A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS

A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS

Purpose. The development of calculation method to determinate the flux densities in different parts of the magnetic cores of distribution transformers, what built from different types magnetic steel (mixed core). Methodology. The method is based on the scientific positions of Theoretical Electrical...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: I.V. Pentegov, S.V. Rymar, M.I. Levin, A.V. Lavreniuk
Formato: article
Lenguaje:EN
RU
UK
Publicado: National Technical University "Kharkiv Polytechnic Institute" 2015
Materias:
distribution transformer
magnetic core
grain oriented steel (GO)
non grain oriented steel (NGO)
flux density
no load losses
high efficiency.
high efficiency
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Acceso en línea:https://doaj.org/article/17308ab380d64bc2a903c53486384884
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:17308ab380d64bc2a903c53486384884
record_format dspace
spelling oai:doaj.org-article:17308ab380d64bc2a903c534863848842021-12-02T16:27:28ZA DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS2074-272X2309-3404https://doaj.org/article/17308ab380d64bc2a903c534863848842015-12-01T00:00:00Zhttp://eie.khpi.edu.ua/article/view/54507/50767https://doaj.org/toc/2074-272Xhttps://doaj.org/toc/2309-3404Purpose. The development of calculation method to determinate the flux densities in different parts of the magnetic cores of distribution transformers, what built from different types magnetic steel (mixed core). Methodology. The method is based on the scientific positions of Theoretical Electrical Engineering – the theory of the electromagnetic field in nonlinear mediums to determine the distribution of magnetic flux in mixed core of transformer, what are using different types of steel what have the different magnetic properties. Results. The developed method gives possible to make calculation of the flux density and influence of skin effect in different parts of the magnetic cores of distribution transformer, where are used mix of grain oriented (GO) and non grain oriented (NGO) steels. Was determinate the general basic conditions for the calculation of flux density in the laminations from grain and non grain oriented steels of the magnetic core: the strength of magnetic field for the laminations of particular part of mixed core is the same; the sum of the magnetic fluxes in GO and NGO steels in particular part of mixed core is equal with the designed magnetic flux in this part of mixed core. Discover, the magnetic flux in mixed core of the transformer has specific distribution between magnetic steels. The flux density is higher in laminations from GO steel and smaller in laminations from the NGO steel. That is happened because for magnetic flux is easier pass through laminations from GO steel, what has better magnetic conductance than laminations from NGO steel. Originality. The common using of different types of magnetic steels in cores for distribution transformers gives possibility to make design of transformer with low level of no load losses, high efficiency and with optimal cost. Practical value. The determination of the flux density in different parts of magnetic core with GO and NGO steels gives possibility make accurate calculation of no load losses and magnetizing current of the transformer. I.V. PentegovS.V. RymarM.I. LevinA.V. LavreniukNational Technical University "Kharkiv Polytechnic Institute"articledistribution transformermagnetic coregrain oriented steel (GO)non grain oriented steel (NGO)flux densityno load losseshigh efficiency.high efficiencyElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENRUUKElectrical engineering & Electromechanics, Iss 6, Pp 31-35 (2015)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic distribution transformer
magnetic core
grain oriented steel (GO)
non grain oriented steel (NGO)
flux density
no load losses
high efficiency.
high efficiency
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
spellingShingle distribution transformer
magnetic core
grain oriented steel (GO)
non grain oriented steel (NGO)
flux density
no load losses
high efficiency.
high efficiency
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
I.V. Pentegov
S.V. Rymar
M.I. Levin
A.V. Lavreniuk
A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
description Purpose. The development of calculation method to determinate the flux densities in different parts of the magnetic cores of distribution transformers, what built from different types magnetic steel (mixed core). Methodology. The method is based on the scientific positions of Theoretical Electrical Engineering – the theory of the electromagnetic field in nonlinear mediums to determine the distribution of magnetic flux in mixed core of transformer, what are using different types of steel what have the different magnetic properties. Results. The developed method gives possible to make calculation of the flux density and influence of skin effect in different parts of the magnetic cores of distribution transformer, where are used mix of grain oriented (GO) and non grain oriented (NGO) steels. Was determinate the general basic conditions for the calculation of flux density in the laminations from grain and non grain oriented steels of the magnetic core: the strength of magnetic field for the laminations of particular part of mixed core is the same; the sum of the magnetic fluxes in GO and NGO steels in particular part of mixed core is equal with the designed magnetic flux in this part of mixed core. Discover, the magnetic flux in mixed core of the transformer has specific distribution between magnetic steels. The flux density is higher in laminations from GO steel and smaller in laminations from the NGO steel. That is happened because for magnetic flux is easier pass through laminations from GO steel, what has better magnetic conductance than laminations from NGO steel. Originality. The common using of different types of magnetic steels in cores for distribution transformers gives possibility to make design of transformer with low level of no load losses, high efficiency and with optimal cost. Practical value. The determination of the flux density in different parts of magnetic core with GO and NGO steels gives possibility make accurate calculation of no load losses and magnetizing current of the transformer.
format article
author I.V. Pentegov
S.V. Rymar
M.I. Levin
A.V. Lavreniuk
author_facet I.V. Pentegov
S.V. Rymar
M.I. Levin
A.V. Lavreniuk
author_sort I.V. Pentegov
title A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
title_short A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
title_full A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
title_fullStr A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
title_full_unstemmed A DETERMINATION OF THE FLUX DENSITY IN CORE OF DISTRIBUTION TRANSFORMERS, WHAT BUILT WITH THE COMMON USING OF GRAIN AND NON GRAIN ORIENTED MAGNETIC STEELS
title_sort determination of the flux density in core of distribution transformers, what built with the common using of grain and non grain oriented magnetic steels
publisher National Technical University "Kharkiv Polytechnic Institute"
publishDate 2015
url https://doaj.org/article/17308ab380d64bc2a903c53486384884
work_keys_str_mv AT ivpentegov adeterminationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT svrymar adeterminationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT milevin adeterminationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT avlavreniuk adeterminationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT ivpentegov determinationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT svrymar determinationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT milevin determinationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
AT avlavreniuk determinationofthefluxdensityincoreofdistributiontransformerswhatbuiltwiththecommonusingofgrainandnongrainorientedmagneticsteels
_version_ 1718383977669066752

Ejemplares similares