Uncertainty Quantification of Input Parameters in a 2-D Finite-Element Model for Broken Rotor Bar in an Induction Machine

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dc.contributor.authorBillah, Md Masum
dc.contributor.authorMartin, Floran
dc.contributor.authorBelahcen, Anouar
dc.contributor.authorBalasubramanian, Aswin
dc.contributor.authorVaimann, Toomas
dc.contributor.authorŠobra, Jan
dc.date.accessioned2022-10-17T10:02:24Z
dc.date.available2022-10-17T10:02:24Z
dc.date.issued2022
dc.description.abstractIn this article, a forward uncertainty propagation method is presented for a 2-D finite-element (FE) model in an induction machine. This method is applied to quantify the uncertainty of input parameters, for example, dimensions and material properties, and demonstrate their variability effect on harmonics related to the broken rotor bar (BRB) faults. To show the most influential input parameters in the case of BRB harmonics, a global sensitivity analysis is performed from the polynomial chaos expansion (PCE) approximation of the FE model. The results of this study indicate that BRB harmonics are highly sensitive to stator inner diameter, rotor outer diameter, rotor bar conductivity, and core materials. Moreover, the combined variability of these sensitive input parameters can attenuate the amplitude of the BRB harmonics 30%–90% compared to the simulation results at nominal values of input parameters and closely match with measurement results.en
dc.description.abstract-translatedIn this article, a forward uncertainty propagation method is presented for a 2-D finite-element (FE) model in an induction machine. This method is applied to quantify the uncertainty of input parameters, for example, dimensions and material properties, and demonstrate their variability effect on harmonics related to the broken rotor bar (BRB) faults. To show the most influential input parameters in the case of BRB harmonics, a global sensitivity analysis is performed from the polynomial chaos expansion (PCE) approximation of the FE model. The results of this study indicate that BRB harmonics are highly sensitive to stator inner diameter, rotor outer diameter, rotor bar conductivity, and core materials. Moreover, the combined variability of these sensitive input parameters can attenuate the amplitude of the BRB harmonics 30%–90% compared to the simulation results at nominal values of input parameters and closely match with measurement results.en
dc.format4 s.cs
dc.format.mimetypeapplication/pdf
dc.identifier.citationBILLAH, MM. MARTIN, F. BELAHCEN, A. BALASUBRAMANIAN, A. VAIMANN, T. ŠOBRA, J. Uncertainty Quantification of Input Parameters in a 2-D Finite-Element Model for Broken Rotor Bar in an Induction Machine. IEEE TRANSACTIONS ON MAGNETICS, 2022, roč. 58, č. 9, s. 1-4. ISSN: 0018-9464cs
dc.identifier.document-number845075000014
dc.identifier.doi10.1109/TMAG.2022.3173663
dc.identifier.issn0018-9464
dc.identifier.obd43936688
dc.identifier.uri2-s2.0-85132516281
dc.identifier.urihttp://hdl.handle.net/11025/49743
dc.language.isoenen
dc.publisherIEEEen
dc.relation.ispartofseriesIeee Transactions On Magneticsen
dc.rights© Creative Commons Attribution 4.0 Licenseen
dc.rights.accessopenAccessen
dc.subject.translatedbroken rotor bar (BRB)en
dc.subject.translatedfinite-element (FE) modelen
dc.subject.translatedforward uncertainty propagationen
dc.subject.translatedpolynomial chaos expansion (PCE)en
dc.subject.translatedsobol sensitivity analysisen
dc.titleUncertainty Quantification of Input Parameters in a 2-D Finite-Element Model for Broken Rotor Bar in an Induction Machineen
dc.typečlánekcs
dc.typearticleen
dc.type.statusPeer-revieweden
dc.type.versionpublishedVersionen

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