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"J-tube"

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"J-tube"

Effect of Temperature Variations on Insulation Performance of Submarine Cables in the J-Tube of Offshore Wind Farms
Seung-won Lee, Jin-wook Choe, Ik-su Kwon, Jin-seok Lim, Byung-bae Park, Hae Jong Kim
J Electr Electron Mater 2025;38(4):425-430.   Published online July 1, 2025
DOI: https://doi.org/10.4313/JKEM.2025.38.4.11
With the expansion of offshore wind farms, research on power cables for delivering electricity from offshore to onshore has become increasingly important. In offshore wind farms, submarine cables are introduced and secured to the platform through J-tube conduits. During this process, the cables are exposed to three distinct thermal profiles: high temperatures in the upper section, temperature fluctuations due to water level changes in the middle section, and low temperatures in the seabed region. This study investigates the impact of thermal variations on the insulation performance of submarine cables. To analyze this effect, accelerated aging tests were conducted on both insulation specimens and actual cables. Additionally, dielectric breakdown tests were performed to quantitatively assess insulation degradation. Experimental results revealed that the insulation performance of the specimens exposed to periodic temperature fluctuations due to water level changes deteriorated by up to 7.5%. Based on these findings, the vulnerable sections of submarine cables in offshore wind farms were identified. Furthermore, this study emphasizes the necessity for monitoring and protective measures to mitigate insulation degradation in these critical regions.
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Insulation Characteristics Evaluation of Submarine Cables Inside the J-Tube of Offshore Wind Farms
Seung-won Lee, Jin-wook Choe, Hae-jong Kim
J Electr Electron Mater 2023;36(6):570-575.   Published online November 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.6.5
Demand and necessity for eco-friendly offshore wind farms have been increasing. Research on submarine cables is constantly being considered for a reliable and stable power transmission. This study aimed to evaluate the thermal aging characteristic of submarine cables inside the J-tube of offshore wind farms. In this study, a submarine cable was set in three sections: The first is the part exposed to the air above the sea level at high temperature. The second is the section exposed to repeated temperature fluctuation as the sea level rises and falls. The third is the part submerged at low temperature below the sea level. Aged samples were tested by using the method of electrical evaluation to obtain insulation characteristics. The experimental results show that the dielectric breakdown of the sample with temperature fluctuation was 7% lower than the sample with a constant temperature; thereby, demonstrating that the section where the temperature fluctuation occurred in the submarine cables was weaker than the other. The sections of submarine cable with temperature fluctuations are believed as a weak point during operation; therefore, this part should be monitored preferentially.
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