This is an academic adaptation of the LIGGGHTS software package, released by the Department of Particulate Flow Modelling at Johannes Kepler University in Linz, Austria http://www.jku.at/pfm
GNU General Public License v2.0
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Inquiry about the Validation of Wall Lubrication #14
I have conducted a simple test calculation to examine the presence of wall lubrication. The approach involved dropping a single particle and allowing it to collide with the wall, followed by observing the distance it rebounded. I performed this validation by comparing the results at a viscosity of 1 Pa·s and 0 Pa·s. Surprisingly, both scenarios yielded identical outcomes.
I am uncertain whether there is an issue with my program or if the source code might be at fault.
Below, I have attached the relevant segment of my code for reference.
Any insights or guidance on this matter would be greatly appreciated.
I have conducted a simple test calculation to examine the presence of wall lubrication. The approach involved dropping a single particle and allowing it to collide with the wall, followed by observing the distance it rebounded. I performed this validation by comparing the results at a viscosity of 1 Pa·s and 0 Pa·s. Surprisingly, both scenarios yielded identical outcomes.
I am uncertain whether there is an issue with my program or if the source code might be at fault. Below, I have attached the relevant segment of my code for reference.
Any insights or guidance on this matter would be greatly appreciated.
Thank you