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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181 to 190 of 241 Results
Subarea A1(Universität Stuttgart)
May 10, 2021
Interactive visualization of droplet dynamic processes
Subarea C1(Universität Stuttgart)
May 10, 2021
Numerical simulation of the transport processes during drop impingement onto heated walls with special consideration of the evaporating three-phase contact line
Subarea C2(Universität Stuttgart)
May 10, 2021
High resolution measurements of heat transfer during drop impingement onto a heated wall with particularly consideration of evaporation at the 3-phase contact line
Subarea A7(Universität Stuttgart)
May 10, 2021
Modeling and simulation of droplet collisions at modified ambient pressure, with high gradients in velocity or concentration and for non-miscible fluids
polygonic_npentane_drop.tar.gz
Apr 29, 2021 - Data for: Electrohydrodynamic simulation of electrically controlled droplet generation
Gzip Archive - 6.9 GB - MD5: d92f4e8de66d64b2543f886374e92a25
Computational grid: Polygonal (98468 cells)
unstructured_npentane_drop.tar.gz
Apr 29, 2021 - Data for: Electrohydrodynamic simulation of electrically controlled droplet generation
Gzip Archive - 9.3 GB - MD5: e5d876872bee132a58507a18bfb7670f
Computational grid: Unstructured (48760 cells)
Subarea A5(Universität Stuttgart)
Apr 24, 2021
Simulation of the mechanical deformation and movement of droplets under the influence of high electric fields
Documentation.pdf
Apr 15, 2021 - Data for: Measurement of species concentration and estimation of temperature in the wake of evaporating n-heptane droplets at trans-critical conditions
Adobe PDF - 200.1 KB - MD5: 2c4d7c6f8de9888490d86dd361936a51
Drop_473_473_60_Hep.mat
Apr 15, 2021 - Data for: Measurement of species concentration and estimation of temperature in the wake of evaporating n-heptane droplets at trans-critical conditions
MATLAB Data - 470.8 MB - MD5: 7bac42ad5fe8eef4b674cbc7c7d98105
Drop_513_473_60_Hep.mat
Apr 15, 2021 - Data for: Measurement of species concentration and estimation of temperature in the wake of evaporating n-heptane droplets at trans-critical conditions
MATLAB Data - 588.1 MB - MD5: 333986bc3165babb6fcd01e50c784089
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