. One .csv file contains the data for a single interface contour described by the spatial coordinates x [nm] and r [nm] at the time instance t [ps] indicated by the time stamp in the file name, e.g.: *_t000000100.c...

simulations.tar.gz

Feb 22, 2022 - Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms

Gzip Archive - 1.3 GB -

softwares.tar.gz

Feb 22, 2022 - Data for: Suppressing the rebound of impacting droplets from solvophobic surfaces by polymer additives: polymer adsorption and molecular mechanisms

Gzip Archive - 11.2 MB -

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.

documentation.pdf

Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism

Adobe PDF - 116.4 KB -

figures.tar.gz

Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism

Gzip Archive - 230.3 KB -

pydroptools.tar.gz

Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism

Gzip Archive - 6.0 KB -

pre- / post-processing scripts

simulations.tar.gz

Feb 22, 2022 - Rebound suppression by small amount of polymer additives: Slow hopping mechanism

Gzip Archive - 212.9 MB -

simulation input files

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 the fluid were incorporated by an equation of state for the Lennard-Jo...

coal_contour_sequence.py

Feb 4, 2022 - Coalescence of two nanoscopic argon droplets by phase-field modeling

Python Source Code - 2.2 KB -

Simple python script to plot coalescing droplets contours from *.csv files and save them as *.pdf files. Additionally, a sequence of all contours is created by merging the *.pdf files to a single file.

early.tar.xz

Feb 4, 2022 - Coalescence of two nanoscopic argon droplets by phase-field modeling

XZ Archive - 1.9 MB -

Archive containing interface contours of the "early" stages of the droplet coalescence process as *.csv files with fine time resolution. One *.csv file contains the data for a single interface contour described by the spatial coordinates x [nm] and r [nm] at the time instance t [ps] indicated by the time stamp in the file name, e.g.: *_t000000100.c...

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