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  • COMSOL Day: Renewable Energy

    See what is possible with multiphysics modeling The transition to renewable energy sources is essential for the sustainable development of modern energy systems. To reach this goal, the components used for solar energy, wind power, energy storage, and electric grid systems must first be optimized. Organizations working on renewable energy system components — such as electric motors, generators, batteries, fuel cells, electrolyzers, and cables — increasingly rely on modeling and simulation for analysis and optimization. This COMSOL Day will showcase how multiphysics simulation is powering the next generation of renewable energy technologies through insights from industry leaders and technical presentations.

  • Webinar by Cadence: Physics-Based Foundations for Power Supply Design

      As power supplies shrink and switching speeds hit the MHz range, we can no longer treat components like black boxes. To build truly efficient hardware, we have to get back to the basics of how magnetic fields and electrons actually behave. Mastering these physical foundations is the only way to stop guessing and start building systems optimized for the real world

  • Convergent Science Webinar: Supporting the Adoption of the Hydrogen Ecosystem With CONVERGE

    Hydrogen has gained significant interest in recent years as an alternative fuel to help reduce carbon emissions from the transportation and energy sectors. However, hydrogen’s high diffusivity, lower volumetric density, very low condensation temperature, wide flammability range, and low ignition energy present a number of challenges for designing the infrastructure required to support a more widespread adoption of hydrogen. This webinar, will discuss how CONVERGE CFD can help address challenges related to hydrogen storage, transport, and safety to facilitate the use of hydrogen around the globe. Webinar will cover the models and features CONVERGE offers for accurate hydrogen simulations, including autonomous and adaptive meshing, advanced numerical schemes, detailed chemistry, and robust models for conjugate heat transfer, multi-phase flows, and fluid-structure interaction. For registration click here..

  • oorja Webinar: Virtual Battery SIL Integration: Fault Injection, Diagnostics, and System Behaviour

    Battery faults are rare, unpredictable, and difficult to test safely—yet they are the very scenarios that define the robustness of an EV or energy storage system. In this webinar, oorja unveils a breakthrough capability: a virtual battery that lives inside your SIL environment, allowing controlled, repeatable fault injection without risking hardware or safety. This digital twin behaves like a real battery pack, with chemistry-specific behavior, thermal behavior, degradation, and more. OEMs, pack manufacturers, and cell developers can now introduce faults at will, observe system-level responses, and fine-tune diagnostic, BMS, and safety algorithms with unprecedented precision. Think of it as placing a faulty battery pack inside an EV—but doing it entirely virtually. For registration click here..