Deriving an experimental and analytical relation between the core and fiber temperatures of a 3P XLPE cable

Callewaert, M.; Vanthillo, R.; Fojtek, C.; Mampaey, B.

doi:/10.1088/1742-6596/2151/1/012012

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Deriving an experimental and analytical relation between the core and fiber temperatures of a 3P XLPE cable

Callewaert, M.; Vanthillo, R.; Fojtek, C.; Mampaey, B. (2022). Deriving an experimental and analytical relation between the core and fiber temperatures of a 3P XLPE cable. Journal of Physics: Conference Series 2151: 012012. https://dx.doi.org/10.1088/1742-6596/2151/1/012012

In: Journal of Physics: Conference Series. IOP Publishing: Bristol. ISSN 1742-6588; e-ISSN 1742-6596, more

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VLIZ: Open access 388009 [ download pdf ]
Document type: Conference paper

Keyword

Marine/Coastal

Authors		Top
Callewaert, M. Vanthillo, R. Fojtek, C., more Mampaey, B.

Abstract

Every submarine power cable contains a fiber-optic assembly. Most windfarms have a distributed temperature sensing (DTS) device for continuous temperature monitoring. Using real-time thermal rating (RTTR) the performance of subsea cables can be increased or a less expensive cable can be installed.

The experiments aimed to establish the relation between the fiber and core (or conductor) temperatures in the cable. Fiber temperature was obtained using a DTS interrogator; thermocouples installed in the conductors yielded the core temperature data. The cable used in this test was a 20 meter-long 1800 mm², 1000 A export cable.

These experiments validated a new RTTR model proposed by Marlinks: a thermal RC-ladder model based on finite-element (FEM) calculations. Better suited to the complexity of the spacer geometry and existence of the fiber node, the Marlinks-developed model is considered to be more accurate than the industry standard.

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