Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation

Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation

This paper presents a two-dimensional (2D) exact subdomain technique in polar coordinates considering the iron relative permeability in 6/4 switched reluctance machines (SRM) supplied by sinusoidal waveform of current (aka, variable flux reluctance machines). In non-periodic regions (e.g., rotor and...

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Main Authors: Mohammed Ben Yahia, Kamel Boughrara, Frédéric Dubas, Lazhar Roubache, Rachid Ibtiouen
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Mathematical and Computational Applications
Subjects:
2D
electromagnetic performances
finite iron relative permeability
numerical
sinusoidal current excitation
subdomain technique
switched reluctance machine
Online Access:http://www.mdpi.com/2297-8747/23/4/59
id doaj-ec16e068f53445eb83fe81a1fcdcc52b
record_format Article
spelling doaj-ec16e068f53445eb83fe81a1fcdcc52b2020-11-25T01:32:41ZengMDPI AGMathematical and Computational Applications2297-87472018-10-012345910.3390/mca23040059mca23040059Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current ExcitationMohammed Ben Yahia0Kamel Boughrara1Frédéric Dubas2Lazhar Roubache3Rachid Ibtiouen4Laboratoire de Recherche en Electrotechnique, Ecole Nationale Polytechnique, 16200 Algiers, AlgeriaLaboratoire de Recherche en Electrotechnique, Ecole Nationale Polytechnique, 16200 Algiers, AlgeriaDépartement ENERGIE, FEMTO-ST, CNRS, Univ. Bourgogne Franche-Comté, F90000 Belfort, FranceLaboratoire de Recherche en Electrotechnique, Ecole Nationale Polytechnique, 16200 Algiers, AlgeriaLaboratoire de Recherche en Electrotechnique, Ecole Nationale Polytechnique, 16200 Algiers, AlgeriaThis paper presents a two-dimensional (2D) exact subdomain technique in polar coordinates considering the iron relative permeability in 6/4 switched reluctance machines (SRM) supplied by sinusoidal waveform of current (aka, variable flux reluctance machines). In non-periodic regions (e.g., rotor and/or stator slots/teeth), magnetostatic Maxwell’s equations are solved considering non-homogeneous Neumann boundary conditions (BCs). The general solutions of magnetic vector potential in all subdomains are obtained by applying the interface conditions (ICs) in both directions (i.e., r- and θ-edges ICs). The global saturation effect is taken into account, with a constant magnetic permeability corresponding to the linear zone of the nonlinear B(H) curve. In this investigation, the magnetic flux density distribution inside the electrical machine, the static/dynamic electromagnetic torques, the magnetic flux linkage, the self-/mutual inductances, the magnetic pressures, and the unbalanced magnetic forces (UMFs) have been calculated for 6/4 SRM with two various non-overlapping (or concentrated) windings. One of the case studies is a M1 with a non-overlapping all teeth wound winding (double-layer winding with left and right layer) and the other is a M2 with a non-overlapping alternate teeth wound winding (single-layer winding). It is important to note that the developed semi-analytical model based on the 2D exact subdomain technique is also valid for any number of slot/pole combinations and for non-overlapping teeth wound windings with a single/double layer. Finally, the semi-analytical results have been performed for different values of iron core relative permeability (viz., 100 and 800), and compared with those obtained by the 2D finite-element method (FEM). The comparisons with FEM show good results for the proposed approach.http://www.mdpi.com/2297-8747/23/4/592Delectromagnetic performancesfinite iron relative permeabilitynumericalsinusoidal current excitationsubdomain techniqueswitched reluctance machine
collection DOAJ
language English
format Article
sources DOAJ
author Mohammed Ben Yahia
Kamel Boughrara
Frédéric Dubas
Lazhar Roubache
Rachid Ibtiouen
spellingShingle Mohammed Ben Yahia
Kamel Boughrara
Frédéric Dubas
Lazhar Roubache
Rachid Ibtiouen
Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
Mathematical and Computational Applications
2D
electromagnetic performances
finite iron relative permeability
numerical
sinusoidal current excitation
subdomain technique
switched reluctance machine
author_facet Mohammed Ben Yahia
Kamel Boughrara
Frédéric Dubas
Lazhar Roubache
Rachid Ibtiouen
author_sort Mohammed Ben Yahia
title Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
title_short Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
title_full Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
title_fullStr Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
title_full_unstemmed Two-Dimensional Exact Subdomain Technique of Switched Reluctance Machines with Sinusoidal Current Excitation
title_sort two-dimensional exact subdomain technique of switched reluctance machines with sinusoidal current excitation
publisher MDPI AG
series Mathematical and Computational Applications
issn 2297-8747
publishDate 2018-10-01
description This paper presents a two-dimensional (2D) exact subdomain technique in polar coordinates considering the iron relative permeability in 6/4 switched reluctance machines (SRM) supplied by sinusoidal waveform of current (aka, variable flux reluctance machines). In non-periodic regions (e.g., rotor and/or stator slots/teeth), magnetostatic Maxwell’s equations are solved considering non-homogeneous Neumann boundary conditions (BCs). The general solutions of magnetic vector potential in all subdomains are obtained by applying the interface conditions (ICs) in both directions (i.e., r- and θ-edges ICs). The global saturation effect is taken into account, with a constant magnetic permeability corresponding to the linear zone of the nonlinear B(H) curve. In this investigation, the magnetic flux density distribution inside the electrical machine, the static/dynamic electromagnetic torques, the magnetic flux linkage, the self-/mutual inductances, the magnetic pressures, and the unbalanced magnetic forces (UMFs) have been calculated for 6/4 SRM with two various non-overlapping (or concentrated) windings. One of the case studies is a M1 with a non-overlapping all teeth wound winding (double-layer winding with left and right layer) and the other is a M2 with a non-overlapping alternate teeth wound winding (single-layer winding). It is important to note that the developed semi-analytical model based on the 2D exact subdomain technique is also valid for any number of slot/pole combinations and for non-overlapping teeth wound windings with a single/double layer. Finally, the semi-analytical results have been performed for different values of iron core relative permeability (viz., 100 and 800), and compared with those obtained by the 2D finite-element method (FEM). The comparisons with FEM show good results for the proposed approach.
topic 2D
electromagnetic performances
finite iron relative permeability
numerical
sinusoidal current excitation
subdomain technique
switched reluctance machine
url http://www.mdpi.com/2297-8747/23/4/59
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AT fredericdubas twodimensionalexactsubdomaintechniqueofswitchedreluctancemachineswithsinusoidalcurrentexcitation
AT lazharroubache twodimensionalexactsubdomaintechniqueofswitchedreluctancemachineswithsinusoidalcurrentexcitation
AT rachidibtiouen twodimensionalexactsubdomaintechniqueofswitchedreluctancemachineswithsinusoidalcurrentexcitation
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