Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect

Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect

The various measurement procedures for determination of electromagnetic parameters for the induction motor (IM) equivalent circuits including the rotor deep-bar effect were proposed in the literature. One of them is the procedure based on the load curve test (LCT). Since the execution of the LCT can...

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Autores principales: Jaroslaw Rolek, Grzegorz Utrata
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
induction motors
equivalent circuits
finite element analysis
deep-bar effect
optimisation
Technology
T
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spelling oai:doaj.org-article:0f6c8997c8404ec5baaddc67367192c12021-11-25T17:26:46ZOptimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect10.3390/en142275621996-1073https://doaj.org/article/0f6c8997c8404ec5baaddc67367192c12021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1073/14/22/7562https://doaj.org/toc/1996-1073The various measurement procedures for determination of electromagnetic parameters for the induction motor (IM) equivalent circuits including the rotor deep-bar effect were proposed in the literature. One of them is the procedure based on the load curve test (LCT). Since the execution of the LCT can pose some difficulties, especially in industrial conditions, as an alternative, the finite element method (FEM) can be employed to simulate the IM operation under the LCT. In this work we developed the optimisation technique for the finite element (FE) model. This technique is performed with the use of the stator current space-vector components which determine the IM input active and reactive power consumption during no-load operation. Relying on the LCT simulation carried out with the optimised FE model the inductance frequency characteristic can be determined and then used as the reference characteristic in the electromagnetic parameter estimation for the IM equivalent circuit including the rotor deep-bar effect. The presented research results demonstrate proper conformity between the inductance frequency characteristics obtained from the LCT performed experimentally and determined by means of the optimised FE model. Satisfactory conformity is also achieved in the case of the torque-versus-slip frequency curves acquired from the measurement and calculated by the IM space-vector model with estimated electromagnetic parameters. All of this validates the effectiveness of the proposed technique for the FE-model optimisation and the usefulness of the presented approach using the FEM in the electromagnetic parameter estimation for the IM equivalent circuit including the rotor deep-bar effect.Jaroslaw RolekGrzegorz UtrataMDPI AGarticleinduction motorsequivalent circuitsfinite element analysisdeep-bar effectoptimisationTechnologyTENEnergies, Vol 14, Iss 7562, p 7562 (2021)
institution DOAJ
collection DOAJ
language EN
topic induction motors
equivalent circuits
finite element analysis
deep-bar effect
optimisation
Technology
T
spellingShingle induction motors
equivalent circuits
finite element analysis
deep-bar effect
optimisation
Technology
T
Jaroslaw Rolek
Grzegorz Utrata
Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
description The various measurement procedures for determination of electromagnetic parameters for the induction motor (IM) equivalent circuits including the rotor deep-bar effect were proposed in the literature. One of them is the procedure based on the load curve test (LCT). Since the execution of the LCT can pose some difficulties, especially in industrial conditions, as an alternative, the finite element method (FEM) can be employed to simulate the IM operation under the LCT. In this work we developed the optimisation technique for the finite element (FE) model. This technique is performed with the use of the stator current space-vector components which determine the IM input active and reactive power consumption during no-load operation. Relying on the LCT simulation carried out with the optimised FE model the inductance frequency characteristic can be determined and then used as the reference characteristic in the electromagnetic parameter estimation for the IM equivalent circuit including the rotor deep-bar effect. The presented research results demonstrate proper conformity between the inductance frequency characteristics obtained from the LCT performed experimentally and determined by means of the optimised FE model. Satisfactory conformity is also achieved in the case of the torque-versus-slip frequency curves acquired from the measurement and calculated by the IM space-vector model with estimated electromagnetic parameters. All of this validates the effectiveness of the proposed technique for the FE-model optimisation and the usefulness of the presented approach using the FEM in the electromagnetic parameter estimation for the IM equivalent circuit including the rotor deep-bar effect.
format article
author Jaroslaw Rolek
Grzegorz Utrata
author_facet Jaroslaw Rolek
Grzegorz Utrata
author_sort Jaroslaw Rolek
title Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
title_short Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
title_full Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
title_fullStr Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
title_full_unstemmed Optimisation of the FE Model Based on the No-Load Test Measurement for Estimating Electromagnetic Parameters of an Induction Motor Equivalent Circuit Including the Rotor Deep-Bar Effect
title_sort optimisation of the fe model based on the no-load test measurement for estimating electromagnetic parameters of an induction motor equivalent circuit including the rotor deep-bar effect
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/0f6c8997c8404ec5baaddc67367192c1
work_keys_str_mv AT jaroslawrolek optimisationofthefemodelbasedonthenoloadtestmeasurementforestimatingelectromagneticparametersofaninductionmotorequivalentcircuitincludingtherotordeepbareffect
AT grzegorzutrata optimisationofthefemodelbasedonthenoloadtestmeasurementforestimatingelectromagneticparametersofaninductionmotorequivalentcircuitincludingtherotordeepbareffect
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