2024-11-24
http://w3.windfair.net/wind-energy/pr/6827-london-array-siemens-to-provide-grid-access-for-world-s-largest-offshore-wind-farm

News Release from Siemens Gamesa Renewable Energy

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London Array: Siemens to provide grid access for world’s largest offshore wind farm

With its 175 Siemens wind turbines and a total capacity of 630 megawatts (MW) the London Array offshore wind farm will following completion be the largest of its kind in the world. After Siemens Energy was already appointed to supply the turbines for the

The wind farm is being erected in the Thames estuary approximately twenty kilometers off the Kent and Essex coasts. An option is also provided for uprating London Array to as much as 1000 MW. The wind farm will thus become the first in the 1-gigawatt class. That will be sufficient to supply 750,000 British households with eco-friendly electricity, which is equivalent to approximately a quarter of the population of Greater London. “Offshore wind farms of this size place particular demands in terms of grid access. We not only have the requisite technology and know-how but also a wealth of experience in connecting offshore wind farms to the grid,” said Udo Niehage, CEO of the Power Transmission Division of Siemens Energy.

Siemens will supply the electrical equipment for two offshore substation platforms, which will be installed right at the wind farm. The substations bundle the power generated by the 175 Siemens SWT-3.6 wind turbines, each rated at 3,6 MW, before it is transported via high-voltage subsea cable to the coast. On each of the platforms there are two 180-MVA transformers and medium-voltage switchgear. The requisite protection and instrumentation and control equipment is also installed on the platforms. Distribution over two platforms has the advantage that the cable routes within the wind farm are short, and power transmission losses are kept as low as possible to enhance the wind farm’s energy efficiency.

The transformers on the substation platforms step up the 33 kilovolts (kV) generated by the wind turbines to a transmission voltage of 150 kV. High-voltage subsea cables transport the electricity to the grid access point, which is located in Cleve Hill. In addition to a substation with four 180-MVA power transformers (400/150 kV) Siemens will also install four 50-MVAr reactive-power compensators at this access point to fulfill the British grid’s requirements (Grid Code) on the quality of the electrical energy fed into the grid.

For that purpose Siemens will deploy its new SVC Plus system. It operates with innovative voltage-sourced converter (VSC) technology and is continuously controllable with the aid of insulated-gate bipolar transistors (IGBTs). The central feature of SVC Plus, a further refined statcom (static synchronous compensator), is its modular multilevel converter technology. By contrast with other self-commutated converter topologies the voltage waveform generated is practically sinusoidal because of the multilevel technology. This means that the low-frequency harmonic filters required in solutions used to date are no longer needed and significantly less space is required for the overall system.

Siemens will also prepare the requisite design studies for grid access for all of the wind farm’s electrical components and prepare the grid studies to demonstrate fulfillment of grid access requirements.

The provision of energy-efficient grid access for offshore wind farms is part of Siemens’ Environmental Portfolio. In fiscal 2009, revenue from the Portfolio totaled about €23 billion, making Siemens the world’s largest supplier of eco-friendly technologies. In the same period, our products and solutions enabled customers to reduce their CO2 emissions by 210 million tons."
Source:
Siemens AG
Author:
Dietrich Biester
Email:
dietrich.biester@siemens.com
Link:
www.siemens.com/...



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