Numerical Data: Numerical investigation of model incompatibilities in contact line evaporation
Beschreibung
Raw numerical data produced for the publication:
Resolution of model contradicitions in contact line evaporation through interfacial slip
The dataset contains the results of the conducted simulations, arranged in a BoSSS database (SlipConvergenceDatabase.zip).
The naming scheme of the contained simulations follows the case classification from the paper:
Stage[numStage]_SlipDropletOnWall_meshStudy_[numCells]_P[pDeg]_CA[cAngle]_SL[lSlip]_ST[surfT]_HV[hVap]
numStage: number of "stage", 1,2, or 3
numCells: number of cells in the grid (n x n), 4, 8, 16, 32, 64 or 128
pDeg: polynomial degree of the velocity field, 2, 3 or 4
cAngle: contact angle, 80.00 or 90.00
lSlip: slip length, 0.00, 0.10 or Infinity
surfT: surface tension, 0.00 or 0.10
hVap: enthalpy of evaporation, 1000.00 or -Infinity (turns of evaporation in the solver)
Additionally, .plt files of the simulations are available directly, These can be opened VisIt or Paraview. The archive contains a folder for each combination of physical settings. Within they are sorted by polynomial degree and finally each folder contains the results for the different meshes for that specific test case.
At last, pictures of the velocity, pressure and temperature fields are available for a few representative cases.
The BoSSS code is open source and available e.g. at https://zenodo.org/doi/10.5281/zenodo.8386633
Resolution of model contradicitions in contact line evaporation through interfacial slip
The dataset contains the results of the conducted simulations, arranged in a BoSSS database (SlipConvergenceDatabase.zip).
The naming scheme of the contained simulations follows the case classification from the paper:
Stage[numStage]_SlipDropletOnWall_meshStudy_[numCells]_P[pDeg]_CA[cAngle]_SL[lSlip]_ST[surfT]_HV[hVap]
numStage: number of "stage", 1,2, or 3
numCells: number of cells in the grid (n x n), 4, 8, 16, 32, 64 or 128
pDeg: polynomial degree of the velocity field, 2, 3 or 4
cAngle: contact angle, 80.00 or 90.00
lSlip: slip length, 0.00, 0.10 or Infinity
surfT: surface tension, 0.00 or 0.10
hVap: enthalpy of evaporation, 1000.00 or -Infinity (turns of evaporation in the solver)
Additionally, .plt files of the simulations are available directly, These can be opened VisIt or Paraview. The archive contains a folder for each combination of physical settings. Within they are sorted by polynomial degree and finally each folder contains the results for the different meshes for that specific test case.
At last, pictures of the velocity, pressure and temperature fields are available for a few representative cases.
The BoSSS code is open source and available e.g. at https://zenodo.org/doi/10.5281/zenodo.8386633
DFG-Fächer
4.22-03 StrömungsmechanikURI
https://tudatalib.ulb.tu-darmstadt.de/handle/tudatalib/4331.2https://doi.org/10.48328/tudatalib-1534.2
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