The start of cable production is part of the framework agreement that TenneT concluded with the consortium consisting of the Jan De Nul Group, LS Cable & Systems and Denys in May 2023. The contract covers the production and installation of four 525 kV DC cable systems for the TenneT grid connection projects in the North Sea. The first DC cables produced by the South Korean cable manufacturer LS Cable are intended for the BalWin4 and LanWin1 grid connection projects.
In addition to a positive and negative pole, an additional cable—a so-called metallic return conductor—will be laid for both grid connections in future, which will ensure that electricity can continue to flow in the event of maintenance or repair work. The three cables will be supplemented by an additional communication cable.
A total of 1,650 kilometers of cable will be produced for the BalWin4 and LanWin1 projects (route length per project: 275 kilometers, of which 165 kilometers are submarine cables and 110 kilometers are land cables). The inner conductor is made of copper, which makes the cables real heavy-weights. The submarine cables alone weigh around 76 kilograms per meter. The total weight for the submarine cable (plus/minus pole) is therefore around 25,000 tonnes per project—a logistical challenge.
Production of the cables will be completed in 2028. Cable laying at sea is expected to begin in the second half of 2026. The Jan De Nul Group will use the extra-large cable-laying vessel Fleeming Jenkin, which was specially designed and ordered for the transport and laying of the 525 kV DC cables on the seabed.
The Construction of the land cable is also scheduled to start in the second half of 2026 by the construction company Denys, with work being carried out as usual using the open trench method with a cable trench and the closed trench method using horizontal drilling. These will be used to cross bodies of water and existing infrastructure such as railway lines, dykes, roads and the like.
BalWin4 is scheduled to go into operation in 2029, LanWin1 in 2030.
