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 cover the interaction between mixing and chemical reactions, which is of vital importance to many industrial applications. Our goal is to help engineers better understand the fundamentals of mixing, reactions, and their interaction to improve process and system performance. We’ll also discuss and present examples of methods available for computational modeling of chemical reactions in the presence of mixing.
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.
Reconstituting freeze-dried drug products in autoinjectors requires rapid and uniform dissolution to ensure accurate dosing and patient safety. Veryst used multiphysics simulation to model the mixing and dissolution process, revealing how factors like particle size, concentration, and viscosity impact reconstitution speed—guiding the optimization of the device, formulation, and operating protocols.
A cornerstone for ophthalmic therapy, intravitreal injection must overcome unique challenges: ensuring patient comfort, safeguarding delicate retinal tissues, and delivering medication accurately to specific intraocular targets. Key design metrics—including injectate volume, dispersion, injection force, needle gauge, and intraocular pressure rise—must be precisely optimized. In this case study, Veryst leverages multiphysics CFD simulation to predict, manage, and enhance device safety and performance for innovative ocular drug delivery.
A leading route for targeted drug therapy, subcutaneous injection faces complex challenges: ensuring patient comfort, usability, convenience, and precise dose administration. Critical design factors—injectate volume, viscosity, needle size, and injection time—must be optimized. In this case study, Veryst leverages multiphysics CFD simulation to predict and enhance performance metrics for advanced combination product development.
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.
Veryst Engineering is featured in a recent article in Machine Design by Rehana Begg called “COMSOL 2025 Highlights Real-World Multiphysics Applications”.
Join Dr. Nikolaos Vasios on October 21 2025, as he discusses modeling of soft actuators and soft devices, exploring the nonlinear relationship between input stimulus and actuator functionality.
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.