A dual iron-ring double-stator permanent magnet integrated with a magnetic gear for low speed power generator
Magnetic gears and magnetic geared permanent magnet (PM) machines have recently been emerging as a new class of future electromechanical machines which can address problems of low-speed power generators. A magnetic geared generator integrates a magnetic gear with a low torque, high-speed PM ge...
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| Main Author: | |
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| Format: | Thesis |
| Language: | English |
| Published: |
2018
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/71417/1/FK%202018%2092%20-%20IR.pdf http://psasir.upm.edu.my/id/eprint/71417/ |
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| Summary: | Magnetic gears and magnetic geared permanent magnet (PM) machines have recently
been emerging as a new class of future electromechanical machines which can address
problems of low-speed power generators. A magnetic geared generator integrates a
magnetic gear with a low torque, high-speed PM generator to produce a compact lowspeed,
high torque machine with the advantages of a direct drive PM machine and
magnetic gear. Although, previous low-speed PM generators designed with high
number of poles and magnetic geared generators both eliminate the use of a
mechanical gear, their power density capacity is low to generate sufficient electrical
power for low-speed applications. The proposed magnetic geared generator with high
power density due to the dual-iron ring is specifically aimed to address problems of
low-power density in low-speed power generators. A magnetically coupled
configuration structure is implemented in the generator design with dual-iron rings
and three layers of mutual PMs. This configuration enables the three PMs achieve total
flux-linkage in both outer and inner machines, therefore increasing the number of air
gaps and power density. The proposed machine operates simultaneously as a magnetic
gear and electrical power generator. A two dimensional finite element method (2D
FEM) is used to study and predict the performance characteristics of the magnetic
geared generator. A prototype of the magnetic geared generator is fabricated and
experimentally evaluated, for performance parameters such as transmission torque,
electrical power-speed characteristics and efficiency. In addition, the proposed
magnetic-geared generator is compared with previous magnetic-geared generators and
the effectiveness is verified by using power density evaluation. It is found from the
measured results that the magnetic geared PM generator with an active stack length of
30 mm, size of 150 mm and active volumetric density of 393 cm3 achieved maximum
DC power and AC power of ≈ 250 W and ≈ 360 W, respectively. The maximum torque
achieved on DC load and AC load are ≈ 12 Nm and ≈ 11 Nm respectively, with an efficiency of ≈ 55% at prime speed of 250 rpm on DC load and ≈ 52% at prime speed
of 250 rpm on AC load, with a power factor of 0.99 respectively. The magnetic geared
PM generator demonstrates overload protection by slipping at prime speed in excess
of 500 rpm. In addition, the magnetic geared PM generator was found to achieve a
measured maximum active power density of ≈ 917 kW/m3. The calculated and
measured results are in good agreement to verify the validity of the proposed magnetic
geared generator design. The proposed magnetic-geared generator has a higher power
density than the previous magnetic-geared generators. Also, the maximum electrical
power of the proposed magnetic-geared generator is sufficient for low-speed
applications. The power due to the dual-iron rings is greater than the early magneticgeared
generators. |
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