Tim Holt, Member of the Executive Board of Siemens Energy, said: “Expanding offshore grid connections is currently one of the most demanding tasks of the energy transition, especially at the pace now required. To help this, we have specifically expanded our capacities in Germany. Technology is only one piece of the puzzle, to ensure that our technologies can be deployed, we rely on strong partners in the maritime sector. We welcome the additional, much-needed capacity being created by Neptun Werft.”
Stefan Kapferer, CEO of 50Hertz, said: “As the transmission system operator for eastern Germany, Berlin and Hamburg, we are pleased that, in a transparent and open tendering process, a consortium was able to prevail both in terms of price and technology, and will manufacture key components at a shipyard within our grid area. This demonstrates that domestic shipyards are now capable of offering competitive bids for the construction of offshore platforms.”
Around 95 percent of Siemens Energy’s project scope for North Sea Connector 2 will be delivered in Germany: Transformers and converters will come from Nuremberg, while SF₆-free gas-insulated switchgear will be supplied from Berlin. Siemens Energy is currently investing several hundred million euros in expanding these sites to meet growing demand for energy transition technologies.
More details about the project:
To efficiently transmit electricity from offshore wind farms located far from shore, the power is converted from alternating current (AC) to direct current (DC) at sea. This is done on an offshore converter platform, which consists of two main components: A jacket foundation and a topside structure roughly the height of a building. The topside for the North Sea Connector 2 project will be built by Meyer Werft in Rostock-Warnemünde and subsequently equipped with the necessary power transmission technology by Siemens Energy. At the same time, Smulders will manufacture the jacket in the Netherlands, on which the topside will later be installed approximately 200 kilometers west of the island of Sylt in the North Sea.
Once commissioned, the platform will convert the alternating current generated by the wind turbines into direct current and transmit it to shore via subsea cables. At an onshore converter station, the electricity will then be converted back into alternating current and fed into the grid.
