The path to adopting advanced multiphysics design practices is complicated and multifaceted.
In this blog, an electro-thermal simulation is summarized which was applied to a load break switch under steady state conditions with CO2 gas as the insulating medium. Increased temperature has adverse effects on the aging and performance of the equipment. Such numerical simulations can be applied to other power equipment, such as transformers, and extended to include establishing dielectric breakdown risk and structural integrity.
As products become more complex, capturing the interaction of individual components once packaged into a single product becomes paramount. That's why system integration and simulation is becoming more and more important.
Which simulation type is appropriate for you? In this video we will cover the different physics you can tackle within the SimScale platform and when you should select each.
Simulation engineering has undergone massive transformation and it continues to do so in the future.
As a multiphysics Computational Fluid Dynamics CFD software tool, Simcenter STAR-CCM+ offers exactly that solution to allow engineers to run high-fidelity aeroacoustic simulations, fast and yet accurately.
In order to accurately predict the performance of your product, you need to account for all of the physical phenomena that affect its real-world behavior
There are many reasons why organizations of all kinds choose to add multiphysics simulation to their R&D process. It often boils down to being able to innovate faster and at a lower financial cost. When engineering teams are looking to simulate real-world designs, devices, and processes, they need software that provides accurate results.
As engineers strive for the optimal design solution, a multiphysics approach is essential to fully capture the real-world interactions between different physical phenomena. Physical prototyping can amount to a huge investment in time and cost, meaning running analyses across multiple physics earlier in the design process is key.
Design and test electronics cooling and thermal management strategies with engineering simulation in the cloud.
In a recent panel discussion in the DE Hot Seat webcast series, Gabriel F. Dambaugh, owner and principle engineer of FEA Services; and Donald Tolle, Director of Simulation-Driven Systems Development Practice, CIMdata, discuss the rise of multiphysics simulation driving the use of simulation, the software developers' efforts to make their solvers run faster, and the pros and cons of the emerging cloud-hosted solutions.
This webinar describes OnScale’s revolutionary approach that combines state-of-the-art proprietary multiphysics solvers and cutting-edge high-performance computers on the cloud. We also describe OnScale’s unique technology and business approach, which gives users the ability to run the thousands of simulations required to fully optimize the electronics package using a flip-chip, all in a fraction of the usual time and cost.
To design products in the real world, engineers need to contend with physics in the areas of electrical, acoustics, heat, fluids and more. COMSOL is an industry-leading simulation platform that captures the richness of the real world with its multi-physics capabilities.
