Ansys Thermal Desktop: Electronics Cooling, Automotive, and Refrigeration - Part 2
Overview
Concept-stage design and reliability evaluations of thermo-hydraulic systems require a fast simulation tool to provide insight into several ideas and design variations.
Ansys Thermal Desktop offers unique capabilities for quickly analyzing and sizing such systems and components by leveraging its hybrid modeling approach of 1D fluid elements with thermal geometries of any fidelity, including 3D. This approach provides an advantage in quickly simulating long thermal and fluid transients with reduced computational overhead, outperforming traditional 3D CFD software. It employs novel methods to model the two-phase systems. The ability for user customization further enhances its applications for unique systems. These capabilities assist in fast progression from an early conceptual design to a more mature configuration before detailed CFD simulations. Further, the Ansys Multiphysics portfolio blends seamlessly with Ansys Thermal Desktop to handle complex CAD geometries, intricate flow phenomena, thermo-structural investigations, satellite orbital modeling, and comprehensive design optimization.
This webinar is the second part in a two-part series covering Ansys Thermal Desktop applications for electronics, automotive, and refrigeration systems, with thermo-fluid loops and two-phase flow interactions.
What attendees will learn
- Introduction to fast thermo-fluid solvers
- Electronics Cooling
- Automotive applications
- Refrigeration systems
Who should attend
Design, Testing & QA Engineers, space-based start-up founders and engineers, Thermal Simulation Engineers, and CFD Engineers
Speakers
- Tejas Jeurkar
- Keerthi Raj Kunniyoor