Offshore wind power or offshore wind energy is the energy taken from the force of the winds out at sea, transformed into electricity and supplied into the electricity network onshore.
If you look out to the North Sea from the UK’s East Coast, you’ll see line upon line of these immense white wind turbines.
You can discover more about the technology used to harness the wind’s energy by reading our article on how wind turbines work.
Absolutely. Offshore wind power is a constantly renewable and infinite energy source, and the conversion of wind into power creates no harmful greenhouse gas emissions. As we work to tackle climate change and reduce greenhouse gases, offshore wind power will play an essential role in our future electricity generation.
The advantages of offshore wind farms are:
The disadvantages of offshore wind farms are:
According to the latest available energy trends figures from the Department for Business, Energy and Industrial Strategy (BEIS), the share from offshore wind generation increased from 9.7% in the third quarter of 2019 to 11 per cent in the third quarter of 2020. That compares to 5.6% for solar and 12.7% for bioenergy and waste.
2020 saw the record for the highest ever level of wind generation broken several times during the year – most recently on 18 December (17.2GW) – while 26 August saw wind contributing its highest ever share to the electricity mix (59.9%).
The UK has the largest installed capacity of offshore wind in the world, with around 10GW in operation off its coasts. The North Sea is seen as the engine room of the UK’s green and resilient future economy, leading the world in offshore wind technology.
Germany is the second country with cumulative installed offshore wind capacity, with China a close third.
Hornsea 1 in the North Sea is the world’s largest offshore wind farm. Off the coast of Lincolnshire, it has 174 turbines, covers 407 square kilometres and provides 1.2GW of green energy. That’s enough to provide sustainably-sourced electricity for more than a million homes.
The UK and its European neighbours have been working together on the flow of green and clean electricity from offshore wind farms. You can read more about the engineering feats involved in interconnectors.
Yes, the government has set an ambitious target to deploy 40GW of offshore wind by 2030 – four times more than the 10GW we currently produce and enough to power every home at current electricity usage levels. The UK currently produces enough offshore wind power to provide electricity for 7 million homes.
The Climate Change Committee has advised the UK will need 140GW to meet net zero by 2050; as demand will increase as we shift to clean energy to drive our electric vehicles, heat our homes and power our energy intensive industries, such as data centres.
Floating offshore wind turbines are an exciting technology development. These will allow wind farms to be tethered to the seabed and positioned further out to sea in deeper waters where winds are stronger, thus boosting offshore wind power capacity even further.
And the offshore wind industry will be propelled forward – literally - by the creation of taller wind turbines with huge wind blades. The Haliade-X 13MW has been successfully tested and will be supplied to Dogger Bank wind farm, off the Yorkshire coast. A single sweep of its 107-meter long blades will be able to power the average UK household for more than two days.
Interconnectors – huge deep undersea cables that bring electricity onshore – will play an increasing role in developing capacity between the UK and its European neighbours, and reducing electricity costs for homes and businesses.
Nicola Shaw, Executive Director, UK, says: “In 2020 alone, National Grid’s interconnectors have prevented more than 1 million tonnes of CO2 emissions, equivalent to planting 50 million trees or taking almost 700,000 cars off the road.
“By 2025, will have 8GW of interconnector capacity to Norway, Denmark, France, the Netherlands and Belgium, which we estimate will prevent around 100 million tonnes of CO2 emissions between now and 2030.”
In addition, two new electricity undersea highways from Scotland to England, SEGL1 and SEGL2, will be operational by 2030.
Minimising the impact on local communities and creating positive relations, principally on the east coast of the UK, while creating the infrastructure to transport extra electricity from the coast to cities cost-effectively, all while creating local jobs, are some of the challenges.
Nicola Shaw says: “We welcome the ambition and believe that, while challenging, it is achievable. The scale of projects in the pipeline is unprecedented. And it’s a stretching target that will need the right regulatory, planning and policy framework to support the requisite investment, both on and offshore, without losing the good will of communities.
“There is a huge increase in the amount of electricity cable that the industry needs to produce to support this – enough cable to run from Portsmouth to Perth in Australia!”