Wittenstein Breaks New Ground in Designing Cooling Concepts for Electric Motors

The combination of an extremely fast graphics processing unit (GPU) solver, powerful geometry modeling capabilities, and systematic parametric design studies accelerates development of cooling designs for electric motors. With support of Ansys’ channel partner CADFEM, Wittenstein leveraged Ansys Discovery, Ansys optiSLang, and Ansys Fluent to develop cooling systems more efficiently.

Challenges

General requirements for the development of electric machines pose a major challenge for designing cooling concepts. High performance and a wide temperature range combined with the need for small installation space make highly integrated cooling designs indispensable. Simulation helps ensure heat dissipation and thermal integrity during development. However, a conjugate heat transfer simulation with conventional tools is computationally time consuming. Because of the time required, this simulation type is rarely used for optimization, in which hundreds of variants are calculated. With hard-to-achieve requirements, it is therefore impossible to ensure that a good design can be found in sufficient time.

Engineering Solution

• Conjugate heat transfer (CHT) simulation is used to analyze the thermal interaction between fluid and structure. With Discovery’s live GPU solver, different cooling concepts can be investigated and compared in the early design phase.
• Discovery’s geometry modeling capabilities are not only limited to quick geometry modification, but also include a Python scripting feature. This has been used by Wittenstein's long-standing partner for Ansys, CADFEM, to automate geometry creation, simulation setup, and post-processing, which enables Wittenstein engineers nearly limitless geometry variation in a robust, fast, and flexible manner. The script covers a large variation range that is controlled by 14 parameters.
• Parametric design studies are leveraged to understand the design by investigating parameters and their effect on the results. This helps systematically optimize for minimum system temperature in compliance with pressure loss requirements.
• Optimizing with several hundred design variants can be completed in a short amount of time because the Discovery Live solver only needs minutes instead of days per variant. The best design is validated with flagship CFD solver, Fluent.