THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES

In the paper, we show the necessity of normalization of the static geomagnetic field (GMF) inside high-rise frame-monolithic houses to safe values (90% of the natural rate at least). Massive ferromagnetic construction of these buildings significantly (up to 50 %) weakens the natural GMF. The normali...

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Autores principales: V. Yu. Rozov, A. V. Zavalnyi, S. M. Zolotov, S. V. Gretskikh
Formato: article
Lenguaje:EN
RU
UK
Publicado: National Technical University "Kharkiv Polytechnic Institute" 2015
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Acceso en línea:https://doaj.org/article/ec58c00ac18845a8befeaebcc3e098da
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spelling oai:doaj.org-article:ec58c00ac18845a8befeaebcc3e098da2021-12-02T18:09:15ZTHE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES2074-272X2074-272Xhttps://doaj.org/article/ec58c00ac18845a8befeaebcc3e098da2015-04-01T00:00:00Zhttp://eie.khpi.edu.ua/article/view/42082https://doaj.org/toc/2074-272Xhttps://doaj.org/toc/2074-272XIn the paper, we show the necessity of normalization of the static geomagnetic field (GMF) inside high-rise frame-monolithic houses to safe values (90% of the natural rate at least). Massive ferromagnetic construction of these buildings significantly (up to 50 %) weakens the natural GMF. The normalization methods are based on mathematical modeling of GMF in a residential area. Simplified physical models of reinforced concrete building structures are developed and used. The results of experimental studies are also used in the framework of the development of the methods. The following methods of normalization of GMF are presented and justified: 1) the use of special steel with a relative permeability less than 70 in housing construction; 2) restrictions on the use of long steel elements with the elongation coefficient in the critical range of 4<b<28; 3) demagnetization of steel reinforcement before installing; 4) preventing the magnetization of steel reinforcement in the construction process. Practical recommendations for the design of «magnetic clean» houses with comfortable living conditions in connection to the GMF are proposed.V. Yu. RozovA. V. ZavalnyiS. M. ZolotovS. V. GretskikhNational Technical University "Kharkiv Polytechnic Institute"articlestatic magnetic fieldreinforced concrete structuresnormalization of the geomagnetic field in the premisesElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENRUUKElectrical engineering & Electromechanics, Iss 2, Pp 35-40 (2015)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic static magnetic field
reinforced concrete structures
normalization of the geomagnetic field in the premises
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
spellingShingle static magnetic field
reinforced concrete structures
normalization of the geomagnetic field in the premises
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
V. Yu. Rozov
A. V. Zavalnyi
S. M. Zolotov
S. V. Gretskikh
THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
description In the paper, we show the necessity of normalization of the static geomagnetic field (GMF) inside high-rise frame-monolithic houses to safe values (90% of the natural rate at least). Massive ferromagnetic construction of these buildings significantly (up to 50 %) weakens the natural GMF. The normalization methods are based on mathematical modeling of GMF in a residential area. Simplified physical models of reinforced concrete building structures are developed and used. The results of experimental studies are also used in the framework of the development of the methods. The following methods of normalization of GMF are presented and justified: 1) the use of special steel with a relative permeability less than 70 in housing construction; 2) restrictions on the use of long steel elements with the elongation coefficient in the critical range of 4<b<28; 3) demagnetization of steel reinforcement before installing; 4) preventing the magnetization of steel reinforcement in the construction process. Practical recommendations for the design of «magnetic clean» houses with comfortable living conditions in connection to the GMF are proposed.
format article
author V. Yu. Rozov
A. V. Zavalnyi
S. M. Zolotov
S. V. Gretskikh
author_facet V. Yu. Rozov
A. V. Zavalnyi
S. M. Zolotov
S. V. Gretskikh
author_sort V. Yu. Rozov
title THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
title_short THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
title_full THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
title_fullStr THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
title_full_unstemmed THE NORMALIZATION METHODS OF THE STATIC GEOMAGNETIC FIELD INSIDE HOUSES
title_sort normalization methods of the static geomagnetic field inside houses
publisher National Technical University "Kharkiv Polytechnic Institute"
publishDate 2015
url https://doaj.org/article/ec58c00ac18845a8befeaebcc3e098da
work_keys_str_mv AT vyurozov thenormalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT avzavalnyi thenormalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT smzolotov thenormalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT svgretskikh thenormalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT vyurozov normalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT avzavalnyi normalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT smzolotov normalizationmethodsofthestaticgeomagneticfieldinsidehouses
AT svgretskikh normalizationmethodsofthestaticgeomagneticfieldinsidehouses
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