Siemens installs first offshore wind platform in North Sea
Siemens has installed the HelWin1 offshore platform in the North Sea. HelWin1 will link the two offshore wind farms Nordsee Ost and Meerwind to the mainland. Using the Siemens technology installed on the platform, the alternating current power generated by the wind turbines is transformed into low-loss direct current for transmission onto land. Starting next year, this will enable the network operator and purchaser TenneT to supply clean electricity to more than 500,000 German households on the mainland. The land-based station, also supplied by Siemens to TenneT, is located northwest of Hamburg in Büttel, where electricity will be converted back into the alternating current power required for feeding into the grid.
The network operator TenneT contracted the consortium consisting of Siemens and the Italian cable specialist Prysmian for the HelWin1 offshore grid connection in 2010. This consortium is implementing a total of four North Sea grid connection projects for TenneT; HelWin1 and HelWin2 off of Helgoland, BorWin2 off of Borkum and SylWin1 off of Sylt.
After seven days of transport at sea and four days of installation on site, the HelWin1 platform was anchored at its final position northwest of the island of Helgoland on August 23. Siemens had installed the platform’s support substructure at this location in June in the 23-meter-deep North Sea. Ten steel pilings up to 3.2 meters in diameter and with a wall thickness of eight centimeters were anchored in the seabed for attachment of the structure. The platform is installed 22 meters above sea level to protect it against giant waves. HelWin1 is designed for decades of operation in the North Sea.
The platform is equipped with a helipad and was fabricated by Nordic Yards at the shipyard in Wismar under contract by Siemens. Nordic Yards has been contracted by Siemens with the fabrication of two more HVDC platforms for the grid connections BorWin2 and SylWin.
Up to 100 employees will be active on the platform for the subsequent project phase in the North Sea. They will first re-open the doors and panels previously welded closed for transport and remove other protective transport fixtures and ballast weights. An on-site jack-up platform will be used to prepare the supplies and quarters for the crew.
Now, the two subsea cables from Prysmian are also to be connected. Siemens’ consortium partner has supplied and laid in bundle the two cables, each with a length of 130 km, for transmission of 250 kilovolt DC voltage in the future. The cable route covers 85 km at sea and 45 km over land. Both 11 cm thick cables, with its protective steel armoring wire layer and a 35 mm thick copper conductor, weighs about 30 kg per meter.
The HelWin1 HVDC platform has a capacity of 576 megawatts (MW). Due to the direct-current technology employed, the total transmission losses for this connection are less than four percent. The HVDC Plus technology employed by Siemens reduces the complexity and, hence, the space requirements for HVDC systems, which is a decisive factor for installation at sea. In contrast to classic HVDC technology used in a vast majority of land links, systems equipped with HVDC Plus feature self-stabilization. This enhances grid reliability in the event of power fluctuations, which can occur with wind-based power generation. HVDC Plus is a multi-level VSC system. This modular, multi-level VSC technology ensures an almost ideal sinusoidal AC waveshape and smoothed direct voltage along the transmission line, that makes the installation of high-frequency and harmonic filters practically superfluous.
The commissioning of HelWin1 is scheduled for the second half of 2014. The platform is completely automated and the systems on the platform can be monitored and controlled from land, with cameras and sensors providing a complete overview of the current operating status. The crews’ quarters on the platform can be used when maintenance work is required. Siemens was contracted by TenneT for maintenance of the grid connection for an initial period of five years.