Conclusion

My work will be reused by the enterprise’s supervisor Christophe Trophime to automatize the simulations of electromagnets.

The test case and associated documentation (present in the report) will be put on Feelpp documentation to flesh out the test cases opf CFPDEs including the method to switch to axisymmetry.

1. Conlusion of my work

In this intership, I develop and validate a method to implement the physics (Electromagnetism, Thermic and Elastic) in axisymmetrical coordinates.

I implement and validate simple cases of physics :

  • Static elasto-thermo-magnetism coupled problem in cartesian and axisymmetric

  • Transient thermo-magnetism coupled problem in cartesain and axisymmetric

2. To go further

There are still several physics to implement :

  • Transient Elastic Equation in Cartesian and Axisymmetry and the transient elasto-thermo-magnetism coupled problem

  • Use edge element to solve the A-V Formulation

  • Modelize the orthotrope matters

  • Modelize the superconductor

  • Develop a modelization of real case : an electromanget of LNCMI

  • Take into account the deformation due to the elastic problem

  • Automatic generation of cfg/json file from Computer Assisted Design with plugin HiFiMagnet Salome and Data Bases.

3. Next

I continue the internship with a two-month contract to model superconductors.