Accelerating nonlinear MEMS simulations with the harmonic balance method
See how harmonic balance is leveraged for solving nonlinear periodic problems in frequency domain for quicker, more precise results without transient analysis.
Accelerating fusion reactor design with cloud-based multiphysics simulations
See how cloud computing and modern formulations enable more efficient stellarator and HTS magnet design
Webinar key takeaways
- Overview of multiphysics simulations in fusion reactors, including recent customer results from Proxima Fusion and Atled Engineering
- Introduction and live demonstration of the thinshell method, illustrating its ability to efficiently model thin layers in complex geometries and its application in stellarator multiphysics simulations
- Dr. Nicolo Riva from Proxima Fusion sharing his experience with Quanscient Allsolve for stellarator design, showcasing real-world results and discussing broader applications in fusion research
Who is this for?
This webinar is ideal for engineers and researchers working in the fields of fusion energy, high-temperature superconductors, and magnet design.
Special guest
Dr. Nicolo Riva is a researcher in the field of applied superconductivity, working as a Magnet Engineer at Proxima Fusion. With a Ph.D. in Electrical Engineering for Applied Superconductivity at EPFL and postdoctoral experience at MIT, collaborating with Type One Energy and Commonwealth Fusion Systems (CFS), he brings a deep understanding of HTS applications in fusion. Dr. Riva is a Board Member of the HTS Modeling Workgroup and the Leader of the Improved Modeling and Advanced Computation working group within COST Action CA19108.
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