Design and Optimization of Magnetic Gears with Arrangement and Mechanical Constraints for Wind Turbine Applications

This article focuses on the design and optimization of magnetic and mechanical (structural) parts of magnetic gears for wind turbine applications. In particular, this design takes into account the structural aspects of magnetic gears as well as the system's mechanical constraints (deformation and stress). Geometric parameters have been optimized in order to minimize the material costs for a 3.9 MW, 15 rpm wind turbine. This optimization strategy includes both magnetostatic and mechanical stationary finite element analyses. Optimization results underscore the necessity to take mechanical constraints into account, especially for the fixed ferromagnetic pole pieces.

Keywords

magnetic gears arrangement mechanical constraints optimization finite element analysis wind turbine

Domains

Engineering Sciences [physics] Electromagnetism Engineering Sciences [physics] Mechanics [physics.med-ph] Structural mechanics [physics.class-ph]

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EVER16-015-IEEE.pdf (1.34 Mo)

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Melaine Desvaux : Connect in order to contact the contributor

https://hal.science/hal-01312302

Submitted on : Thursday, May 5, 2016-3:46:19 PM

Last modification on : Friday, March 24, 2023-2:53:02 PM

Long-term archiving on: Wednesday, May 25, 2016-3:11:19 AM

Dates and versions

hal-01312302 , version 1 (05-05-2016)

Identifiers

HAL Id : hal-01312302 , version 1

Cite

Melaine Desvaux, Roman Le Goff Latimier, Bernard Multon, Hamid Ben Ahmed, Stéphane Sire. Design and Optimization of Magnetic Gears with Arrangement and Mechanical Constraints for Wind Turbine Applications. EVER'16, Apr 2016, Monaco, Monaco. ⟨hal-01312302⟩

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