Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors

Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors

Finite element analysis of transformers with stranded conductors can be computationally heavy due to the fine mesh required for winding domains. In this paper, a domain decomposition method with subdomain pre-processing is proposed to overcome with this problem. In order to solve the field-circuit p...

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Main Authors: Ismet Tuna Gürbüz, Antti Lehikoinen, Ugur Aydin, Paavo Rasilo, Eelis Takala, Anouar Belahcen
Format: Article
Language:English
Published: AIP Publishing LLC 2020-01-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5130076
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spelling doaj-66c364b0a5d4429fad55e6a52e74ff2c2020-11-25T00:17:41ZengAIP Publishing LLCAIP Advances2158-32262020-01-01101015133015133-610.1063/1.5130076Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductorsIsmet Tuna Gürbüz0Antti Lehikoinen1Ugur Aydin2Paavo Rasilo3Eelis Takala4Anouar Belahcen5Aalto University, Espoo 02150, FinlandSmeklab Oy, Espoo 02120, FinlandAalto University, Espoo 02150, FinlandTampere University, Tampere 33720, FinlandTrafotek Oy, Turku 20540, FinlandAalto University, Espoo 02150, FinlandFinite element analysis of transformers with stranded conductors can be computationally heavy due to the fine mesh required for winding domains. In this paper, a domain decomposition method with subdomain pre-processing is proposed to overcome with this problem. In order to solve the field-circuit problem with finite element analysis, the winding domain is modelled initially. Next, the reduced matrix system is obtained from the winding domain formulation. The solution of the entire problem is obtained by solving the winding domain formulation and the reduced matrix system separately. The method is tested on a transformer model in no load operation. Accurate solutions are obtained in both frequency and time domains 7-9 times faster than when using brute-force method.http://dx.doi.org/10.1063/1.5130076
collection DOAJ
language English
format Article
sources DOAJ
author Ismet Tuna Gürbüz
Antti Lehikoinen
Ugur Aydin
Paavo Rasilo
Eelis Takala
Anouar Belahcen
spellingShingle Ismet Tuna Gürbüz
Antti Lehikoinen
Ugur Aydin
Paavo Rasilo
Eelis Takala
Anouar Belahcen
Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
AIP Advances
author_facet Ismet Tuna Gürbüz
Antti Lehikoinen
Ugur Aydin
Paavo Rasilo
Eelis Takala
Anouar Belahcen
author_sort Ismet Tuna Gürbüz
title Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
title_short Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
title_full Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
title_fullStr Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
title_full_unstemmed Domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
title_sort domain decomposition with subdomain pre-processing for finite element modelling of transformers with stranded conductors
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2020-01-01
description Finite element analysis of transformers with stranded conductors can be computationally heavy due to the fine mesh required for winding domains. In this paper, a domain decomposition method with subdomain pre-processing is proposed to overcome with this problem. In order to solve the field-circuit problem with finite element analysis, the winding domain is modelled initially. Next, the reduced matrix system is obtained from the winding domain formulation. The solution of the entire problem is obtained by solving the winding domain formulation and the reduced matrix system separately. The method is tested on a transformer model in no load operation. Accurate solutions are obtained in both frequency and time domains 7-9 times faster than when using brute-force method.
url http://dx.doi.org/10.1063/1.5130076
work_keys_str_mv AT ismettunagurbuz domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
AT anttilehikoinen domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
AT uguraydin domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
AT paavorasilo domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
AT eelistakala domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
AT anouarbelahcen domaindecompositionwithsubdomainpreprocessingforfiniteelementmodellingoftransformerswithstrandedconductors
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