The ambient temperature influence on the modelling of power distribution networks

The ambient temperature influence on the modelling of power distribution networks

For long-term development planning of power distribution networks, it is necessary to have the modelling process adapted to the available data. More detailed models can give better insight into the current operating state of the power distribution network, as well as into the potential network capab...

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Bibliographic Details
Main Authors: Vrcelj Nada, Milošević Dejan, Šušnica Nikola, Stanojević Vesna
Format: Article
Language:English
Published: Electrical Engineering Institute Nikola Tesla 2015-01-01
Series:Zbornik Radova: Elektrotehnički Institut "Nikola Tesla"
Subjects:
modelling of distribuition network
ambient temperature
line resistance of conductors
active power losses
Online Access:http://scindeks-clanci.ceon.rs/data/pdf/0350-8528/2015/0350-85281525053V.pdf
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spelling doaj-c7ca266f63ff4471abd9395396e6d95c2020-11-24T22:12:36ZengElectrical Engineering Institute Nikola TeslaZbornik Radova: Elektrotehnički Institut "Nikola Tesla"0350-85282406-12122015-01-01201525536310.5937/zeint25-91550350-85281525053VThe ambient temperature influence on the modelling of power distribution networksVrcelj Nada0Milošević Dejan1Šušnica Nikola2Stanojević Vesna3University of Belgrade, Electrical Engineering Institute “Nikola Tesla“, Belgrade, Belgrade, SerbiaUniversity of Belgrade, Electrical Engineering Institute “Nikola Tesla“, Belgrade, Belgrade, SerbiaUniversity of Belgrade, Electrical Engineering Institute “Nikola Tesla“, Belgrade, Belgrade, SerbiaEPS Distribucija d.o.o., BeogradFor long-term development planning of power distribution networks, it is necessary to have the modelling process adapted to the available data. More detailed models can give better insight into the current operating state of the power distribution network, as well as into the potential network capabilities. The impact of conductor resistance change due to ambient temperature variations in power distribution network modelling is analysed, especially the influence on power flow calculations and estimated power losses. This impact is analysed in the case of a part of the power distribution network EPS Distribucija d.o.o. Beograd, which includes the network areas of Sopot and Grocka.http://scindeks-clanci.ceon.rs/data/pdf/0350-8528/2015/0350-85281525053V.pdfmodelling of distribuition networkambient temperatureline resistance of conductorsactive power losses
collection DOAJ
language English
format Article
sources DOAJ
author Vrcelj Nada
Milošević Dejan
Šušnica Nikola
Stanojević Vesna
spellingShingle Vrcelj Nada
Milošević Dejan
Šušnica Nikola
Stanojević Vesna
The ambient temperature influence on the modelling of power distribution networks
Zbornik Radova: Elektrotehnički Institut "Nikola Tesla"
modelling of distribuition network
ambient temperature
line resistance of conductors
active power losses
author_facet Vrcelj Nada
Milošević Dejan
Šušnica Nikola
Stanojević Vesna
author_sort Vrcelj Nada
title The ambient temperature influence on the modelling of power distribution networks
title_short The ambient temperature influence on the modelling of power distribution networks
title_full The ambient temperature influence on the modelling of power distribution networks
title_fullStr The ambient temperature influence on the modelling of power distribution networks
title_full_unstemmed The ambient temperature influence on the modelling of power distribution networks
title_sort ambient temperature influence on the modelling of power distribution networks
publisher Electrical Engineering Institute Nikola Tesla
series Zbornik Radova: Elektrotehnički Institut "Nikola Tesla"
issn 0350-8528
2406-1212
publishDate 2015-01-01
description For long-term development planning of power distribution networks, it is necessary to have the modelling process adapted to the available data. More detailed models can give better insight into the current operating state of the power distribution network, as well as into the potential network capabilities. The impact of conductor resistance change due to ambient temperature variations in power distribution network modelling is analysed, especially the influence on power flow calculations and estimated power losses. This impact is analysed in the case of a part of the power distribution network EPS Distribucija d.o.o. Beograd, which includes the network areas of Sopot and Grocka.
topic modelling of distribuition network
ambient temperature
line resistance of conductors
active power losses
url http://scindeks-clanci.ceon.rs/data/pdf/0350-8528/2015/0350-85281525053V.pdf
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