Multiphysics Studies
Simulations and Calculations Required for Multiphysics Studies
Strongly-Coupled Multiphysics Simulations
In our particle accelerator applications, thermal, mechanical, fluid-dynamic, and electromagnetic problems are often strongly coupled.
For finite element simulations, we usually adopt COMSOL for this type of strongly coupled analyses.
EXAMPLES OF CALCULATIONS
Crab Cavities: Fundamental Power Coupler (FPC)
- An FPC brings power to RF cavities. During operation, it is subjected to temperature increases due to the Joule effect.
- The temperature variation depends on both the spatial distribution and the electrical resistivity, which itself is a function of temperature.
- Need of an electro-thermal strongly coupled simulation to design the equipment.
HL-LHC Collimators: Evaluation of thermal performance of bolted/brazed interfaces
In thermomechanical problems, one key parameter is the thermal conductance (TCC) at the contacts between different bodies, which is difficult to measure and estimate.
For HL-LHC collimators, this problem is addressed using coupled thermal, fluid-dynamic, and structural simulations aimed at reproducing:
FIND OUT MORE
Keen to learn more about our activities?
Find out what the Engineering Unit can do for you.