Explore advanced techniques for designing and optimizing high-performance axial flux motors tailored for EVs and industrial applications. This webinar delves into simulation-driven workflows to enhance torque, minimize losses, and boost efficiency in compact, energy-efficient motor configurations.
In this webinar, we will review common modes of electromagnetic heating, their underlying physics, and key methods for developing accurate Multiphysics models. We will present three case studies of Multiphysics models that couple electromagnetics, heat transfer, and other physics, such as fluid flow and chemical reactions.
Eddy current-based magnetic couplings are non-contact devices that utilize the interaction between induced eddy currents and magnetic fields to transmit torque between a driver and a load. Veryst employed finite element analysis (FEA) to model the intricate behavior of these couplings, optimizing their performance for efficient and smooth torque transmission.
Veryst has extensive experience in designing and developing electromagnetic heating systems, leveraging deep expertise in electromagnetics, heat transfer, and computational modeling. We provide practical recommendations to help clients design more efficient and effective thermal systems across various industries.
Join Dr. Nirmal Paudel as he explores the cutting-edge of wireless power transfer technology, enhancing efficiency and reliability across industries like electric vehicles and consumer electronics.