Modelling of Dynamic Transmission Cable Temperature Considering Soil-Specific Heat, Thermal Resistivity, and Precipitation

Rasmus Olsen; George J. Anders; Joachim Holboell; Unnur Stella Gudmundsdottir

doi:10.1109/TPWRD.2013.2263300

Modelling of Dynamic Transmission Cable Temperature Considering Soil-Specific Heat, Thermal Resistivity, and Precipitation

Rasmus Olsen
, George J. Anders
, Joachim Holboell
, Unnur Stella Gudmundsdottir

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

This paper presents an algorithm for the estimation of the time-dependent temperature evolution of power cables, when real-time temperature measurements of the cable surface or a point within its vicinity are available. The thermal resistivity and specific heat of the cable surroundings are varied as functions of the moisture content which is known to vary with time. Furthermore, issues related to the cooling effect during rainy weather are considered. The algorithm is based on the lumped parameters model and takes as input distributed temperature sensing measurements as well as the current and ambient temperature. The concept is verified by studying a laboratory setup of a 245 kV cable system.

Original language	English
Journal	IEEE Transactions on Power Delivery
Volume	28
Issue number	3
Pages (from-to)	1909-1917
ISSN	0885-8977
DOIs	https://doi.org/10.1109/TPWRD.2013.2263300
Publication status	Published - 2013

Keywords

Cables
Prediction methods
Temperature
Transmission lines

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10.1109/TPWRD.2013.2263300

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title = "Modelling of Dynamic Transmission Cable Temperature Considering Soil-Specific Heat, Thermal Resistivity, and Precipitation",

abstract = "This paper presents an algorithm for the estimation of the time-dependent temperature evolution of power cables, when real-time temperature measurements of the cable surface or a point within its vicinity are available. The thermal resistivity and specific heat of the cable surroundings are varied as functions of the moisture content which is known to vary with time. Furthermore, issues related to the cooling effect during rainy weather are considered. The algorithm is based on the lumped parameters model and takes as input distributed temperature sensing measurements as well as the current and ambient temperature. The concept is verified by studying a laboratory setup of a 245 kV cable system.",

keywords = "Cables, Prediction methods, Temperature, Transmission lines",

author = "Rasmus Olsen and Anders, \{George J.\} and Joachim Holboell and Gudmundsdottir, \{Unnur Stella\}",

year = "2013",

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language = "English",

volume = "28",

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AU - Olsen, Rasmus

AU - Anders, George J.

AU - Holboell, Joachim

AU - Gudmundsdottir, Unnur Stella

PY - 2013

Y1 - 2013

N2 - This paper presents an algorithm for the estimation of the time-dependent temperature evolution of power cables, when real-time temperature measurements of the cable surface or a point within its vicinity are available. The thermal resistivity and specific heat of the cable surroundings are varied as functions of the moisture content which is known to vary with time. Furthermore, issues related to the cooling effect during rainy weather are considered. The algorithm is based on the lumped parameters model and takes as input distributed temperature sensing measurements as well as the current and ambient temperature. The concept is verified by studying a laboratory setup of a 245 kV cable system.

AB - This paper presents an algorithm for the estimation of the time-dependent temperature evolution of power cables, when real-time temperature measurements of the cable surface or a point within its vicinity are available. The thermal resistivity and specific heat of the cable surroundings are varied as functions of the moisture content which is known to vary with time. Furthermore, issues related to the cooling effect during rainy weather are considered. The algorithm is based on the lumped parameters model and takes as input distributed temperature sensing measurements as well as the current and ambient temperature. The concept is verified by studying a laboratory setup of a 245 kV cable system.

KW - Cables

KW - Prediction methods

KW - Temperature

KW - Transmission lines

U2 - 10.1109/TPWRD.2013.2263300

DO - 10.1109/TPWRD.2013.2263300

M3 - Journal article

SN - 0885-8977

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JO - IEEE Transactions on Power Delivery

JF - IEEE Transactions on Power Delivery

IS - 3

ER -

Modelling of Dynamic Transmission Cable Temperature Considering Soil-Specific Heat, Thermal Resistivity, and Precipitation

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