Crosslinking Modelling of the Power Cable Insulation Processing

Kosar, Vanja; Kraljević, Zlatko; Radović, Marina

doi:10.15255/KUI.2017.001

Chemistry in Industry : Journal of Chemists and Chemical Engineers of Croatia, Vol. 66 No. 11-12, 2017.

Original scientific paper

https://doi.org/10.15255/KUI.2017.001

Crosslinking Modelling of the Power Cable Insulation Processing

Vanja Kosar orcid.org/0000-0001-6999-8137 ; Faculty of Chemical Engineering and Technology, University of Zagreb Marulićev trg 19 10 000 Zagreb, Croatia
Zlatko Kraljević ; Elka d. o. o, Koledovčina 1 10 000 Zagreb, Croatia
Marina Radović ; Faculty of Chemical Engineering and Technology, University of Zagreb Marulićev trg 19 10 000 Zagreb, Croatia

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APA 6th Edition

Kosar, V., Kraljević, Z. & Radović, M. (2017). Crosslinking Modelling of the Power Cable Insulation Processing. Kemija u industriji, 66 (11-12), 591-599. https://doi.org/10.15255/KUI.2017.001

MLA 8th Edition

Kosar, Vanja, et al. "Crosslinking Modelling of the Power Cable Insulation Processing." Kemija u industriji, vol. 66, no. 11-12, 2017, pp. 591-599. https://doi.org/10.15255/KUI.2017.001. Accessed 1 May 2024.

Chicago 17th Edition

Kosar, Vanja, Zlatko Kraljević and Marina Radović. "Crosslinking Modelling of the Power Cable Insulation Processing." Kemija u industriji 66, no. 11-12 (2017): 591-599. https://doi.org/10.15255/KUI.2017.001

Harvard

Kosar, V., Kraljević, Z., and Radović, M. (2017). 'Crosslinking Modelling of the Power Cable Insulation Processing', Kemija u industriji, 66(11-12), pp. 591-599. https://doi.org/10.15255/KUI.2017.001

Vancouver

Kosar V, Kraljević Z, Radović M. Crosslinking Modelling of the Power Cable Insulation Processing. Kemija u industriji [Internet]. 2017 [cited 2024 May 01];66(11-12):591-599. https://doi.org/10.15255/KUI.2017.001

IEEE

V. Kosar, Z. Kraljević and M. Radović, "Crosslinking Modelling of the Power Cable Insulation Processing", Kemija u industriji, vol.66, no. 11-12, pp. 591-599, 2017. [Online]. https://doi.org/10.15255/KUI.2017.001

Abstract

During the manufacture of power cables insulated with crosslinkable polyethylene, the hot polymer is applied to the conductor by extrusion, below temperatures of rapid crosslinking. The coated cable passes into a high-pressure tube (filled with nitrogen under pressure of 10 bar) in order to heat up the insulation to temperatures at which the crosslinking agent is highly active. This is the continuous vulcanization (CV) tube. Changes in process variables associated with the CV tube can cause changes in the physical properties, aging characteristics, and especially heat resistance of the cable insulation. Performance of insulating compounds in this area of the crosslinking process can determine maximum output rates of a power cable manufacturing facility.
Most power cable manufacturers have determined the optimum operating conditions for their cure tubes through practical experiments. However, the introduction of new resins or different cable constructions often leads to inefficient operation or erroneous evaluation because of the inability to predict performance in the tube. In addition, when using other insulation materials, it is necessary to conduct a series of independent experiments for their characterization. This can often lead to overdesign or underdesign of new equipment. With this point in mind, a mathematical model of the continuous vulcanization (CV) process, which provides a simulation of the process has been developed.

This work is licensed under a Creative Commons Attribution 4.0 International License.

Keywords

crosslinking; vulcanization tube; XLPE; insulated conductor; mathematical model; simulation

Hrčak ID:

189461

URI

https://hrcak.srce.hr/189461

Publication date:

30.11.2017.

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Chemistry in Industry : Journal of Chemists and Chemical Engineers of Croatia, Vol. 66 No. 11-12, 2017.

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