Analytical Modeling for Optimal Rotor Shape to Design Highly Efficient Line-Start Permanent Magnet Synchronous Motor

Waheed, Abdul; Ro, Jong‐Suk

doi:10.1109/access.2020.3014718

Cited by 16 publications

(10 citation statements)

References 54 publications

(179 reference statements)

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“…However, the accuracy of the FEA comes at the cost of a high computational burden, thus limiting the use of such tool for the design and optimization [4]- [6]. On the other hand, the popular single-phase equivalent circuit of SCIMs [7] or sizing approaches based on lumped parameter magnetic circuits [8], [9] can only be used for the analysis of steady-state conditions or slowly evolving transient. The mid-complexity analytical modelling presented in [10]- [12] allows to describe the behavior of any electro-magneto-mechanical device by means of a lumped-parameters analysis based on state variables.…”

Section: Introductionmentioning

confidence: 99%

Modelling, Analysis, and Design of a Line-Start Permanent Magnet Synchronous Motor

Vannini

Simonelli

Marfoli

et al. 2022

2022 International Conference on Electrical Machines (ICEM)

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Line-Start Permanent Magnet Motors are a valid alternative to conventional three-phase induction motors and wound-field synchronous machines for fixed-speed applications direct fed by the grid, targeting superior efficiency and high reliability. A general analytical-numerical approach is presented to model SPM type rotors with embedded squirrel cage, aiming to permit completing both a preliminary design and an effective assessment of the starting and synchronisation capabilities. As a case study, the preliminary design of a 8 MW @ 3000 rpm LSPMSM for large compressors is presented, targeting unity power factor as well as low current THD. The electromagnetic design of the machine is validated by means of a Finite Element (FE) model developed on purpose.

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Section: Introductionmentioning

confidence: 99%

Modelling, Analysis, and Design of a Line-Start Permanent Magnet Synchronous Motor

Vannini

Simonelli

Marfoli

et al. 2022

2022 International Conference on Electrical Machines (ICEM)

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“…These latter have been formulated in several forms depending on the considered assumptions and the features under investigations, yielding a simplicityaccuracy tradeoff. For instance, a simple MEC model can be established assuming infinite length machines and infinite iron permeability [34], [35]. However, more representative MECs could be derived by discarding the previous assumptions.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Effects of the Pole Shoe Geometry on the IPM T-LSM Features: Application to Free Piston Engines

Souissi

Abdennadher²,

Masmoudi³

2022

IEEE Access

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The paper is aimed at an analytical approach dedicated to the investigation of the effects of the pole shoe geometry on the no-load flux features of inner permanent magnet tubular-linear synchronous machines (IPM T-LSMs). It considers the most common geometries: (i) rectangular pole shoes, and (ii) trapezoidal pole shoes. The proposed approach combines two analytical models which are the magnetic equivalent circuit (MEC) and the permeance function. First, a basic MEC of an elementary part of the machine is considered to predict a preliminary air gap flux density trapezoidal waveform. Then, the accuracy of the proposed approach is enhanced by the incorporation of a mover permeance function that accounts for the PM spoke-type arrangement. The proposed approach is applied to the investigation of the impact of the mover pole shoe shape on the air gap flux density. The developed pole shoe sizing procedure makes it possible the selection of an IPM T-LSM with an appropriate mover geometry for which an investigation of the no-and on-load features is carried out by finite element analysis. The prototyping of the selected topology enables the experimental validation of the back-EMF and the load characteristic.INDEX TERMS Tubular-linear synchronous machines, inner permanent magnets, mover pole shoes, magnetic equivalent circuit, mover permeance function, no-load air gap flux density, back-EMF, cogging force, finite element analysis.

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“…This may be due to the fact that the motor is quite difficult to manufacture. The typical rotor of an LSPM is composed of small rotor slots with one layer of buried PMs [4][5][6][7]. In contrast, a LS-SynRM utilizes rotor slots as part of a flux barrier, such that the regular rotor slot shapes of IMs are generally not feasible for use in this motor.…”

Section: Introductionmentioning

confidence: 99%

FE-Aided Synchronization Analysis of Line-Start Synchronous Reluctance Motors

et al. 2021

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Since line-start synchronous permanent magnet motors (LSPMs) entered the market, they have attracted research interest toward counterpart induction motors of low power-ratings. This paper reports an investigation of line-start synchronous reluctance motors (LS-SynRMs). LS-SynRMs has not been investigated as much as LSPMs have. A motor needs to maximize rotor saliency to achieve high efficiency and a high power-factor. This results in complicated rotor geometry because the rotor cage and multiple flux barriers share the same rotor space. This paper provides an approximate method based on steady state torque analysis by which to estimate the critical inertia of a LS-SynRM. A finite element analysis (FEA)-aided analytical approach to the approximation of steady state torque is proposed to replace the more typical approach based on equivalent circuit parameters. The critical inertia resulting from the proposed method is compared to the results obtained using the FEA.

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Analytical Modeling for Optimal Rotor Shape to Design Highly Efficient Line-Start Permanent Magnet Synchronous Motor

Cited by 16 publications

References 54 publications

Modelling, Analysis, and Design of a Line-Start Permanent Magnet Synchronous Motor

Modelling, Analysis, and Design of a Line-Start Permanent Magnet Synchronous Motor

Investigation of the Effects of the Pole Shoe Geometry on the IPM T-LSM Features: Application to Free Piston Engines

FE-Aided Synchronization Analysis of Line-Start Synchronous Reluctance Motors

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