Finite Element Analysis of a Permanent Magnet Machine with Two Contra-rotating Rotors

Ranlöf, Martin; Lundin, Urban

doi:10.1080/15325000903055271

Cited by 14 publications

(7 citation statements)

References 15 publications

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“…Where, m 1 is number of phases of each stator, m is number of phases of the machine, K p is termed the electrical power waveform factor, K e is the EMF factor which incorporates the winding distribution factor K w and the per unit portion of the total air gap area spanned by the salient poles of the machine (if any), K i is the current waveform factor, A is the electrical loading, ɳ is machine efficiency, N ph is the number of turn per phase, B g is the flux density in the air gap, f is the converter frequency, p is the machine pole pairs, λ is the diameter ratio for AFPG defined as D i /D o , D o is the diameter of the machine outer surface, D i is the diameter of the machine inner surface [1,[3][4][5][6].…”

Section: Sizing Equation Of Afpgsmentioning

confidence: 99%

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Untitled

2011

IJCSEA

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There are two topologies for slotted double-sided axial flux permanent magnet generator (AFPG). Choosing an AFPG with high power density is an important parameter in applications. Hence, power density Evaluation between double-sided AFPM generators topologies is necessary. In this paper, the sizing equations of axial flux slotted one-stator-two-rotor (TORUS) and two-stator-one-rotor (AFIR) type PM generators is presented and comparison of the TORUS and AFIR topologies in terms of power density is illustrated. Finally a high power double-sided AFPG is introduced in the paper.

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Section: Sizing Equation Of Afpgsmentioning

confidence: 99%

“…Selecting double-sided AFPGs with high power density is an important parameter. So, comparison of power density between different topologies of double-sided AFPGs seems to be necessary [1,3,[6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Untitled

2011

IJCSEA

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“…In conventional machines, the air gap flux density has normally radial direction; in AFPGs, the air gap flux density presents mainly axial direction. In general, AFPGs exhibit an axial length much smaller than the length of a conventional generator of the same rating [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Power Density for Three Phase Double-Sided Axial Flux Slotted PM Generator

Gholamian

2011

IJCSEA

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“…Hence, this paper presents an investigation into the characteristics of the back-EMF and torque production of the axial-flux PMSM with contra-rotating rotors under unbalanced load. Related research can only be found in [15]- [16], which investigated a radial-flux PMSM with contra-rotating rotors and analyzed the mutual effects of the two rotors through the common stator based on 2-D FEA (finite element analysis). The results suggested that the peak value of the back-EMF in the stator winding is related to the relative position of the two rotors.…”

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confidence: 99%

Characteristics of an axial-flux permanent magnet synchronous machine with contra-rotating rotors under unbalanced load condition from 3-D finite element analysis

Zhong

Huang

Luo

et al. 2018

Trans. Electr. Mach. Syst.

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During recent years, the axial-flus PMSM with contra-rotating rotors has become a hot topic in academic research due to its high efficiency and simple structure. However, its back-EMF may be distorted under the condition of different angular positions. This paper investigates characteristics of the novel motor used for contra-propeller driving. Considering the torque ripple and current oscillation under unbalanced load condition, this paper analyzes the distorted back-EMF of the machine when its two rotors get different angular positions during rotating. The analysis results are validated by transient-magnetic 3-D FEA method, which the 3-D FEA software is used to model this motor and transient simulations are carried out to obtain its magnetic characteristic and main performances. A main focus is put on the back-EMF characteristic with different angular positions between the two rotors. Furthermore, the characteristic of torque production under unbalanced load is investigated. Finally, a prototype motor is fabricated to validate the analyses of this paper. Index Terms-3-D finite element analysis (FEM), back electromagnetic force (back-EMF), contra-rotating rotors, permanent magnet machines. I. INTRODUCTIONONTRA-ROTATING propellers (CRP) comprise two propellers settled coaxially and operated in an opposite direction. When used for ship propulsion, the CRP can recover energy from the circumferential flow of its main propeller. It has been demonstrated that the efficiency of the system can be raised up 15% [1] when a CRP is installed. Moreover, the CRP

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Finite Element Analysis of a Permanent Magnet Machine with Two Contra-rotating Rotors

Cited by 14 publications

References 15 publications

Untitled

Untitled

Evaluation of Power Density for Three Phase Double-Sided Axial Flux Slotted PM Generator

Characteristics of an axial-flux permanent magnet synchronous machine with contra-rotating rotors under unbalanced load condition from 3-D finite element analysis

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