Purpose
The purpose of this paper is to simulate a magnetic gear full integrated generator (MGFIG) to apply in wind power generation.
Design/methodology/approach
A 2D finite element model of the MGFIG was built. The static magnetic torque on air-gaps was obtained by Maxwell stress tensor. In order to simulate the movement of both rotors in relation to the winding and modulators two movement bands were applied.
Findings
It was proved that the MGFIG magnetized with Halbach arrays is able to eliminate the cogging torque, improve the quality of the generated voltage waveform and decrease the core losses and permanent magnet eddy current losses.
Practical implications
The loss coefficients belonging to core material were found from the measured curves provided by an electrical manufacturer.
Originality/value
The originality of this paper is to improve the good characteristics of a MGFIG, such as a simple mechanical structure, good utilization of permanents magnet (PM) materials and lower manufacturing cost, by incorporating Halbach PMs arrays to decrease core and eddy current losses, improve the voltage waveform.
Purpose
The purpose of this paper is to simulate a pseudo direct drive (PDD) by using permanent magnet arrays.
Design/methodology/approach
A 2D finite element model of the PDD was built. The static magnetic torque on air-gaps was obtained by Coulomb’s virtual work method using Ansys Maxwell software. To simulate the relative movement between input rotor and output rotor, two movement bands were applied.
Findings
The PDD’s torque relation was proved. The PDD simulated presents low cogging torque.
Practical implications
The manufacturing steps and materials applied in a construction of a coaxial magnetic gear, PDD’s main component, are presented.
Originality/value
The value of this paper is to present the numerical techniques applied to simulate a PDD and the manufacturing steps and materials applied in a construction of a coaxial magnetic gear.
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