EXP 1-4 Measurement Data and Results: Difference between revisions
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[[File:TRR150-Fig-Grid-Resolution.png|850px|thumb|center|Fig. 6: Initial phase distribution with magnified views of the diffuse interface for different grid resolutions employed in numerical simulations.]] | [[File:TRR150-Fig-Grid-Resolution.png|850px|thumb|center|Fig. 6: Initial phase distribution with magnified views of the diffuse interface for different grid resolutions employed in numerical simulations.]] | ||
Fig. 7 shows a comparison of the experimental results for the three crown dimensions with numerical results obtained for the two surface tension models and different grid resolution. | |||
Revision as of 12:48, 31 July 2023
Axisymmetric drop impact dynamics on a wall film of the same liquid
Measurement data/results
Excel files with experimental results for moderate and high impact velocity are available for download through the website https://tudatalib.ulb.tu-darmstadt.de/handle/tudatalib/3295 or via the following doi: https://doi.org/10.48328/tudatalib-722. Besides the experimental results, the Excel files also include results of numerical simulations with a phase-field method. In the numerical simulations, two different models for the surface tension force (equilibrium/relaxation) are employed in combination with different spatial resolutions. The latter is quantified by the number of mesh cells Nc used to resolve the diffuse interface as illustrated in Fig. 6.
Fig. 7 shows a comparison of the experimental results for the three crown dimensions with numerical results obtained for the two surface tension models and different grid resolution.
A more detailed discussion on the experimental and numerical results is given in the following publication:
M. Bagheri, B. Stumpf, I.V. Roisman, C. Tropea, J. Hussong, M. Wörner, H. Marschall, Interfacial relaxation – Crucial for phase-field methods to capture low to high energy drop-film impacts, Int. J. Heat Fluid Flow 94 (2022) 108943, https://doi.org/10.1016/j.ijheatfluidflow.2022.108943
Contributed by: Milad Bagheri, Bastian Stumpf, Ilia V. Roisman, Cameron Tropea, Jeanette Hussong, Martin Wörner, Holger Marschall — Technical University of Darmstadt and Karlsruhe Institute of Technology
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