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Cogging Torque Reduction of Integer Gear Ratio Axial-Flux Magnetic Gear for Wind-Power Generation Application by Using Two New Types of Pole Pieces

Boqun Dai, K. Nakamura, Y. Suzuki, Yuichi Tachiya, Kingo Kuritani

2022IEEE Transactions on Magnetics27 citationsDOI

Abstract

Flux-modulated-type magnetic gears are expected to be applied as a step-up gear for wind-power generation because of their advantages, including high torque density and maintenance-free operation. Furthermore, the flux-modulated-type magnetic gears with an axial-flux structure have attracted great attention recently since they have a smaller axial length and are relatively easy to assemble. In some cases, magnetic gears are required to have an integer gear ratio based on the design requirements of the entire system, which results in larger cogging torque in the high-speed (H-speed) rotor that causes vibration, acoustic noise, and startup error. A skewed rotor structure is well known to be capable of reducing the cogging torque; however, it is complicated and poor in assembling, especially in a large-scale axial-flux magnetic gear (AFMG) used for the wind-power generation. To resolve the above problem, this article presents two new types of pole pieces for reducing the cogging torque: one is an unequal-space type, and the other is an unequal-width type. The validity of the two newly proposed types of pole pieces is proved by both a 3-D finite-element method (3D-FEM) and experiment.

Topics & Concepts

Magnetic gearCogging torqueRotor (electric)TorqueFinite element methodMagnetic fluxVibrationNon-circular gearPower (physics)PhysicsNoise (video)Wind powerControl theory (sociology)Computer scienceMechanical engineeringMagnetic fieldAcousticsElectrical engineeringEngineeringSpiral bevel gearQuantum mechanicsArtificial intelligenceControl (management)ThermodynamicsImage (mathematics)Electric Motor Design and AnalysisMagnetic Bearings and Levitation DynamicsVibration and Dynamic Analysis