Simulation results are good and nice. However, you will have to visualize to data you get out of a simulation in OpenFOAM. These tutorials will explain, how to evaluate simulation results in OpenFOAM.

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Post-processing

• Detailed information on Paraview - In this tutorial you will get a deep understanding on the scientific postprocessing and visualization of results in Paraview. Also introduces Paraview's Catalyst

• Training material of the NanoSim project - For Lagrangian Data Visualization using ParaView checkout this tutorial. Note, this page also contains instructions to load data from the popular particle dynamics code LAMMPS/LIGGGHTS. Also, the PVReader Plugin, the LIGGGHTS reader plugin, as well as how to use math-text in Paraview annotations is provided.

Check the Archive section for more (however not fully up to date) basic tutorials.

Further reading

• The OpenFOAM user guide has a section on Function Objects that is useful to understand which post-processing can be done by OpenFOAM natively.

• The ParaView Public Wiki gives you all details related to the functionality of ParaView. Tutorias, books, etc. are linked here

• Gnuplot is a lightweight and widespread tool for preparing plots (mainly useful for x-y plots of samples/probed data from OpenFOAM output.

• Octave is an often recommended alternative to Gnuplot. It is the open-source alternative to Matlab.

• You may also want to use Python-based plotting: checkout the matplotlib, or work with Spyder