Influence of Different Pole Head Shapes on Motor Performance in Switched Reluctance Motors

The main reasons of the vibrations occurring in the stator of Switched Reluctance Motors (SRM) are the radial forces and they cause acoustic noise. This has an adverse effect on the performance of SRM. The aim of this study is to reduce radial forces by giving different geometric shapes to the pole...

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Published in	Advances in Electrical and Computer Engineering Vol. 20; no. 3; pp. 75 - 82
Main Authors	POLAT, M., YILDIZ, A.
Format	Journal Article
Language	English
Published	Suceava Stefan cel Mare University of Suceava 01.08.2020
Subjects	Acoustic noise Acoustics Design Electric motors Finite element analysis Finite element method Inductance inductance curve Investigations Mathematical analysis Noise Permeability radial force Reluctance Ripples switched reluctance motor Torque torque ripple
Online Access	Get full text
ISSN	1582-7445 1844-7600
DOI	10.4316/AECE.2020.03009

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Abstract	The main reasons of the vibrations occurring in the stator of Switched Reluctance Motors (SRM) are the radial forces and they cause acoustic noise. This has an adverse effect on the performance of SRM. The aim of this study is to reduce radial forces by giving different geometric shapes to the pole heads and to investigate the effect of these pole shapes on the motor performance of SRM. In this study, the radial forces of four different SRMs having generally the same dimensions but different pole head shapes are calculated and compared with each other. In addition, the effects of different pole head shapes on the inductance curve and the torque ripple are investigated. To calculate the radial forces, torque and inductance values, ANSYS software is used which uses finite element method (FEM). After reshaping the pole heads, rotor position is changed with the increments of 1 degree from the unaligned to aligned position and the radial forces, torque and inductance values are calculated for each incremental position. According to the results, radial force is reduced about 19.03% at the rated current as compared to a standard SRM. However, torque ripple is observed to increase by about 3.29%. Index Terms--acoustic noise, inductance curve, radial force, switched reluctance motor, torque ripple.
AbstractList	The main reasons of the vibrations occurring in the stator of Switched Reluctance Motors (SRM) are the radial forces and they cause acoustic noise. This has an adverse effect on the performance of SRM. The aim of this study is to reduce radial forces by giving different geometric shapes to the pole heads and to investigate the effect of these pole shapes on the motor performance of SRM. In this study, the radial forces of four different SRMs having generally the same dimensions but different pole head shapes are calculated and compared with each other. In addition, the effects of different pole head shapes on the inductance curve and the torque ripple are investigated. To calculate the radial forces, torque and inductance values, ANSYS software is used which uses finite element method (FEM). After reshaping the pole heads, rotor position is changed with the increments of 1 degree from the unaligned to aligned position and the radial forces, torque and inductance values are calculated for each incremental position. According to the results, radial force is reduced about 19.03% at the rated current as compared to a standard SRM. However, torque ripple is observed to increase by about 3.29%. Index Terms--acoustic noise, inductance curve, radial force, switched reluctance motor, torque ripple. The main reasons of the vibrations occurring in the stator of Switched Reluctance Motors (SRM) are the radial forces and they cause acoustic noise. This has an adverse effect on the performance of SRM. The aim of this study is to reduce radial forces by giving different geometric shapes to the pole heads and to investigate the effect of these pole shapes on the motor performance of SRM. In this study, the radial forces of four different SRMs having generally the same dimensions but different pole head shapes are calculated and compared with each other. In addition, the effects of different pole head shapes on the inductance curve and the torque ripple are investigated. To calculate the radial forces, torque and inductance values, ANSYS software is used which uses finite element method (FEM). After reshaping the pole heads, rotor position is changed with the increments of 1 degree from the unaligned to aligned position and the radial forces, torque and inductance values are calculated for each incremental position. According to the results, radial force is reduced about 19.03% at the rated current as compared to a standard SRM. However, torque ripple is observed to increase by about 3.29%.
Audience	Academic
Author	POLAT, M. YILDIZ, A.
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Snippet	The main reasons of the vibrations occurring in the stator of Switched Reluctance Motors (SRM) are the radial forces and they cause acoustic noise. This has an...
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SubjectTerms	Acoustic noise Acoustics Design Electric motors Finite element analysis Finite element method Inductance inductance curve Investigations Mathematical analysis Noise Permeability radial force Reluctance Ripples switched reluctance motor Torque torque ripple
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Title	Influence of Different Pole Head Shapes on Motor Performance in Switched Reluctance Motors
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