Calculation of temperature rise in gas insulated busbar by coupled magneto-thermal-fluid analysis

Hong Kyu Kim; Yeon Ho Oh; Se Hee Lee

doi:10.5370/JEET.2009.4.4.510

Calculation of temperature rise in gas insulated busbar by coupled magneto-thermal-fluid analysis

Hong Kyu Kim, Yeon Ho Oh, Se Hee Lee

Department of Electrical Engineering

Korea Electrotechnology Research Institute

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

This paper presents the coupled analysis method to calculate the temperature rise in a gas insulated busbar (GIB). Harmonic eddy current analysis is carried out and the power losses are calculated in the conductor and enclosure tank. Two methods are presented to analyze the temperature distribution in the conductor and tank. One is to solve the thermal conduction problem with the equivalent natural convection coefficient and is applied to a single phase GIB. The other is to employ the computational fluid dynamics (CFD) tool which directly solves the thermal-fluid equations and is applied to a three-phase GIB. The accuracy of both methods is verified by the comparison of the measured and calculated temperature in a single phase and three-phase GIB.

Original language	English
Pages (from-to)	510-514
Number of pages	5
Journal	Journal of Electrical Engineering and Technology
Volume	4
Issue number	4
DOIs	https://doi.org/10.5370/JEET.2009.4.4.510
State	Published - Dec 2009

Keywords

Computational fluid dynamics
Gas insulated busbar
Magneto-thermal-fluid analysis
Temperature rise

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title = "Calculation of temperature rise in gas insulated busbar by coupled magneto-thermal-fluid analysis",

abstract = "This paper presents the coupled analysis method to calculate the temperature rise in a gas insulated busbar (GIB). Harmonic eddy current analysis is carried out and the power losses are calculated in the conductor and enclosure tank. Two methods are presented to analyze the temperature distribution in the conductor and tank. One is to solve the thermal conduction problem with the equivalent natural convection coefficient and is applied to a single phase GIB. The other is to employ the computational fluid dynamics (CFD) tool which directly solves the thermal-fluid equations and is applied to a three-phase GIB. The accuracy of both methods is verified by the comparison of the measured and calculated temperature in a single phase and three-phase GIB.",

keywords = "Computational fluid dynamics, Gas insulated busbar, Magneto-thermal-fluid analysis, Temperature rise",

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AU - Kim, Hong Kyu

AU - Oh, Yeon Ho

AU - Lee, Se Hee

PY - 2009/12

Y1 - 2009/12

N2 - This paper presents the coupled analysis method to calculate the temperature rise in a gas insulated busbar (GIB). Harmonic eddy current analysis is carried out and the power losses are calculated in the conductor and enclosure tank. Two methods are presented to analyze the temperature distribution in the conductor and tank. One is to solve the thermal conduction problem with the equivalent natural convection coefficient and is applied to a single phase GIB. The other is to employ the computational fluid dynamics (CFD) tool which directly solves the thermal-fluid equations and is applied to a three-phase GIB. The accuracy of both methods is verified by the comparison of the measured and calculated temperature in a single phase and three-phase GIB.

AB - This paper presents the coupled analysis method to calculate the temperature rise in a gas insulated busbar (GIB). Harmonic eddy current analysis is carried out and the power losses are calculated in the conductor and enclosure tank. Two methods are presented to analyze the temperature distribution in the conductor and tank. One is to solve the thermal conduction problem with the equivalent natural convection coefficient and is applied to a single phase GIB. The other is to employ the computational fluid dynamics (CFD) tool which directly solves the thermal-fluid equations and is applied to a three-phase GIB. The accuracy of both methods is verified by the comparison of the measured and calculated temperature in a single phase and three-phase GIB.

KW - Computational fluid dynamics

KW - Gas insulated busbar

KW - Magneto-thermal-fluid analysis

KW - Temperature rise

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JO - Journal of Electrical Engineering and Technology

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Calculation of temperature rise in gas insulated busbar by coupled magneto-thermal-fluid analysis

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Keywords

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