Finite Element Method Based Design and Analysis of a Low Torque Ripple Double-Stator Switched Reluctance Motor

Gupta, Tripurari Das; Chaudhary, Kalpana

doi:10.2528/pierc21022001

Cited by 5 publications

(2 citation statements)

References 31 publications

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“…An electromagnetic FEA method is used to compute the acceleration, deformation, and velocity of the vibrating surface at a selected point on the outer surface of the machine. In (Gupta et al 2021), the authors investigated the mitigation of the torque ripple by varying the SRM geometric parameters based on the FEA results. In (Ganji et al 2015), a parametric electromagnetic model was developed for a Switched Reluctance Generator (SRG) with FEA, which could be considered appropriate for the accurate analysis and optimal design.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Skewing Effects on Radial Force for Different Topologies of Switched Reluctance Machines: 6/4 SRM, 8/6 SRM, and 12/8 SRM

Touati¹,

Araújo²,

Mahmoud³

et al. 2023

UPjeng

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Reducing vibration and noise in electrical machines for a given application is not an easy task, especially when the application imposes some restrictions. There are many techniques for reducing vibration based on design or on control. Switched reluctance motors (SRMs) have a double-saliency structure, which results in a radial pulsation force. Consequently, they cause vibration and acoustic noise. This paper investigates the correlation between the radial force and the skew angle of the stator and/or rotor circuits. The analysis is computed from two-dimensional (2D) transient magnetic finite-element analysis (FEA) of three machine topologies, namely the 12/8 three-phase SRM, the 6/4 three-phase SRM and the 8/6 four-phase SRM. Compared to SRM, these topologies have the same basic dimensions (stator outer diameter, rotor outer diameter, and length) and operate in the same magnetic circuit saturation. The flux linkage and torque characteristics of the different motors are presented. The radial force distributed on the stator yoke under various skewing angles is studied extensively by FEA for the three machines. It is also demonstrated the effect of skewing angles in the reduction of radial force without any reduction in torque production.

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Section: Introductionmentioning

confidence: 99%

Analysis of Skewing Effects on Radial Force for Different Topologies of Switched Reluctance Machines: 6/4 SRM, 8/6 SRM, and 12/8 SRM

Touati¹,

Araújo²,

Mahmoud³

et al. 2023

UPjeng

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“…This paper presents the design procedure of 8\6\8 DSAFSRM with a multilevel air gap and pole shoe to mitigate the torque ripple. Slot fill factor (S.F.F) is taken as 0.43 [30][31][32] and average current density taken as 12 A/sq mm. As our both stators at the outer stator are exposed to environment this could be the permissible limit for thermal consideration.…”

Section: Introductionmentioning

confidence: 99%

Design Improvements in Double-stator Axial Flux Switched Reluctance Motor for Smoother Torque Profile

Chaudhary¹,

Pokhriyal²,

Chaudhary³

2022

PIER C

Self Cite

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High torque and power generation capability of double-stator axial flux switched reluctance motor (DSAFSRM) makes it superior to conventional and segmented rotor switched reluctance motors. Despite its significant feature, the ripple in developed torque still limits the usefulness of DSAFSRM for widespread industrial application. This paper proposes an 8/6/8 pole DSAFSRM with modification in rotor pole shape to reduce torque ripples in respective model. The respective phase windings of the upper and lower stators are excited externally by preparing the circuit in Maxwell software. Each rotor tooth is constructed with two types of slots with different levels of air gap to change the inductance profile. Firstly, the design of a conventional DSAFSRM has been presented; thereafter, some geometric modifications in the rotor tooth have been suggested and investigated to obtain a lower torque ripple at 1200 rpm in the proposed DSAFSRM. The efficacy of the proposed motor is investigated through finite element method (FEM) based analysis and also by comparative analysis with other types of switched reluctance motors. It can be inferred from the simulation results that the torque ripple is significantly reduced by 55.62% in the proposed DSAFSRM compared to the conventional DSAFSRM. However, the efficiency of the proposed DSAFSRM (73.87%) is slightly less than the conventional DSAFSRM (74.65%).

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Efficiency analysis of switched reluctance motor of a wind turbine by utilizing various controlling technique

Jasim,

Jumaa,

Abdullah Albakry

2024

AIP Conference Proceedings

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Finite Element Method Based Design and Analysis of a Low Torque Ripple Double-Stator Switched Reluctance Motor

Cited by 5 publications

References 31 publications

Analysis of Skewing Effects on Radial Force for Different Topologies of Switched Reluctance Machines: 6/4 SRM, 8/6 SRM, and 12/8 SRM

Analysis of Skewing Effects on Radial Force for Different Topologies of Switched Reluctance Machines: 6/4 SRM, 8/6 SRM, and 12/8 SRM

Design Improvements in Double-stator Axial Flux Switched Reluctance Motor for Smoother Torque Profile

Efficiency analysis of switched reluctance motor of a wind turbine by utilizing various controlling technique

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