"We are extremely pleased to drive the development of a high-performance, European interconnected power system. With this new interconnection we support our customer ElecLink to implement efficient market trading arrangements and the expanded integration of renewable energy sources", stated Ralf Christian, CEO of the Siemens Energy Management Division. "Siemens has already commissioned multiple HVDC links like BritNed, connecting Great Britain and the European continent and is currently implementing further projects like NEMO and now ElecLink."
Steven Moore, Chief Executive Officer of ElecLink said: "Today marks the culmination of years of hard work to make ElecLink a reality. I am delighted it can now proceed with world-class partners such as Siemens. The construction phase of the project will bring together the world's best engineers and technologies to pursue the construction without interruption of the tunnel's traffic, and when complete, it will play a key role by helping to meet the governments' energy trilemma."
The HVDC link between France and Great Britain has been designated as one of the European Commission's projects of common interest to help create an integrated European Union energy market. As the cable goes through the Channel Tunnel there will be no subsea lay or burial in the Channel.
The scope of the order covers a 1000 MW converter system for a DC voltage of ±320 Kilovolt (kV). The two converter stations, one at Peuplingues in France, the other in Folkestone in the UK, will be linked by a 51 kilometer-long DC power cable. The scope of supply includes the overall system design and the supply, installation and commissioning of all components. The HVDC power modules and HVDC transformers will be manufactured at two Siemens factories in Nuremberg, Germany.
Both converter stations will be using HVDC Plus voltage-sourced converters in a modular multilevel converter arrangement (VSC-MMC) that convert AC to DC and DC back to AC on the other side of the link. In contrast to line-commutated converter technology, the HVDC Plus system works with power transistors that can also be switched off (IGBT), enabling the commutation processes in the power converter to run independently of the grid voltage. The very fast control and protective intervention capabilities of the power converters provides a high level of stability in the transmission system, which primarily serves to reduce grid faults and disturbances in the three-phase AC network. This significantly increases supply reliability for utility companies and power customers.
This press release, press pictures and further information is available at www.siemens.com/press/eleclink
For further information on Energy Management, please see www.siemens.com/energy-management