su2code · bigfooted · Jan 20, 2026 · Jan 20, 2026
diff --git a/_tutorials/multiphysics/TFC_python/TFC_python.md b/_tutorials/multiphysics/TFC_python/TFC_python.md
@@ -27,7 +27,7 @@ In this tutorial we will touch upon the following aspects:
 
 ## Resources
 
-The resources for this tutorial can be found in the [TFC_python](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([psi.cfg](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/adiabatic/psi.cfg)) and the mesh file ([psi.su2](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/adiabatic/psi.su2)). Additionally, the Gmsh geometry is also provided so you can recreate the mesh yourself: [psi.geo](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/psi.geo). Files for the non-adiabatic case are in the folder [enthalpy](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/enthalpy) and files for the case with source term quenching and custom wall boundary conditions are in the folder [quench](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/quench)
+The resources for this tutorial can be found in the [TFC_python](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python) directory in the [tutorial repository](https://github.com/su2code/Tutorials). You will need the configuration file ([psi.cfg](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/adiabatic/psi.cfg)) and the mesh file ([psi.su2](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/adiabatic/psi.su2)). Additionally, the Gmsh geometry is also provided so you can recreate the mesh yourself: [psi.geo](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/psi.geo). Files for the non-adiabatic case are in the folder [enthalpy](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/enthalpy) and files for the case with source term quenching and custom wall boundary conditions are in the folder [quench](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/quench)
 
 
 ### Background
@@ -55,7 +55,7 @@ Note that the python wrapper (or your python setup) might need additional python
 
 The geometry of this testcase is provided as a gmsh file and matches the of the experimental setup of Griebel et al (2007), [doi](https://doi.org/10.1016/j.proci.2006.07.042).
 
-The mesh consists of a a coarse structured mesh with 16.3k cells and 16.6k points. The mesh was created using Gmsh and the configuration file to create the mesh can be found here: [psi.geo](https://github.com/su2code/Tutorials/tree/master/multiphysics/TFC_python/psi.geo). The only thing you need to do to create a mesh from the geometry is start Gmsh, and then load the .geo file. You will then see the geometry in the Gmsh visualization window. If you click on *Mesh->2D* the 2D mesh will be generated. You can then export the mesh as a .su2 file by choosing *File->Export*. The mesh will automatically be saved in su2 format when the filename has been given the extension .su2. In general, you should not choose *save all elements* because this will also save additional points that were used to construct the geometry but are not part of the final mesh, like for example the center of a circle. 
+The mesh consists of a a coarse structured mesh with 16.3k cells and 16.6k points. The mesh was created using Gmsh and the configuration file to create the mesh can be found here: [psi.geo](https://github.com/su2code/Tutorials/tree/develop/multiphysics/TFC_python/psi.geo). The only thing you need to do to create a mesh from the geometry is start Gmsh, and then load the .geo file. You will then see the geometry in the Gmsh visualization window. If you click on *Mesh->2D* the 2D mesh will be generated. You can then export the mesh as a .su2 file by choosing *File->Export*. The mesh will automatically be saved in su2 format when the filename has been given the extension .su2. In general, you should not choose *save all elements* because this will also save additional points that were used to construct the geometry but are not part of the final mesh, like for example the center of a circle. 
 
 
 ### Configuration File Options