German utility company Trianel Windkraftwerk Borkum is carrying out the project at a cost of โฌ1bn. The venture is expected to generate 1,200GWh annually to power nearly 250,000 households.
The wind farm was approved by the Federal Maritime and Hydrographic Agency in June 2008. It will include 80 wind turbines with an individual capacity of 5MW, with each to be installation split into 40 across the phases. The first phase is expected to be commissioned in winter of 2012-13 and the second in 2014. Construction of the first phase began in September 2011 and the final assembly of the first 40 units will start in the summer of 2012.
The project is expected to stop 7t of carbon dioxide emissions annually and help the diversification of energy supply..
Project finance
A group of 11 banks is providing a loan of โฌ550.5m for the project. The banks include UniCredit Bank, Dexia, Crรฉdit Local, KFW IPEX-Bank, Coรถperatieve Centrale Raiffeisen-Boerenleenbank, NRW.Bank, ASN Bank, Deutsche Bank, Helaba, NIBC Bank and SEB.
In December 2009 the project received โฌ40m in funding from the EU under the European Energy Programme for Economic Recovery (EEPR).
“Trianel Windkraftwerk Borkum is executing the project at a cost of โฌ1bn.”
Plant make-up
The wind farm will consist of 80 turbines, each of which can rotate at speeds of 25m/sec. The turbines can also operate during heavy storms. A 400MW normally unmanned offshore substation will serve the wind farm. The substation will have traditional jacket and topsides facilities.
Construction
The wind turbines will be held by tripod jackets connected to a foundation structure, installed underwater at depths of around 30m. The turbines will be connected to the tripods through steel piles with a diameter of 2.5m.
All on-site works will be carried out using construction ships. The wind turbines will be assembled at Eemshaven near Borkum and carried to the site by cargo barges. Installation will be carried out using cranes.
Construction works of the second phase will commence immediately following the completion of the first phase.
Transmission
Electricity generated by the wind farm will be transmitted onshore to the island of Norderney by a 65km direct-current submarine cable. From the island, the electricity will be fed into Germany’s high voltage network.
Contractors
SGS was awarded a contract to provide certification services for the project in May 2008. Project certification provided by SGS helped in obtaining the necessary approvals for the project. SGS will also provide supervision services during the construction.
In November 2009, Noble Denton and Germanischer Lloyd were awarded a contract to provide technical support and project management services for the wind farm.
A joint venture between Nordsee Nassbagger und Tiefbau and GeoSea won a โฌ70m contract in August 2010 for prepiling and installation of turbines in the first phase.
“From the island, the electricity will be fed into Germany’s high voltage network.”
Areva was awarded a โฌ400m contract in December 2010 for supplying 40 wind turbines for the project. The company will supply its MultiBrid M5000 offshore turbines under the contract, which also includes option for an additional 40 turbines. Scope of work for Areva includes commissioning, testing and maintenance of the turbines.
In February 2011, Alstom Grid won a contract to construct the topsides and substructure of the offshore substation. Alstom Grid was earlier awarded a contract to supply electrical system for the substation. Alstom is expected to complete the project by March 2012 with the assistance of its subcontractor WeserWind.
Norddeutsche Seekabelwerke was awarded a โฌ22m contract in February 2011 to install the submarine cables for the first phase of the project. The company will use its NOSTAG 10 ship to install the cables.
SgurrEnergy, a multi-disciplinary engineering consultancy, was contracted in June 2011 to provide construction monitoring services for the project.
