Optimized Design by Genetic Algorithm for Flux Switching Brushless Permanent Magnet Machines with Two Ports from Perspective of Losses

Shirzad, Ehsan

doi:10.21203/rs.3.rs-2898922/v1

Cited by 6 publications

(7 citation statements)

References 23 publications

(23 reference statements)

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“…If the interface is source-free, as result the parallel component of the magnetic eld intensity vector on one side of the boundary is equal to that of the other side in according to Table1. Also, the parallel component of the magnetic eld intensity vector is zero at the interface of those media adjacent to in nitely permeable domains that solving the nonlinear equations are done by Shwarz-Christoffel formula [35][36][37][38][39][40][41][42][43][44].…”

Section: Boundary Conditionsmentioning

confidence: 99%

Accurate and Fast model for single Rotor Double Stator Interior Permanent Magnet Brushless Synchronous Machine with Spoke-Type structure at no-Load

Shirzad

2023

Preprint

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In this paper a 2-dimensional model by solving partial differential equations for single Rotor Double Stator Interior Permanent Magnet Brushless Synchronous Machine with Spoke-Type structure (SRDSIPMBSMWSTS) is formulated to predict flux density in air-gaps at only no load. After extracting relations are governing in each domain (magnetic potential vector and magnetic field intensity), boundary conditions between each two domain that are in adjacent to each other are applied to determine unknown coefficients. Output results are compared to finite element analysis (FEA) yield from Maxwell software to validate this fast and accurate model.

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Section: Boundary Conditionsmentioning

confidence: 99%

Accurate and Fast model for single Rotor Double Stator Interior Permanent Magnet Brushless Synchronous Machine with Spoke-Type structure at no-Load

Shirzad

2023

Preprint

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“…Analytical subdomain model for magnetic field computation in segmented permanent magnet switched flux consequent pole machine is studied in [24]. In [25], [26], [27], [28], [29], [30], [31] the memory flux principle is extended to switched flux structures, forming two newly emerged switched flux memory machines (SFMMs) with single-stator (SS) and dual-stator (DS) configurations.…”

Section: Introductionmentioning

confidence: 99%

Calculation of Flux density in Air-Gap for Reluctance Motor with Two Ports (Double-Stator, Double- Rotor) by Fourier Series

Shirzad

2023

Preprint

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In this paper, a model based on Fourier series is presented to predict value of flux density in airgap with respect to mechanical angle for double-stator, double-rotor reluctance motor (DSDRRM). The DSDRRM is an excellent choice to be used as the electric motor in hybrid electric vehicles (HEVs) due to integrating two rotors and two stators into a compact structure and robust structure but torque ripple in this type of machines is high then special and fast model is necessary to design that proposed model can help us to have fast design. Point to point components of radial and tangential for DSDRRM are shown in figures compared between proposed model and finite element analysis (FEA) that the approach can be used for the magnetic field calculation in DSDRRM with any combination of rotor- and stator-pole number eventually, after putting analytical outputs on numerical outputs, efficacy of proposed model is validated.

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“…Yu et al [43] have proposed a double-stator flux switched permanent magnet motor (DSFSM) adopting stator-partitioned structure with double air gaps; the DSFSM is designed and verified by FEM. Yang et al [44], [45], [46], [47], [48], [49], [50] have presented a simple analytical model for switched flux memory machines to provide in-depth insight into its working mechanism..…”

Section: Introductionmentioning

confidence: 99%

Solving Partial Derivation Equations in Detail in Double- Rotor Flux Switching Permanent Magnet with H-Shape Stator Machines to Obtain Magnetic Flux Density

Shirzad

2023

Preprint

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In this paper, aim is turning double-rotor flux switching permanent magnet with H-shape stator machine (DRFSPMWHSSMs) into mathematical equations via Maxwell relations to provide a 3-quasi model for calculating flux density at arbitrary point of DRFSPMWHSSMs. Remarkable reason for opting this type of machine is 2 rotors can be energized only by integrated stator that is an obstacle against squandering core loss. Merging reluctance and permanent magnet machine into a configuration has high advantages like receiving appropriate power density in low volume of geometric structure. The model implemented in this article can be answerable for the entire distinct mentioned machine with the different number of teethes. After extracting equations, comparison between numerical method and this analytical model for efficacy of analytical model is done.

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Optimized Design by Genetic Algorithm for Flux Switching Brushless Permanent Magnet Machines with Two Ports from Perspective of Losses

Cited by 6 publications

References 23 publications

Accurate and Fast model for single Rotor Double Stator Interior Permanent Magnet Brushless Synchronous Machine with Spoke-Type structure at no-Load

Accurate and Fast model for single Rotor Double Stator Interior Permanent Magnet Brushless Synchronous Machine with Spoke-Type structure at no-Load

Calculation of Flux density in Air-Gap for Reluctance Motor with Two Ports (Double-Stator, Double- Rotor) by Fourier Series

Solving Partial Derivation Equations in Detail in Double- Rotor Flux Switching Permanent Magnet with H-Shape Stator Machines to Obtain Magnetic Flux Density

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