Working in consortium with the Italian cable manufacturer Prysmian, Siemens Energy is erecting HelWin 2, the link between the North Sea offshore windfarm Amrumbank West and the onshore grid. The customer is TenneT TSO GmbH of Bayreuth, Germany. The order brings more than half a billion euros onto the consortium’s books. The grid connection, designed as a high-voltage direct-current transmission link, has a rating of 690 MW and is scheduled to be operational by 2015.
Amrumbank West will be built in the North Sea, about 55 km from the mainland, 35 km north of Helgoland, and 37 km west of the North Frisian island of Amrum. The wind farm will have a power capacity between 300 and 400 MW. Together with the Meerwind and North Sea East offshore windfarms, Amrumbank West is part of the North Sea cluster HelWin.
"This order to connect the Amrumbank West windfarm to the power grid underscores our unchallenged market leadership in grid connections for offshore windfarms. So far, we have booked orders to link up offshore windfarms delivering a total electrical generating capacity of over 6000 MW," says Udo Niehage, CEO of the Power Transmission Division within Siemens' Energy Sector.
The centerpiece of the HelWin 2 link-up is the offshore converter platform HelWin beta, on which the Siemens HVDC Plus system for high-voltage direct-current (HVDC) transmission is installed. It also houses two power transformers and the gas-insulated high-voltage switchgear. Siemens is responsible for turnkey supply of the fully equipped floating and self-erecting platform, also known as a wind power offshore substation, or WIPOS for short. TenneT has also awarded Siemens a contract to carry out all maintenance work on the platform and on the on-shore transformer substation for an initial period of five years. This includes coordination and logistics efforts as well
as performance of all necessary inspections, preventive and corrective maintenance, spare parts management, and drawing up the maintenance schedules.
The 3-phase alternating current generated by the wind turbines will be bundled on the offshore transformer platform and transmitted to the converter platform via high-voltage cable. There the alternating current arriving at a voltage of 155 kV will be stepped up and converted into direct current in the Siemens HVDC system. The electric power will then be transmitted at a voltage of ±320 kV via a submarine high-voltage cable from the feed-in point on the platform to the grid connection point in Büttel, northwest of the city of Hamburg, over 130 km away. There, a transformer and converter substation will convert the power back into alternating current for onward transmission and distribution.
Another special feature of the HelWin beta offshore converter platform is that it will be connected via a bridge to its parent platform HelWin alpha to allow shared use of the helicopter deck and crew quarters. There will also be an AC cable link to the busbar of the platform's 155-kV switchgear and a link to the emergency power system. The HelWin alpha platform, via which the North Sea East windfarm is connected to the grid, forms an integral part of the Helwin1 link-up.
High-voltage direct current transmission technology significantly reduces transmission losses. HVDC is the only viable solution for economical, low-loss transmission of power via cable over distances in excess of 80 km, because in an alternating current cable of that length a large part of the electrical energy transmitted would be lost in the form of reactive power. Siemens has developed its HVDC Plus system for precisely such cases. HVDC Plus is a new generation of power converters based on self-commutated voltage-sourced-converter technology in modular multilevel-converter configuration (VSC MMC). Siemens is at the cutting edge of technology in this field. Modular, multilevel VSC technology reduces the complexity and thus the space taken up by such systems – an essential prerequisite for deployment on offshore platforms. What is more, HVDC Plus produces an almost ideally sinusoidal AC waveshape and a smoothed DC voltage along the transmission line, practically eliminating the need for filters.
