Advanced Multiphysics Simulation with AC/DC Module
This project showcases a comprehensive simulation of an electromechanical system using the AC/DC Module in COMSOL Multiphysics. It focuses on analyzing and optimizing electromagnetic, thermal, and structural behaviors within electric motor components.
Core capabilities included in the AC/DC Module:
🔥 Induction heating
⚡ Joule and resistive heating
🧲 Electromagnetic force and torque-induced deformation
🌊 Lorentz force effects in solids and fluids
Extended analysis available through additional modules:
🌡️ Heat radiation and thermal contact resistance
🧬 Bioheating and tissue ablation
⚖️ Electrostatic deformation and piezoelectric/piezoresistive effects
🌀 Electrostriction and magnetostriction
🔋 Thermoelectric and plasma effects (inductive and capacitive)
🧪 Charged particle tracing and dielectrophoresis
📈 Multiphysics optimization for high-performance design
This multiphysics approach allows engineers to simulate complex interactions in electrical devices with high fidelity—ideal for applications in motor design, sensors, biomedical devices, and energy systems.