Offshore wind power or offshore wind energy is the
generation of electricity through
wind farm
A wind farm or wind park, also called a wind power station or wind power plant, is a group of wind turbines in the same location used Wind power, to produce electricity. Wind farms vary in size from a small number of turbines to several hundre ...
s in bodies of water, usually at sea. There are higher wind speeds offshore than on land, so offshore farms generate more electricity per amount of capacity installed.
[Madsen & Krogsgaard]
Offshore Wind Power 2010
''BTM Consult BTM Consult is an independent consultancy company specializing in services pertaining to renewable energy commercialization. The company was founded 1989 by Per Krogsgaard and Birger Madsen. The Staff at BTM Consult have been working with wind pow ...
'', 22 November 2010. Retrieved: 22 November 2010. Offshore wind farms are also less controversial than those on land, as they have less impact on people and the landscape.
Unlike the typical use of the term "offshore" in the marine industry, offshore
wind power
Wind power or wind energy is mostly the use of wind turbines to electricity generation, generate electricity. Wind power is a popular, sustainable energy, sustainable, renewable energy source that has a much smaller Environmental impact of wi ...
includes inshore water areas such as lakes, fjords and sheltered coastal areas as well as deeper-water areas. Most offshore wind farms employ fixed-foundation wind turbines in relatively shallow water. As of 2020, floating wind turbines for deeper waters were in the early phase of development and deployment.
As of 2020, the total worldwide offshore wind power
nameplate capacity
Nameplate capacity, also known as the rated capacity, nominal capacity, installed capacity, or maximum effect, is the intended full-load sustained output of a facility such as a power station, was 35.3
gigawatt
The watt (symbol: W) is the unit of power or radiant flux in the International System of Units (SI), equal to 1 joule per second or 1 kg⋅m2⋅s−3. It is used to quantify the rate of energy transfer. The watt is named after James Wat ...
(GW).
United Kingdom
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom (UK) or Britain, is a country in Europe, off the north-western coast of the continental mainland. It comprises England, Scotland, Wales and North ...
(29%),
China
China, officially the People's Republic of China (PRC), is a country in East Asia. It is the world's most populous country, with a population exceeding 1.4 billion, slightly ahead of India. China spans the equivalent of five time zones and ...
(28%) and
Germany
Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and the most populous member state of the European Union. Germany is situated betwe ...
(22%) account for more than 75% of the global installed capacity. The 1.2 GW
Hornsea Project One in the
United Kingdom
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom (UK) or Britain, is a country in Europe, off the north-western coast of the continental mainland. It comprises England, Scotland, Wales and North ...
was the world's largest offshore wind farm. Other projects in the planning stage include
Dogger Bank
Dogger Bank (Dutch: ''Doggersbank'', German: ''Doggerbank'', Danish: ''Doggerbanke'') is a large sandbank in a shallow area of the North Sea about off the east coast of England.
During the last ice age the bank was part of a large landmass c ...
in the United Kingdom at 4.8 GW, and Greater Changhua in
Taiwan
Taiwan, officially the Republic of China (ROC), is a country in East Asia, at the junction of the East and South China Seas in the northwestern Pacific Ocean, with the People's Republic of China (PRC) to the northwest, Japan to the nort ...
at 2.4 GW.
The cost of offshore has historically been higher than that of onshore,
[ but costs decreased to $78/MWh in 2019.] Offshore wind power in Europe became price-competitive with conventional power sources in 2017. Offshore wind generation grew at over 30 percent per year in the 2010s. As of 2020, offshore wind power had become a significant part of northern Europe power generation, though it remained less than 1 percent of overall world electricity generation. A big advantage of offshore wind power compared to onshore wind power is the higher capacity factor
The net capacity factor is the unitless ratio of actual electrical energy output over a given period of time to the theoretical maximum electrical energy output over that period. The theoretical maximum energy output of a given installation is def ...
meaning that an installation of given nameplate capacity will produce more electricity at a site with more consistent and stronger wind which is usually found offshore and only at very few specific points onshore.
History
Capacity
Europe is the world leader in offshore wind power, with the first offshore wind farm ( Vindeby) being installed in Denmark
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in 1991.[
In 2009, the average ]nameplate capacity
Nameplate capacity, also known as the rated capacity, nominal capacity, installed capacity, or maximum effect, is the intended full-load sustained output of a facility such as a power station, of an offshore wind turbine in Europe was about 3 MW, and the capacity of future turbines was expected to increase to 5 MW.[
A 2013 review of the engineering aspects of turbines like the sizes used onshore, including the electrical connections and converters, considered that the industry had in general been overoptimistic about the benefits-to-costs ratio and concluded that the "offshore wind market doesn’t look as if it is going to be big".]
In 2013, offshore wind power contributed to 1,567 MW of the total 11,159 MW of wind power capacity constructed that year.
By January 2014, 69 offshore wind farms had been constructed in Europe with an average annual rated capacity of 482 MW.[''The European offshore wind industry - key trends and statistics 2013 '',The European Wind Energy Association, 2014]
The total installed capacity of offshore wind farms in European waters reached 6,562 MW.
The United Kingdom
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom (UK) or Britain, is a country in Europe, off the north-western coast of the continental mainland. It comprises England, Scotland, Wales and North ...
had by far the largest capacity with 3,681 MW.
Denmark was second with 1,271 MW installed and Belgium was third with 571 MW.
Germany came fourth with 520 MW, followed by the Netherlands (247 MW), Sweden (212 MW), Finland (26 MW), Ireland (25 MW), Spain (5 MW), Norway (2 MW) and Portugal (2 MW).
At the end of 2015, 3,230 turbines at 84 offshore wind farms across 11 European countries had been installed and grid-connected, making a total capacity of 11,027 MW.
Outside of Europe, the Chinese government had set ambitious targets of 5 GW of installed offshore wind capacity by 2015 and 30 GW by 2020 that would eclipse capacity in other countries.
However, in May 2014 the capacity of offshore wind power in China was only 565 MW.
Offshore capacity in China increased by 832 MW in 2016, of which 636 MW were made in China.
The offshore wind construction market remains quite concentrated.
By the end of 2015, Siemens Wind Power
Siemens AG ( ) is a German Multinational corporation, multinational Conglomerate (company), conglomerate corporation and the largest industrial manufacturing company in Europe headquartered in Munich with branch offices abroad.
The principal ...
had installed 63% of the world's 11 GW offshore wind power capacity; Vestas
Vestas Wind Systems A/S is a Danish manufacturer, seller, installer, and servicer of wind turbines that was founded in 1945. The company operates manufacturing plants in Denmark, Germany, the Netherlands, Taiwan, India, Italy, Romania, the Uni ...
had 19%, Senvion
Senvion S.A. (called REpower Systems SE until 2014) was a German wind turbine manufacturer founded in 2001 in Germany, majority owned by a private equity firm.
Senvion as REpower Systems, as it was initially called, was established in 2001 th ...
came third with 8% and Adwen
Adwen or Adwenna was a 5th-century Christian virgin and saint.Baring-Gould, Sabine & al''The Lives of the British Saints: The Saints of Wales and Cornwall and Such Irish Saints as Have Dedications in Britain'', Vol. II, pp. 107& ...
6%.
About 12 GW of offshore wind power capacity was operational, mainly in Northern Europe, with 3,755 MW of that coming online during 2015. As of 2020 90% of the offshore global market was represented by European companies.
By 2017, the installed offshore wind power capacity worldwide was 20 GW. In 2018, offshore wind provided just 0.3% of the global electricity supply. Nevertheless, just in 2018 an additional amount of 4.3 GW of offshore wind capacity was employed on a worldwide scale. In Denmark, 50% of the electricity was supplied by wind energy in 2018 out of which 15% was offshore. The average size of turbines installed was 6.8 MW in 2018, 7.2 MW in 2019 and 8.2 MW in 2020.
Costs
In 2010, the US Energy Information Agency said "offshore wind power is the most expensive energy generating technology being considered for large scale deployment".[Levelized Cost of New Generation Resources in the Annual Energy Outlook 2011](_blank)
Released 16 December 2010. Report of the US Energy Information Administration
The U.S. Energy Information Administration (EIA) is a principal agency of the U.S. Federal Statistical System responsible for collecting, analyzing, and disseminating energy information to promote sound policymaking, efficient markets, and publ ...
(EIA) of the U.S. Department of Energy (DOE).
The 2010 state of offshore wind power presented economic challenges significantly greater than onshore systems, with prices in the range of 2.5-3.0 million Euro/MW.
That year, Siemens
Siemens AG ( ) is a German multinational conglomerate corporation and the largest industrial manufacturing company in Europe headquartered in Munich with branch offices abroad.
The principal divisions of the corporation are ''Industry'', '' ...
and Vestas
Vestas Wind Systems A/S is a Danish manufacturer, seller, installer, and servicer of wind turbines that was founded in 1945. The company operates manufacturing plants in Denmark, Germany, the Netherlands, Taiwan, India, Italy, Romania, the Uni ...
were turbine suppliers for 90% of offshore wind power, while Ørsted A/S (then named DONG Energy), Vattenfall
Vattenfall is a Swedish multinational power company owned by the Swedish State. Beyond Sweden, the company generates power in Denmark, Finland, Germany, the Netherlands, and the United Kingdom.
The company's name is Swedish for "waterfall", and ...
and E.on were the leading offshore operators.
In 2011, Ørsted estimated that while offshore wind turbines were not yet competitive with fossil fuels, they would be in 15 years.
Until then, state funding and pension funds would be needed.[Nymark, Jens]
Seaturbines competitive in 15 years
'' Børsen'', 15 November 2011. Accessed: 10 December 2011.
At the end of 2011, there were 53 European offshore wind farms in waters off Belgium, Denmark, Finland, Germany, Ireland, the Netherlands, Norway, Sweden and the United Kingdom, with an operating capacity of 3,813 MW,[Justin Wilkes et al]
The European offshore wind industry key 2011 trends and statistics
''European Wind Energy Association
WindEurope is an association promoting the use of wind power in Europe. Based in Brussels it has over 600 members, which are active in over 50 countries, including manufacturers with a leading share of the world wind power market, component suppli ...
'', January 2012. Accessed: 26 March 2012. while 5,603 MW was under construction.[17 EU countries planning massive offshore wind power]
''ROV world'', 30 November 2011. Accessed: 10 December 2011.
Offshore wind farms worth €8.5 billion ($11.4 billion) were under construction in European waters in 2011.
In 2012, Bloomberg Bloomberg may refer to:
People
* Daniel J. Bloomberg (1905–1984), audio engineer
* Georgina Bloomberg (born 1983), professional equestrian
* Michael Bloomberg (born 1942), American businessman and founder of Bloomberg L.P.; politician and ma ...
estimated that energy from offshore wind turbines cost () per MWh.
Costs of offshore wind power are decreasing much faster than expected.
By 2016, four contracts (Borssele
Borssele is a village in the Dutch province of Zeeland. It is a part of the municipality of Borsele, and lies about 12 km east of Vlissingen. Note that the municipality name is spelled with a single ''s'' while the name of the town is spelled ...
and Kriegers) were already below the lowest of the predicted 2050 prices.
Future development
Projections for 2020 estimate an offshore wind farm capacity of 40 GW in European waters, which would provide 4% of the European Union
The European Union (EU) is a supranational political and economic union of member states that are located primarily in Europe. The union has a total area of and an estimated total population of about 447million. The EU has often been des ...
's demand of electricity.
The European Wind Energy Association
WindEurope is an association promoting the use of wind power in Europe. Based in Brussels it has over 600 members, which are active in over 50 countries, including manufacturers with a leading share of the world wind power market, component suppli ...
has set a target of 40 GW installed by 2020 and 150 GW by 2030.
Offshore wind power capacity is expected to reach a total of 75 GW worldwide by 2020, with significant contributions from China and the United States.[
The ]Organisation for Economic Co-operation and Development
The Organisation for Economic Co-operation and Development (OECD; french: Organisation de coopération et de développement économiques, ''OCDE'') is an intergovernmental organization, intergovernmental organisation with 38 member countries ...
(OECD) predicted in 2016 that offshore wind power will grow to 8% of ocean economy by 2030, and that its industry will employ 435,000 people, adding $230 billion of value.
The European Commission
The European Commission (EC) is the executive of the European Union (EU). It operates as a cabinet government, with 27 members of the Commission (informally known as "Commissioners") headed by a President. It includes an administrative body o ...
expects that offshore wind energy will be of increasing importance in the future, as offshore wind is part of its Green Deal. The development of the full potential of Europe's offshore wind energy is one of the key actions in the Clean Energy section of the Green Deal.
By 2050, the expectation is that the installed offshore wind power capacity will reach 1550 GW on a worldwide scale. Compared to the capacity of 2017 that corresponds to an 80-fold increase.
One of the advancements that characterises the current development within the offshore industry are technologies that allow for offshore wind projects further off the shore where wind availability is higher. In particular, the adoption of floating foundation technologies has proved to be a promising technology for unlocking the wind potential on deeper waters.
Economics
The advantage of locating wind turbines offshore is that the wind is much stronger off the coasts, and unlike wind over land, offshore breezes can be strong in the afternoon, matching the time when people are using the most electricity. Offshore turbines can also be located close to the load centers along the coasts, such as large cities, eliminating the need for new long-distance transmission lines.
However, there are several disadvantages of offshore installations, related to more expensive installation, difficulty of access, and harsher conditions for the units.
Locating wind turbines offshore exposes the units to high humidity, salt water and salt water spray which negatively affect service life, cause corrosion and oxidation, increase maintenance and repair costs and in general make every aspect of installation and operation much more difficult, time-consuming, more dangerous and far more expensive than sites on land.
The humidity and temperature is controlled by air conditioning
Air conditioning, often abbreviated as A/C or AC, is the process of removing heat from an enclosed space to achieve a more comfortable interior environment (sometimes referred to as 'comfort cooling') and in some cases also strictly controlling ...
the sealed nacelle.
Sustained high-speed operation and generation also increases wear, maintenance and repair requirements proportionally.
The cost of the turbine represents just one third to one half[Lindvig, Kaj]
The installation and servicing of offshore wind farms
p6 ''A2SEA
A2SEA was an offshore wind farm installation and services company based in Fredericia, Denmark. The company specializes in transport, installation, and servicing of offshore wind farms.
In addition to Denmark, the company has subsidiaries in th ...
'', 16 September 2010. Accessed: 9 October 2011. of total costs in offshore projects today, the rest comes from infrastructure, maintenance, and oversight.
Costs for foundations, installation, electrical connections and operation and maintenance (O&M) are a large share of the total for offshore installations compared to onshore wind farms.
The cost of installation and electrical connection also increases rapidly with distance from shore and water depth.
Other limitations of offshore wind power are related to the still limited number of installations.
The offshore wind industry is not yet fully industrialized, as supply bottlenecks still exist as of 2017.
Investment costs
Offshore wind farms tend to have larger turbines when compared to onshore installations, and the trend is towards a continued increase in size.
Economics of offshore wind farms tend to favor larger turbines, as installation and grid connection costs decrease per unit energy produced.[
Moreover, offshore wind farms do not have the same restriction in size of onshore wind turbines, such as availability of land or transportation requirements.][
]
Operating costs
Operational expenditures for wind farms are split between Maintenance (38%), Port Activities (31%), Operation (15%), License Fees (12%), and Miscellaneous Costs (4%).
Operation and maintenance costs typically represent 53% of operational expenditures, and 25% - 30% of the total lifecycle costs for offshore wind farms. O&Ms are considered one of the major barriers for further development of this resource.
Maintenance of offshore wind farms is much more expensive than for onshore installations.
For example, a single technician in a pickup truck can quickly, easily and safely access turbines on land in almost any weather conditions, exit his or her vehicle and simply walk over to and into the turbine tower to gain access to the entire unit within minutes of arriving onsite.
Similar access to offshore turbines involves driving to a dock or pier, loading necessary tools and supplies into boat, a voyage to the wind turbine(s), securing the boat to the turbine structure, transferring tools and supplies to and from boat to turbine and turbine to boat and performing the rest of the steps in reverse order.
In addition to standard safety gear such as a hardhat, gloves and safety glasses, an offshore turbine technician may be required to wear a life vest, waterproof or water-resistant clothing and perhaps even a survival suit if working, sea and atmospheric conditions make rapid rescue in case of a fall into the water unlikely or impossible.
Typically at least two technicians skilled and trained in operating and handling large power boats at sea are required for tasks that one technician with a driver's license can perform on land in a fraction of the time at a fraction of the cost.
Cost of energy
Cost for installed offshore turbines fell 30% to $78/MWh in 2019, a more rapid drop than other types of renewable energy.[
It has been suggested that innovation at scale could deliver 25% cost reduction in offshore wind by 2020.
Offshore wind power market plays an important role in achieving the renewable target in most of the countries around the world.
Auctions in 2016 for future projects have reached costs of €54.5 per ]megawatt hour
A kilowatt-hour ( unit symbol: kW⋅h or kW h; commonly written as kWh) is a unit of energy: one kilowatt of power for one hour. In terms of SI derived units with special names, it equals 3.6 megajoules (MJ). Kilowatt-hours are a common bi ...
(MWh) at the 700 MW Borssele
Borssele is a village in the Dutch province of Zeeland. It is a part of the municipality of Borsele, and lies about 12 km east of Vlissingen. Note that the municipality name is spelled with a single ''s'' while the name of the town is spelled ...
3&4 due to government tender and size, and €49.90 per MWh (without transmission) at the 600 MW Kriegers Flak.
In September 2017 contracts were awarded in the United Kingdom
The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom (UK) or Britain, is a country in Europe, off the north-western coast of the continental mainland. It comprises England, Scotland, Wales and North ...
for a strike price
In finance, the strike price (or exercise price) of an option is a fixed price at which the owner of the option can buy (in the case of a call), or sell (in the case of a put), the underlying security or commodity. The strike price may be set b ...
of £57.50 per MWh making the price cheaper than nuclear and competitive with gas.
In September 2018 contracts were awarded for Vineyard Wind, Massachusetts, USA at a cost of between $65-$74 per MWh.
Offshore wind resources
Offshore wind resources are by their nature both huge in scale and highly dispersed, considering the ratio of the planet's surface area that is covered by oceans and seas compared to land mass. Wind speeds offshore are known to be considerably higher than for the equivalent location onshore due to the absence of land mass obstacles and the lower surface roughness of water compared to land features such as forests and savannah, a fact that is illustrated by global wind speed maps that cover both onshore and offshore areas using the same input data and methodology.
For the North Sea
The North Sea lies between Great Britain, Norway, Denmark, Germany, the Netherlands and Belgium. An epeiric sea on the European continental shelf, it connects to the Atlantic Ocean through the English Channel in the south and the Norwegian S ...
, wind turbine energy is around 30 kWh/m2 of sea area, per year, delivered to grid. The energy per sea area is roughly independent of turbine size.[ Stiesdal, Henrik.]
Pi and turbines - a useful context
Original, in Danish
''Ingeniøren
''Ingeniøren'' (full name: ''Nyhedsmagasinet Ingeniøren'', literally ''The News Magazine "The Engineer"'') is a Danish weekly newspaper specialising in engineering topics.
History and profile
The paper has covered science and technology issues ...
'', 13 March 2015. Accessed: 13 March 2015.
The technical exploitable resource potential for offshore wind is a factor of the average wind speed and water depth, as it is only possible to generate electricity from offshore wind resources where turbines can be anchored. Currently, fixed foundation offshore wind turbines can be installed up to around of sea depth. Beyond that, floating foundation turbines would be required, potentially allowing installation at depths of up to based on currently proposed technologies.[ ESMAP. 2019.]
Global: Expanding Offshore Wind to Emerging Markets
. Washington, DC: World Bank
The World Bank is an international financial institution that provides loans and grants to the governments of low- and middle-income countries for the purpose of pursuing capital projects. The World Bank is the collective name for the Interna ...
. Accessed: 30 April 2020
Based on an analysis of viable water depths and wind speeds over , it has been estimated that there is over 17 terawatt
The watt (symbol: W) is the unit of power or radiant flux in the International System of Units (SI), equal to 1 joule per second or 1 kg⋅m2⋅s−3. It is used to quantify the rate of energy transfer. The watt is named after James Wat ...
(TW) of offshore wind technical potential in just the 50 countries studied, not including most OECD countries such as Australia, Japan, the United States or Western Europe. Well-endowed countries such as Argentina and China have almost 2 TW and 3 TW of potential respectively, illustrating the vast potential of offshore wind in such locations.[ ESMAP. 2020. "Offshore Wind Technical Potential by Country"]
Maps
an
Tabular Data
Accessed: 30 April 2020.
Planning and permitting
It is necessary to obtain several types of information in order to plan the commissioning of an offshore wind farm. These include:
*Offshore wind characteristics
*Water depth, currents, seabed, migration, and wave action, all of which drive mechanical and structural loading on potential turbine configurations.
*Marine growth, salinity, icing, and the geotechnical
Geotechnical engineering is the branch of civil engineering concerned with the engineering behavior of earth materials. It uses the principles of soil mechanics and rock mechanics for the solution of its respective engineering problems. It als ...
characteristics of the sea or lake bed.
Existing hardware for measurements includes Light Detection and Ranging (LIDAR
Lidar (, also LIDAR, or LiDAR; sometimes LADAR) is a method for determining ranges (variable distance) by targeting an object or a surface with a laser and measuring the time for the reflected light to return to the receiver. It can also be ...
), Sonic Detection and Ranging ( SODAR), radar
Radar is a detection system that uses radio waves to determine the distance (''ranging''), angle, and radial velocity of objects relative to the site. It can be used to detect aircraft, ships, spacecraft, guided missiles, motor vehicles, w ...
, autonomous underwater vehicle
An autonomous underwater vehicle (AUV) is a robot that travels underwater without requiring input from an operator. AUVs constitute part of a larger group of undersea systems known as unmanned underwater vehicles, a classification that includes ...
s (AUV), and remote satellite sensing, although these technologies should be assessed and refined, according to a report from a coalition of researchers from universities, industry, and government, supported by the Atkinson Center for a Sustainable Future
The Cornell Atkinson Center for Sustainability is the hub of collaborative sustainability research at Cornell University, forging vital connections among researchers, students, staff, and external partners. The center’s funding and programming a ...
.
Because of the many factors involved, one of the biggest difficulties with offshore wind farms is the ability to predict loads. Analysis must account for the dynamic coupling between translational (surge, sway, and heave) and rotational (roll, pitch, and yaw) platform motions and turbine motions, as well as the dynamic characterization of mooring lines for floating systems. Foundations and substructures make up a large fraction of offshore wind systems, and must take into account every single one of these factors.[
Load transfer in the ]grout
Grout is a dense fluid which hardens to fill gaps or used as reinforcement in existing structures. Grout is generally a mixture of water, cement and sand, and is employed in pressure grouting, embedding rebar in masonry walls, connecting secti ...
between tower and foundation may stress the grout, and elastomeric bearing
An elastomeric bridge bearing, also known as a pot bearing or elastomeric bearing, is a commonly used modern bridge bearing. The term encompasses several different types of bearings including bearing pads, bridge bearings, laminated elastomeric b ...
s are used in several British sea turbines.
Corrosion is also a serious problem and requires detailed design considerations. The prospect of remote monitoring of corrosion looks very promising, using expertise utilised by the offshore oil/gas industry and other large industrial plants.
Moreover, as power generation efficiency of wind farms downwind of offshore wind farms was found to decrease, strategic decision-making
In psychology, decision-making (also spelled decision making and decisionmaking) is regarded as the Cognition, cognitive process resulting in the selection of a belief or a course of action among several possible alternative options. It could be ...
may need to consider – cross-national – limits and potentials for optimization.
Some of the guidelines for designing offshore wind farms are set out in IEC 61400
IEC 61400 is an international standard published by the International Electrotechnical Commission (IEC) regarding wind turbines.
Purpose and function
IEC 61400 is a set of design requirements made to ensure that wind turbines are appropriately e ...
-3, but in the US several other standards are necessary.
In the European Union
The European Union (EU) is a supranational political and economic union of member states that are located primarily in Europe. The union has a total area of and an estimated total population of about 447million. The EU has often been des ...
(EU), different national standards are to be streamlined into more cohesive guidelines to lower costs. The standards require that a loads analysis is based on site-specific external conditions such as wind, wave and currents.[Jonkman, J.M]
"Dynamics Modeling and Loads Analysis of an Offshore Floating Wind Turbine"
Technical Report NREL/TP-500-41958 page 75, ''NREL
The National Renewable Energy Laboratory (NREL) in the US specializes in the research and development of renewable energy, energy efficiency, energy systems integration, and sustainable transportation. NREL is a federally funded research and d ...
'' November 2007. Retrieved: 25 June 2012.
The planning and permitting phase can cost more than $10 million, take 5–7 years and have an uncertain outcome. The industry is putting pressure on governments to improve the processes.
In Denmark
)
, song = ( en, "King Christian stood by the lofty mast")
, song_type = National and royal anthem
, image_map = EU-Denmark.svg
, map_caption =
, subdivision_type = Sovereign state
, subdivision_name = Danish Realm, Kingdom of Denmark
...
, many of these phases have been deliberately streamlined by authorities in order to minimize hurdles,[Streamline Renewable Energy Policy and make Australia a World Leader](_blank)
''Energy Matters'', 11 August 2010. Retrieved: 6 November 2010. and this policy has been extended for coastal wind farms with a concept called ’one-stop-shop’.
The United States introduced a similar model called "Smart from the Start" in 2012.
In the EU, the revised Renewable Energy Directive of 2018 has simplified the permitting process to help initiate wind projects.
Legal framework
The installation and operation of offshore wind turbines are regulated in both national and international law. The relevant international legal framework is UNCLOS
The United Nations Convention on the Law of the Sea (UNCLOS), also called the Law of the Sea Convention or the Law of the Sea Treaty, is an international agreement that establishes a legal framework for all marine and maritime activities. , 167 c ...
(United Nations Convention on the Law of the Sea) which regulates the rights and responsibilities of the States in regard to the use of the oceans. The maritime zone in which the offshore wind turbines are located determines which regulatory rules apply.
In the territorial waters
The term territorial waters is sometimes used informally to refer to any area of water over which a sovereign state has jurisdiction, including internal waters, the territorial sea, the contiguous zone, the exclusive economic zone, and potenti ...
(up to 12 nautical miles from the baseline of the coast) the coastal State has full sovereignty
Sovereignty is the defining authority within individual consciousness, social construct, or territory. Sovereignty entails hierarchy within the state, as well as external autonomy for states. In any state, sovereignty is assigned to the perso ...
and therefore, the regulation of offshore wind turbines are fully under national jurisdiction.
The exclusive economic zone (up to 200 nautical miles off the baseline) is not part of the State's territory but is subject to the coastal State's exclusive jurisdiction and control for selected purposes, one of which is the production of energy from winds. This means that within this zone, the coastal State has the right to install and operate offshore wind farms and to establish safety zones around them that must be respected by all ships, as long as due notice of the installation has been given. Also, neither installations nor safety zones can interfere with sea lanes that are considered essential for international navigation.
Beyond the exclusive economic zones are the high seas, or the international waters
The terms international waters or transboundary waters apply where any of the following types of bodies of water (or their drainage basins) transcend international boundaries: oceans, large marine ecosystems, enclosed or semi-enclosed regiona ...
. Within this zone the purpose of producing energy is not explicitly mentioned as a high seas freedom, and the legal status of offshore wind facilities is therefore unclear. In academia, it has been argued that the uncertainty of the legal status of offshore wind facilities on the high seas could become an object of interstate disputes over the rights of use. As a solution, it has been suggested that offshore wind facilities could be incorporated as a high seas freedom by being considered as ships or artificial island
An artificial island is an island that has been constructed by people rather than formed by natural means. Artificial islands may vary in size from small islets reclaimed solely to support a single pillar of a building or structure to those tha ...
s, installations and structures.
As of 2020, energy production from winds on the high seas is not yet technically feasible due to the difficulties that follow from deeper water. However, the advancing technology of floating wind turbine
A floating wind turbine is an offshore wind turbine mounted on a floating structure that allows the turbine to generate electricity in water depths where fixed-foundation turbines are not feasible.
Floating wind farms have the potential to signi ...
s is a step towards the realization of deepwater wind projects.
Types
As a general rule, fixed foundation offshore wind turbines are considered technically viable in areas with water depth less than and average wind speeds over . Floating offshore wind turbines are considered technically viable with water depths from . The displayed map of Vietnam
Vietnam or Viet Nam ( vi, Việt Nam, ), officially the Socialist Republic of Vietnam,., group="n" is a country in Southeast Asia, at the eastern edge of mainland Southeast Asia, with an area of and population of 96 million, making i ...
provides an estimate of technical potential for that country for both fixed foundation and floating offshore wind turbines according to the water depth.
Fixed foundation
Almost all currently operating offshore wind farms employ fixed foundation turbines, with the exception of a few pilot projects.
Fixed foundation offshore wind turbines have fixed foundations underwater, and are installed in relatively shallow waters of up to .
Types of underwater structures include monopile
A deep foundation is a type of foundation that transfers building loads to the earth farther down from the surface than a shallow foundation does to a subsurface layer or a range of depths. A pile or piling is a vertical structural element ...
, tripod, and jacketed, with various foundations at the sea floor including monopile or multiple piles, gravity base, and caissons.[
Offshore turbines require different types of bases for stability, according to the depth of water.
To date a number of different solutions exist:]
*Most foundations are monopile (single column) base, in diameter, is used in waters up to deep.
*Conventional steel jacket structures, as used in the oil and gas industry, in water deep.
*Gravity base structures, for use at exposed sites in water 20–80 m deep.
* Tripod piled structures, in water 20–80 m deep.
*Tripod suction caisson structures, in water 20–80 m deep.
Monopiles up to diameter at 2,000 tonnes can be made, but the largest so far are 1,300 tons which is below the 1,500 tonnes limit of some crane vessels.
The other turbine components are much smaller.
The tripod pile substructure system is a more recent concept developed to reach deeper waters than monopile systems, with depths up to 60 m possible. This technology consists of three monopiles linked together through a joint piece at the top. The main advantage of this solution is the simplicity of the installation, which is done by installing the three monopiles and then adding the upper joint. The larger base also decreases the risk of getting overturned.
A steel jacket structure comes from an adaptation to the offshore wind industry of concepts that have been in use in the oil and gas industry for decades. Their main advantage lies in the possibility of reaching higher depths (up to 80m). Their main limitations are due to the high construction and installation costs.
Floating
For locations with depths over about 60–80 m, fixed foundations are uneconomical or technically unfeasible, and floating wind turbines anchored to the ocean floor are needed. ''Blue H Technologies'', which was ultimately acquired by Seawind Ocean Technology, installed the world's first floating wind turbine in 2007. ''Hywind'' is the world's first full-scale floating wind turbine, installed in the North Sea
The North Sea lies between Great Britain, Norway, Denmark, Germany, the Netherlands and Belgium. An epeiric sea on the European continental shelf, it connects to the Atlantic Ocean through the English Channel in the south and the Norwegian S ...
off Norway
Norway, officially the Kingdom of Norway, is a Nordic country in Northern Europe, the mainland territory of which comprises the western and northernmost portion of the Scandinavian Peninsula. The remote Arctic island of Jan Mayen and t ...
in 2009. Hywind Scotland
Hywind Scotland is the world's first commercial wind farm using floating wind turbines, situated off Peterhead, Scotland.
The farm has five 6 MW Siemens direct-drive turbines on ''Hywind'' floating monopiles, with a total capacity of 30 MW ...
, commissioned in October 2017, is the first operational floating wind farm, with a capacity of 30 MW. Other kinds of floating turbines have been deployed, and more projects are planned.
Vertical-axis
Although the great majority of onshore and all large-scale offshore wind turbines currently installed are horizontal-axis, vertical-axis wind turbine
A vertical-axis wind turbine (VAWT) is a type of wind turbine where the main rotor shaft is set transverse to the wind while the main components are located at the base of the turbine. This arrangement allows the generator and gearbox to be ...
s have been proposed for use in offshore installations. Thanks to the installation offshore and their lower center of gravity, these turbines can in principle be built bigger than horizontal axis turbines, with proposed designs of up to 20 MW capacity per turbine. This could improve the economy of scale of offshore wind farms.[ However, no large-scale demonstrations of this technology have been installed.
]
Turbine construction materials considerations
Since offshore wind turbines are located in oceans and large lakes, the materials used for the turbines have to be modified from the materials used for land based wind turbines and optimized for corrosion resistance to salt water and the new loading forces experienced by the tower being partially submerged in water. With one of the main reasons for interest in offshore wind power being the higher wind speeds, some of the loading differences will come from higher shearing forces between the top and bottom of the wind turbine due to differences in wind speeds. There should also be considerations for the buffeting loads that will be experienced by the waves around the base of the tower, which converges on the use of steel tubular towers for offshore wind applications.
Since offshore wind turbines are constantly exposed to salt and water, the steel used for the monopile and turbine tower must be treated for corrosion resistance, especially at the base of the tower in the “splash zone” for waves breaking against the tower and in the monopile. Two techniques that can be used include cathodic protection
Cathodic protection (CP; ) is a technique used to control the corrosion of a metal surface by making it the cathode of an electrochemical cell. A simple method of protection connects the metal to be protected to a more easily corroded "sacrific ...
and the use of coatings to reduce corrosion pitting, which is a common source for hydrogen induced stress cracking. For cathodic protection, galvanized anodes are attached to the monopile and have enough of a potential difference with the steel to be preferentially corroded over the steel used in the monopile. Some coatings that have been applied to offshore wind turbines include hot dip zinc coatings and 2-3 epoxy coatings with a polyurethane topcoat.
Installation
Specialized jackup rig
A jackup rig or a self-elevating unit is a type of mobile platform that consists of a buoyant hull fitted with a number of movable legs, capable of raising its hull over the surface of the sea. The buoyant hull enables transportation of the unit a ...
s ( wind turbine installation vessels) are used to install foundation and turbine. the next generation of vessels are being built, capable of lifting 3–5,000 tons to . The large components can be difficult to install, and gyroscope
A gyroscope (from Ancient Greek γῦρος ''gŷros'', "round" and σκοπέω ''skopéō'', "to look") is a device used for measuring or maintaining orientation and angular velocity. It is a spinning wheel or disc in which the axis of rota ...
s can improve handling precision. Dynamic positioning
Dynamic positioning (DP) is a computer-controlled system to automatically maintain a vessel's position and heading by using its own propellers and thrusters. Position reference sensors, combined with wind sensors, motion sensors and gyrocompass ...
has also been used to keep the vibrating pile driver steady when installing foundations.
A large number of monopile foundations have been used in recent years for economically constructing fixed-bottom offshore wind farms in shallow-water locations.[Offshore Wind Turbine Foundations]
, 2009-09-09, accessed 12 April 2010.
Horns Rev project, Elsam monopile foundation construction process, accessed 12 April 2010]
Each uses a single, generally large-diameter, foundation structural element to support all the loads (weight, wind, etc.) of a large above-surface structure. Other types are tripods (steel) and Gravity-based structure, gravity base foundations (concrete).
The typical construction process for a wind turbine sub-sea monopile foundation in sand includes using a pile driver to drive a large hollow steel pile deep into the seabed, through a layer of larger stone and gravel to minimize erosion around the pile. These piles can be in diameter with approximately thick walls.
A transition piece (complete with pre-installed features such as boat-landing arrangement, cathodic protection
Cathodic protection (CP; ) is a technique used to control the corrosion of a metal surface by making it the cathode of an electrochemical cell. A simple method of protection connects the metal to be protected to a more easily corroded "sacrific ...
, cable ducts for sub-marine cables, turbine tower flange, etc.) is attached to the now deeply driven pile, the sand and water are removed from the centre of the pile and replaced with concrete
Concrete is a composite material composed of fine and coarse aggregate bonded together with a fluid cement (cement paste) that hardens (cures) over time. Concrete is the second-most-used substance in the world after water, and is the most wi ...
. An additional layer of even larger stone, up to 0.5 m diameter, is applied to the surface of the seabed for longer-term erosion protection.[
For the ease of installing the towers and connecting them to the seabed, they are installed in two parts, the portion below the water surface and the portion above the water.] The two portions of the tower are joined by a transition piece which is filled with a grouted connection. The grouted connection helps transfer the loads experienced by the turbine tower to the more stable monopile foundation of the turbine. One technique for strengthening the grout used in the connections is to include weld beads known as shear keys along the length of the grout connection to prevent any sliding between the monopile and the tower.
Offshore wind turbine components are large. Transporting of components between manufacturing and assembling facilities before the installation is to be minimized. As a result, offshore wind port facilities have been specifically built in the regions with high concentration of offshore wind developments. For large offshore wind farm projects, offshore wind ports become strategic hubs of the supply chain for the installations.
Installation capacity
Beyond 2022 there is expected to be a shortage of offshore wind turbine installation vessels (WTIVs), especially those capable of installing 10 MW+ turbines, with demand for vessels capable of installing offshore wind turbines projected to outpace supply by 2024.
“Offshore wind energy developers are starting to respond to the lack of WTIVs ind turbine installation vessels
Ind or IND may refer to:
General
* Independent (politician), a politician not affiliated to any political party
* Independent station, used within television program listings and the television industry for a station that is not affiliated with ...
capable of installing offshore wind turbines of 12 MW and greater, but there is still uncertainty regarding the ability of the global fleet to handle planned installations of offshore wind capacity by the mid-2020s (Hartkopf-Mikkelsen 2020; Rystad Energy 2020). A Tufts University analysis of global supply chain impacts on the emerging U.S. offshore wind energy market indicates that the current global WTIV fleet is unprepared to install wind turbines of 12 MW and larger (Bocklet et al. 2021).”
Connection
Grid connection
There are several different types of technologies that are being explored as viable options for integrating offshore wind power into the onshore grid. The most conventional method is through high-voltage alternating current (HVAC) transmission lines. HVAC transmission lines are currently the most commonly used form of grid connections for offshore wind turbines. However, there are significant limitations that prevent HVAC from being practical, especially as the distance to offshore turbines increases. First, HVAC is limited by cable charging currents, which are a result of capacitance in the cables. Undersea AC cables have a much higher capacitance than overhead AC cables, so losses due to capacitance become much more significant, and the voltage magnitude at the receiving end of the transmission line can be significantly different from the magnitude at the generating end. In order to compensate for these losses, either more cables or reactive compensation must be added to the system. Both of these add costs to the system. Additionally, because HVAC cables have both real and reactive power flowing through them, there can be additional losses. Because of these losses, underground HVAC lines are limited in how far they can extend. The maximum appropriate distance for HVAC transmission for offshore wind power is considered to be around .
Using high-voltage direct current (HVDC) cables has been a proposed alternative to using HVAC cables. HVDC transmission cables are not affected by the cable charging currents and experience less power loss because HVDC does not transmit reactive power. With less losses, undersea HVDC lines can extend much farther than HVAC. This makes HVDC preferable for siting wind turbines very far offshore. However, HVDC requires power converters in order to connect to the AC grid. Both line commutated converters (LCCs) and voltage source converters (VSCs) have been considered for this. Although LCCs are a much more widespread technology and cheaper, VSCs have many more benefits, including independent active power and reactive power control. New research has been put into developing hybrid HVDC technologies that have a LCC connected to a VSC through a DC cable.
In order to transport the energy from offshore wind turbines to onshore energy plants, cabling has to be placed along the ocean floor. The cabling has to be able to transfer large amounts of current efficiently which requires optimization of the materials used for the cabling as well as determining cable paths for the use of a minimal amount of cable materials. One way to reduce the cost of the cables used in these applications is to convert the copper conductors to aluminum conductors, however the suggested replacement brings up an issue of increased cable motion and potential damage since aluminum is less dense than copper.
Marine vessel connection
An offshore electricity recharging system named Stillstrom, to be launched by Danish shipping firm Maersk Supply Service, will give ships access to renewable energy while at sea.[ Connecting ships to electricity generated by offshore wind farms, the system is designed to cut ]emissions
Emission may refer to:
Chemical products
* Emission of air pollutants, notably:
**Flue gas, gas exiting to the atmosphere via a flue
** Exhaust gas, flue gas generated by fuel combustion
** Emission of greenhouse gases, which absorb and emit rad ...
from idling ships.
Maintenance
Turbines are much less accessible when offshore (requiring the use of a service vessel or helicopter
A helicopter is a type of rotorcraft in which lift and thrust are supplied by horizontally spinning rotors. This allows the helicopter to take off and land vertically, to hover, and to fly forward, backward and laterally. These attributes ...
for routine access, and a jackup rig
A jackup rig or a self-elevating unit is a type of mobile platform that consists of a buoyant hull fitted with a number of movable legs, capable of raising its hull over the surface of the sea. The buoyant hull enables transportation of the unit a ...
for heavy service such as gearbox replacement), and thus reliability
Reliability, reliable, or unreliable may refer to:
Science, technology, and mathematics Computing
* Data reliability (disambiguation), a property of some disk arrays in computer storage
* High availability
* Reliability (computer networking), a ...
is more important than for an onshore turbine. Some wind farms located far from possible onshore bases have service teams living on site in offshore accommodation units.[Accommodation Platform](_blank)
''DONG Energy
Dong or DONG may refer to:
Places
* Dong Lake, or East Lake, a lake in China
* Dong, Arunachal Pradesh, a village in India
* Dong (administrative division) (동 or 洞), a neighborhood division in Korea
Persons
*Queen Dong (1623–1681), princes ...
'', February 2010. Retrieved: 22 November 2010. To limit the effects of corrosion on the blades of a wind turbine, a protective tape of elastomeric materials is applied, though the droplet erosion protection coatings provide better protection from the elements.
Impressed current cathodic protection
Cathodic protection (CP; ) is a technique used to control the corrosion of a metal surface by making it the cathode of an electrochemical cell. A simple method of protection connects the metal to be protected to a more easily corroded "sacrific ...
(ICCP) is used to protect wind turbine monopiles and floating wind turbine platforms. ICCP systems are increasingly popular as a solution against corrosion, as they do not require on-site monitoring, and are more eco-friendly and cost-effective than traditional galvanic systems. While traditional galvanic anode
A galvanic anode, or sacrificial anode, is the main component of a galvanic cathodic protection system used to protect buried or submerged metal structures from corrosion.
They are made from a metal alloy with a more "active" voltage (more n ...
cathodic protection (GACP) systems operate on the natural driving force between two metals, ICCP systems use a continuous external power source.
A maintenance organization performs maintenance and repairs of the components, spending almost all its resources on the turbines. The conventional way of inspecting the blades is for workers to rappel down the blade, taking a day per turbine. Some farms inspect the blades of three turbines per day by photographing them from the monopile through a 600mm telephoto lens
A telephoto lens, in photography and cinematography, is a specific type of a long-focus lens in which the physical length of the lens is shorter than the focal length. This is achieved by incorporating a special lens group known as a ''telephoto ...
, avoiding to go up. Others use camera drones.
Because of their remote nature, prognosis and health-monitoring systems on offshore wind turbines will become much more necessary. They would enable better planning just-in-time maintenance, thereby reducing the operations and maintenance costs. According to a report from a coalition of researchers from universities, industry, and government (supported by the Atkinson Center for a Sustainable Future
The Cornell Atkinson Center for Sustainability is the hub of collaborative sustainability research at Cornell University, forging vital connections among researchers, students, staff, and external partners. The center’s funding and programming a ...
),[ making field data from these turbines available would be invaluable in validating complex analysis codes used for turbine design. Reducing this barrier would contribute to the education of engineers specializing in wind energy.
]
Decommissioning
As the first offshore wind farms reach their end of life, a demolition industry develops to recycle them at a cost of DKK 2-4 million ($300,000-600,000 USD) roughly per MW, to be guaranteed by the owner.
The first offshore wind farm to be decommissioned was Yttre Stengrund in Sweden in November 2015, followed by Vindeby in 2017 and Blyth in 2019.
Environmental impact
Offshore wind farms have very low global warming potential
Global warming potential (GWP) is the heat absorbed by any greenhouse gas in the atmosphere, as a multiple of the heat that would be absorbed by the same mass of carbon dioxide (). GWP is 1 for . For other gases it depends on the gas and the time f ...
per unit of electricity generated, comparable to that of onshore wind farms. Offshore installations also have the advantage of limited impact of noise and on the landscape compared to land-based projects. Furthermore, in a few local cases there is evidence that offshore wind installations have contributed to the restoration of damaged ecosystems by functioning as artificial reef
An artificial reef is a human-created underwater structure, typically built to promote marine life in areas with a generally featureless bottom, to control erosion, block ship passage, block the use of trawling nets, or improve surfing.
Many re ...
s.
While the offshore wind industry has grown dramatically over the last several decades, there is still a great deal of uncertainty associated with how the construction and operation of these wind farms affect marine animals and the marine environment.
Common environmental concerns associated with offshore wind developments include:
* The risk of seabirds being struck by wind turbine blades or being displaced from critical habitats;
* The underwater noise associated with the installation process of driving monopile turbines into the seabed;
* The physical presence of offshore wind farms altering the behavior of marine mammals, fish, and seabirds with attraction or avoidance;
* The potential disruption of the nearfield and farfield marine environment from large offshore wind projects.
* The risk of invasive species introduction when towing foundations from port to site.
Because offshore wind is a relatively new industry, there is neither yet any evidence on the long-term environmental impacts of offshore wind activities nor any studies on the cumulative effects on several marine activities in the same area.
The Tethys database provides access to scientific literature and general information on the potential environmental effects of offshore wind energy.
Largest offshore wind farms
Projects
Most of the current projects are in European and East Asian waters.
There are also several proposed developments in North America.
Projects are under development in the United States in wind-rich areas of the East Coast, Great Lakes, and Pacific coast.
In January 2012, a "Smart for the Start" regulatory approach was introduced, designed to expedite the siting process while incorporating strong environmental protections.
Specifically, the Department of Interior approved “wind energy areas” off the coast where projects can move through the regulatory approval process more quickly.
The first offshore wind farm in the USA is the 30-megawatt, 5 turbine Block Island Wind Farm
Block Island Wind Farm was the first commercial offshore wind farm in the United States, located from Block Island, Rhode Island in the Atlantic Ocean. The five-turbine, 30 MW project was developed by Deepwater Wind, now Ørsted US Offshor ...
which was commissioned in December 2016. Many sportfishermen and marine biologists believe the bases of the five, 6-megawatt wind turbines off of Block Island
Block Island is an island in the U.S. state of Rhode Island located in Block Island Sound approximately south of the mainland and east of Montauk Point, Long Island, New York, named after Dutch explorer Adriaen Block. It is part of Washingt ...
are acting as an artificial reef.
Another offshore wind farm that is in the planning phase is off the coast of Virginia Beach
Virginia Beach is an independent city located on the southeastern coast of the Commonwealth of Virginia in the United States. The population was 459,470 at the 2020 census. Although mostly suburban in character, it is the most populous city ...
. On 3 August 2018, Dominion Energy
Dominion Energy, Inc., commonly referred to as Dominion, is a North American power and energy company headquartered in Richmond, Virginia that supplies electricity in parts of Virginia, North Carolina, and South Carolina and supplies natural gas ...
announced its two wind turbine pilot program that will be 27 miles offshore from Virginia Beach. The area is undergoing a survey that will last for 4–6 weeks.
Canadian wind power in the province of Ontario is pursuing several proposed locations in the Great Lakes
The Great Lakes, also called the Great Lakes of North America, are a series of large interconnected freshwater lakes in the mid-east region of North America that connect to the Atlantic Ocean via the Saint Lawrence River. There are five lakes ...
, including the suspended[Offshore wind development hits a snag in Ontario](_blank)
''Alberta Oil Magazine'', April 2011. Accessed: 29 September 2011. Trillium Power Wind 1 approximately 20 km from shore and over 400 MW in capacity.
Other Canadian projects include one on the Pacific west coast.
India is looking at the potential of offshore wind power plants, with a 100 MW demonstration plant being planned off the coast of Gujarat
Gujarat (, ) is a state along the western coast of India. Its coastline of about is the longest in the country, most of which lies on the Kathiawar peninsula. Gujarat is the fifth-largest Indian state by area, covering some ; and the ninth ...
(2014). In 2013, a group of organizations, led by Global Wind Energy Council (GWEC) started project FOWIND (Facilitating Offshore Wind in India) to identify potential zones for development of off-shore wind power in India and to stimulate R & D activities in this area. In 2014 FOWIND commissioned Center for Study of Science, Technology and Policy (CSTEP)
The Center for Study of Science, Technology and Policy (CSTEP) is an Indian think tank based in Bengaluru.
Its research is consolidated into five sectors: Climate, Environment and Sustainability; Energy and Power; AI and Digital Platforms; Str ...
to undertake pre-feasibility studies in eight zones in Tamil Nadu which have been identified as having potential.
The Netherlands announced on 11 February 2022 that the government increased its offshore wind target to 21 GW by 2030. That would meet approximately 75% of the countries electricity needs. With this, offshore wind energy makes an important contribution to achieving the increased climate target of 55% less -emissions.
Offshore wind power by country
Most offshore wind farms are currently in northern Europe.
The United Kingdom and Germany alone accounted for roughly two thirds of the total offshore wind power capacity installed worldwide in 2016.
China is now rapidly expanding its offshore wind power capacity, and as of 2022, has surpassed UK and Germany combined.
See also
*List of offshore wind farms
This article lists the largest offshore wind farms that are currently operational rated by nameplate capacity. It also lists the largest offshore wind farms currently under construction, the largest proposed offshore wind farms, and offshore w ...
*Floating wind turbine
A floating wind turbine is an offshore wind turbine mounted on a floating structure that allows the turbine to generate electricity in water depths where fixed-foundation turbines are not feasible.
Floating wind farms have the potential to signi ...
*Unconventional wind turbines
Unconventional wind turbines are those that differ significantly from the most common types in use.
, the most common type of wind turbine is the three-bladed upwind horizontal-axis wind turbine (HAWT), where the turbine rotor is at the front o ...
References
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Wind power