This workbench aims to help users set up and run CFD analyses within the FreeCAD modeller. It guides the user in selecting the relevant physics, specifying the material properties, generating a mesh, assigning boundary conditions and setting the solver settings before running the simulation. Best practices are chosen to maximise the stability of the solvers.

The workbench serves as a front-end to the popular OpenFOAM® CFD toolkit (www.openfoam.org, www.openfoam.com).

Disclaimer: This offering is not approved or endorsed by OpenCFD Limited, producer and distributor of the OpenFOAM software via www.openfoam.com, and owner of the OPENFOAM® and OpenCFD® trade marks

• Incompressible, laminar flow (simpleFoam, pimpleFoam)
• Incompressible free-surface flow (interFoam, multiphaseInterFoam)
• High-speed compressible flow (HiSA)
• Basic material database
• Flow initialisation with a potential solver
• Cut-cell Cartesian meshing with boundary layers (cfMesh)
• Cut-cell Cartesian meshing with porous media (snappyHexMesh)
• Tetrahedral meshing using GMSH
• Postprocessing using paraview
• Porous regions and porous baffles
• Runs on Windows 7-10 and Linux
• Unit testing
• Extension to turbulent flow using RANS (k-w SST)
• New case builder using an extensible template structure
• Macro scripting

• Conjugate heat transfer.

Any system on which FreeCAD and the prerequisites listed below can be installed.

Windows 7-10; 64-bit version is required.

Not widely tested, but possible.

The CfdOF workbench depends on the following external software, some of which can be automatically installed (see below for instructions).

• Latest release version of FreeCAD (0.18) or latest development version (0.19 prerelease)
• OpenFOAM Foundation version 4.0 or later or ESI version 1706 or later
• Paraview
• FreeCAD plot workbench
• cfMesh (customised version updated to compile with latest OpenFOAM versions)
• HiSA (High Speed Aerodynamic Solver)
• GMSH (version 2.13 or later) - optional, for generating tetrahedral meshes

The latest release or development FreeCAD build can be obtained (64 bit version) and the latest CfdOF workbench can be installed into it using the Addon manager:

• After running the installer or extracting the .7z archive to a directory , run FreeCAD in place (<FreeCAD-directory\bin\FreeCAD.exe).
• Select Tools | Addon manager ...
• Select CfdOF in the list of workbenches, and click "Install/update"
• Restart FreeCAD
• For installation of dependencies, see below.

Note: The CFD workbench can be updated at any time through the Addon manager.

Dependencies can be checked and installed conveniently from the CFD Preferences panel in FreeCAD. In the FreeCAD window, select Edit | Preferences ... and choose "CFD".

The OpenFOAM installation is via the blueCFD-Core package (version 2017-2), with which Paraview comes bundled. This can be installed manually using the above link, or by clicking the relevant button in the Preferences panel described above.

Please note that User Access Control in Windows 10 can restrict write access to the Program Files directory, which interferes with the installation of cfMesh and HiSA in blueCFD-Core. It is therefore recommended that blueCFD-Core be installed outside the Program Files folder.

Set the OpenFOAM install directory in the preferences panel to <blueCFD install directory>\OpenFOAM-5.x (It will be automatically detected in the default install location.)

Likewise, cfMesh and HiSA can be installed from the Preferences panel. They are automatically built from source inside the OpenFOAM environment if installed from the Preferences panel. Note that this is a lengthy process.

Choosing the "Check dependencies" option will verify that all prerequisites have been successfully installed.

AppImages of the latest release or development versions of FreeCAD can be downloaded and run directly without installation. Note that you will have to enable execution permission on the downloaded file to run it. The Ubuntu PPA daily build packages are an alternative binary option. Otherwise, FreeCAD can be built from the source code at https://github.com/FreeCAD/FreeCAD .

Before installing CfdOF, the Plot workbench must first be installed into FreeCAD using the Addon manager:

• Run FreeCAD
• Select Tools | Addon manager ...
• Select Plot in the list of workbenches, and click "Install/update"
• Restart FreeCAD
• Repeat the above for the "CfdOF" workbench
• For installation of dependencies, see below

Dependencies can be checked and some of them installed conveniently from the CFD Preferences panel in FreeCAD. In the FreeCAD window, select Edit | Preferences ... and choose "CFD".

However, in Linux, manual installation is required for OpenFOAM, Paraview and GMSH (optional). They should be installed using your distribution's package manager or the links above.

Set the OpenFOAM install directory in the preferences panel - typical install locations are /opt/openfoam6 or /home/user/OpenFOAM/OpenFOAM-6.x (It will be automatically detected in common default install locations.)

cfMesh and HiSA can be installed using the Preferences panel described above, and can be downloaded and built from the source code inside your OpenFOAM installation if you have not already done so yourself. Note that this is a lengthy process.

Choosing the "Check dependencies" option will verify that all prerequisites have been successfully installed.

Please discuss issues on the CfdOF dedicated FreeCAD forum. Bugs can be reported on the github project site.

Please first read the guidelines for reporting bugs in order to provide sufficient information.

It is asked that developers should only add functionality or code that is working and can be tested. Dead code, even portions included for possible future functionality, reduces function clarity and increases the maintenance overhead. Our philosophy is 'Do the basics well' and therefore robust operation takes precedence over extended functionality.

Unit testing is currently under development. Where possible, it is asked that all new functionality should be included in the unit test framework.

For consistency please follow PEP8

1. Use 4 spaces per indentation level (spaces are preferred over tabs).

2. Limit all lines to a maximum of 120 characters.

3. Break lines before binary operators.

4. Blank lines

   • Surround top-level function and class definitions with two lines.

   • Definitions inside a class are surrounded by a single line.

5. Imports should usually be on separate lines.

6. Comments

   • Docstrings always use """triple double-quotes"""

   • Block comment starts with a # and a single space and are indented to the same level as that code

   • Use inline comments sparingly. They are on the same line as a statement and should be separated by at least two spaces from the statement.

7. Avoid trailing whitespaces

8. Naming convention

   • ClassNames (Camel)
   • variable_names_without_capitals (Underscore)
   • CONSTANTS_USE_CAPITALS (Uppercase)
   • functions_without_capitals (underscore, preferred as it follows PEP8)
   • functionsWithoutCapitals (Camel instead of underscore is accepted as it is widely used within FreeCAD)
   • __class_attribute (Double leading underscore)

This development was made possible through funding from Eskom Holdings SOC Ltd and the Council for Scientific and Industrial Research (South Africa).

The code is maintained by

• Oliver Oxtoby (CSIR, 2016-2018; private 2019-) oliveroxtoby@gmail.com
• Johan Heyns (CSIR, 2016-2018) jaheyns@gmail.com
• Alfred Bogaers (CSIR, 2016-2018) alfredbogaers@gmail.com

We acknowledge significant contributions from

• Qingfeng Xia (2015) - Original framework
• Michael Hindley (2016) - Initial concept
• Klaus Sembritzki (2017) - Multiphase extension
• Thomas Schrader (2017-2018) info@schraderundschrader.de - Testing and user assistance