Eon press release, Monday 18th May 2015:-
Rampion Offshore Wind Farm receives £1.3bn green light from E.ON and UK Green Investment Bank
A partnership between E.ON and the UK Green Investment Bank plc (GIB) means the project, 13km off the Sussex coast, will now enter construction;
Construction could power around 350 to 450 jobs during the main building phase;
The completed wind farm could provide enough electricity for around 300,000 homes;
Secretary of State for Energy and Climate Change, the Rt Hon Amber Rudd MP, says: "This huge investment is a vote of confidence in the UK"
E.ON has today (Monday) confirmed that it will invest in and build the £1.3bn, Rampion Offshore Wind Farm, which will be situated 13km off the Sussex coast, alongside partners in the project, the GIB.
The partnering approach taken by E.ON and GIB, an organisation which has a mission to accelerate the UK's transition to a greener economy, means the green light has been given for full construction to begin on the 400MW capacity, 116 turbine, 72km2 wind farm. When complete the wind farm could provide enough electricity to supply the equivalent of around 300,000 homes and reduce CO2 emissions by up to 600,000 tonnes a year.
Secretary of State for Energy and Climate Change, the Rt Hon Amber Rudd MP, said: "This huge investment is a vote of confidence in the UK, creating local jobs, bringing business opportunities and providing clean, home-grown energy.
"The UK is the best place in the world to invest in offshore wind, thanks to the certainty the Government is able to provide to attract private finance in partnership with the Green Investment Bank."
E.ON UK Chief Executive, Tony Cocker, said: "This is an important milestone for what is a strategically important project for the UK. At around £1.3bn this investment by E.ON and our partners at the Green Investment Bank could be one of the biggest capital projects confirmed in Britain this year and we are proud of the leading role we are continuing to take in helping to transform the UK's energy infrastructure."
Shaun Kingsbury, Chief Executive of the UK Green Investment Bank plc, said: "Our investment gives the developer the confidence to begin construction on this important offshore wind project, boosting UK energy supply and generating enough power annually for around three hundred thousand homes."
Construction of the onshore substation in Twineham is planned to start in June, closely followed by preparation works for the onshore cable route. Offshore construction will commence in early 2016 with planned completion in 2018.
To update local people of the work involved, E.ON will be holding community information events over the forthcoming weeks and months. These will be publicised locally and will be aimed at keeping communities local to the construction site informed.
Chris Tomlinson, E.ON Development Manager for the Rampion Wind Farm, said: "We're delighted to be able to announce our construction plans and we'll continue to keep the local community informed over the coming months and years as our onshore and offshore activities progress."
During the planned 3 year offshore construction period it is estimated that around 250 to 300 jobs will be created and local vessels utilised, with 40 roles being based at the project management facility in Newhaven Port. It is expected that a workforce of up to 100 will be needed for the onshore cable route and around a further 40 to 60 people at the onshore substation during onshore construction. Once the wind farm is commissioned and fully operational, it is envisaged that up to 65 full time permanent jobs will be created at the operations and maintenance base.
The Rampion project remains set to become the first offshore wind farm off the south coast of England and is believed to be the first UK Round 3 project to enter construction.
Newhaven Port & Properties Ltd welcome this announcement. It is great news that the project is going ahead and will be utilising Newhaven Port as the long term operations base and the jobs that will bring, as well as supporting the construction phase.