Voltaire

Transport and installation of 87 windturbines for Dogger Bank Wind Farm, United Kingdom

Dogger Bank Wind Farm and Jan De Nul Group announce the signing of the final contract for the transport and installation of the GE Haliade-X offshore wind turbines at Dogger Bank A and Dogger Bank B, 130 km off the Yorkshire coast, starting in 2023. Turbine delivery and installation at the first two phases of Dogger Bank Wind Farm will be the first assignment for the world’s largest Offshore Jack-Up Installation Vessel owned by Jan De Nul Group, the Voltaire.

Construction of the world’s largest offshore wind farm
The 3.6GW Dogger Bank Wind Farm, which is being delivered in the North Sea in three 1.2GW phases, is set to be the world’s largest offshore wind farm when complete and is a joint venture between SSE Renewables and Equinor.

When complete, Dogger Bank will generate enough energy to power over 4.5 million homes every year – around 5% of the UK’s electricity needs.

Dogger Bank Wind Farm secured 3.6 GW of offshore wind contracts in the UK Government’s 2019 contracts for difference auctions. Record low prices were awarded for the three projects making up Dogger Bank Wind Farm: Dogger Bank A, Dogger Bank B and Dogger Bank C. Dogger Bank A and Dogger Bank B are now moving towards final investment decision, expected by the end of 2020. SSE Renewables is leading the development and construction phases of Dogger Bank Wind Farm and Equinor will lead on operations for its lifetime of at least 25 years, creating around 200 jobs in the North East.

First seagoing installation vessels to be an Ultra-Low Emissions vessel
This vessel, currently under construction, will have a lifting capacity of over 3,000 tonnes and will enter into service in 2022.

She is named after the pioneering European Enlightenment philosopher and is fitted with a highly advanced exhaust filtering system by means of a Selective Catalytic Reduction system and a Diesel Particulate Filter, making it the very first seagoing installation vessel of its kind to be an Ultra-Low Emission vessel (ULEv).