Combine compact thermal models with mechanical, electrical or fluid components in system simulation
Details
Heat is generated in virtually all technical processes. For example, the integration density in modern electronic systems is so high that their performance is limited by cooling. Highly integrated batteries in electric vehicles also use operation-dependent cooling. The characteristics of electrical machines are also determined by heat loss. These effects can be determined in ANSYS Mechanical using a temperature field analysis. However, the key to correctly calculating the entire system is a system simulation that combines compact thermal models with mechanical, electrical, or fluidic components.
This webinar will demonstrate the groundbreaking advantages of compact thermal models and introduce the necessary software tools and work steps.
Agenda
- Thermal simulation in ANSYS Mechanical
- Simulation at system level with compact thermal model
- Introduction in Model Reduction inside ANSYS
- Live Demo
- Examples from customers (power electronics, motors, position control for thermally induced deformations)
Target Group
This webinar is aimed at project simulation engineers who want to run transient thermal simulations more efficiently with ANSYS Mechanical or who want to study transient thermal effects in individual components or component groups within the framework of a system simulation.
Benefits
System level simulation allows us for coupling of different physical domains. You learn the most efficient way to produce an accurate compact thermal model from ANSYS Mechanical thermal model.
Lecturers
Do you have questions concerning the webinar?
Germany
Austria
Switzerland / Liechtenstein
Additional offers
The right training, hardware and software add-ons are key to achieving a successful and swift introduction to simulation