The Power Chapter WEBINAR - Multiphysics Modeling of Electrical Motors
The Power Chapter WEBINAR - Multiphysics Modeling of Electrical Motors
To reduce global warming and the associated effects, the transportation and energy sectors are adopting measures to make different applications potentially fossil free. This has led to a surge in demand for electric machines and the related design and development efforts. The designs of these electrical machines need to meet various specifications including efficiency and power-density requirements. A multiphysics-based simulation and modeling approach plays a critical role in accomplishing the design needs and significantly reducing the lead time to market. This webinar can draw more attention from energy audience to focus on the grid-interactive efficiency buildings and participate in the SBCS subcommittee and associated task forces. The presented work also provides cutting-edge research outcome for the community.
The COMSOL Multiphysics® software and its add-on modules provide the capability needed to model the multiphysics phenomena involved in electrical motors, including electromagnetics, thermal, structural mechanics, and fluid flow. The most common motor types, synchronous permanent magnet, and asynchronous motors, as well as more recently researched alternatives such as synchronous reluctance or axial flux motors, can be modeled and optimized in COMSOL Multiphysics®.
Date and Time
Location
Hosts
Registration
- Date: 31 Oct 2024
- Time: 02:00 PM to 03:00 PM
- All times are (GMT-05:00) US/Eastern
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- Co-sponsored by Richard Kolodziejczyk
- Starts 23 October 2024 12:00 AM
- Ends 31 October 2024 03:00 AM
- All times are (GMT-05:00) US/Eastern
- No Admission Charge
Speakers
Vignesh Gurusamy of COMSOL
The Power Chapter Presents a WEBINAR – Multiphysics Modeling of Electrical Motors
To reduce global warming and the associated effects, the transportation and energy sectors are adopting measures to make different applications potentially fossil free. This has led to a surge in demand for electric machines and the related design and development efforts. The designs of these electrical machines need to meet various specifications including efficiency and power-density requirements. A multiphysics-based simulation and modeling approach plays a critical role in accomplishing the design needs and significantly reducing the lead time to market. This webinar can draw more attention from energy audience to focus on the grid-interactive efficiency buildings and participate in the SBCS subcommittee and associated task forces. The presented work also provides cutting-edge research outcome for the community.
The COMSOL Multiphysics® software and its add-on modules provide the capability needed to model the multiphysics phenomena involved in electrical motors, including electromagnetics, thermal, structural mechanics, and fluid flow. The most common motor types, synchronous permanent magnet, and asynchronous motors, as well as more recently researched alternatives such as synchronous reluctance or axial flux motors, can be modeled and optimized in COMSOL Multiphysics®.
Biography:
Vignesh Gurusamy, Application Engineer, COMSOL
Address:United States