Royd Moor Wind Farm in the United Kingdom

Bangui Wind Farm in the Philippines.

Lillgrund Wind Farm in Sweden

A wind farm is a group of wind turbines in the same location used to produce electric power. A large wind farm may consist of several hundred individual wind turbines, and cover an extended area of hundreds of square miles, but the land between the turbines may be used for agricultural or other purposes. A wind farm may also be located offshore.

Many of the largest operational onshore wind farms are located in the USA and China. The Gansu Wind Farm in China has over 5,000 MW installed with a goal of 20,000 MW by 2020. China has several other "wind power bases" of similar size. The Alta Wind Energy Center in California is the largest onshore wind farm outside of China, with a capacity of 1020 MW of power^[1]. As of February 2012, the Walney Wind Farm in United Kingdom is the largest offshore wind farm in the world at 367 MW, followed by Thanet Offshore Wind Project (300 MW), also in the UK.

There are many large wind farms under construction and these include Anholt Offshore Wind Farm (400 MW), BARD Offshore 1 (400 MW), Clyde Wind Farm (548 MW), Greater Gabbard wind farm (500 MW), Lincs Wind Farm (270 MW), London Array (1000 MW), Lower Snake River Wind Project (343 MW), Macarthur Wind Farm (420 MW), Shepherds Flat Wind Farm (845 MW), and Sheringham Shoal (317 MW).

Design[link]

A large wind farm may consist of several hundred individual wind turbines, and cover an extended area of hundreds of square miles, but the land between the turbines may be used for agricultural or other purposes. A wind farm may be located offshore to take advantage of strong winds blowing over the surface of an ocean or lake.

Map of available wind power over the United States. Color codes indicate wind power density class

As a general rule, economic wind generators require windspeed of 10 mph (16 km/h) or greater. An ideal location would have a near constant flow of non-turbulent wind throughout the year, with a minimum likelihood of sudden powerful bursts of wind. An important factor of turbine siting is also access to local demand or transmission capacity.

Usually sites are screened on the basis of a wind atlas, and validated with wind measurements. Meteorological wind data alone is usually not sufficient for accurate siting of a large wind power project. Collection of site specific data for wind speed and direction is crucial to determining site potential^[2][3] in order to finance the project.^[4] Local winds are often monitored for a year or more, and detailed wind maps constructed before wind generators are installed.

The wind blows faster at higher altitudes because of the reduced influence of drag. The increase in velocity with altitude is most dramatic near the surface and is affected by topography, surface roughness, and upwind obstacles such as trees or buildings. Typically, the increase of wind speeds with increasing height follows a wind profile power law, which predicts that wind speed rises proportionally to the seventh root of altitude. Doubling the altitude of a turbine, then, increases the expected wind speeds by 10% and the expected power by 34%.

Individual turbines are interconnected with a medium voltage (usually 34.5 kV) power collection system and communications network. At a substation, this medium-voltage electrical current is increased in voltage with a transformer for connection to the high voltage transmission system. Construction of a land-based wind farm requires installation of the collector system and substation, and possibly access roads to each turbine site.

Onshore installations[link]

Part of the Biglow Canyon Wind Farm, with a turbine under construction

The world's first wind farm – consisting of 20 wind turbines rated at 30 kilowatts each – was installed on the shoulder of Crotched Mountain in southern New Hampshire in December, 1980.^[5][6]

Falling costs mean that the average onshore wind farm will be competitive with natural gas-fired power generation by 2016.^[7]

Onshore turbine installations in hilly or mountainous regions tend to be on ridgelines generally three kilometers or more inland from the nearest shoreline. This is done to exploit the topographic acceleration as the wind accelerates over a ridge. The additional wind speeds gained in this way can increase energy produced because more wind goes through the turbines. The exact position of each turbines matters, because a difference of 30m could potentially double output. This careful placement is referred to as 'micro-siting'.

Offshore installations[link]

Offshore wind turbines near Copenhagen

Europe is the leader in offshore wind energy, with the first offshore wind farm being installed in Denmark in 1991. As of 2010, there are 39 offshore wind farms in waters off Belgium, Denmark, Finland, Germany, Ireland, the Netherlands, Norway, Sweden and the United Kingdom, with a combined operating capacity of 2,396 MW. More than 100 GW (or 100, 000 MW) of offshore projects are proposed or under development in Europe. The European Wind Energy Association has set a target of 40 GW installed by 2020 and 150 GW by 2030.^[14]

As of February 2012, the Walney Wind Farm in United Kingdom is the largest offshore wind farm in the world at 367 MW, followed by Thanet Offshore Wind Project (300 MW), also in the UK. The London Array (630 MW) is the largest project under construction.

World's largest offshore wind farms

Wind farm	Capacity (MW)	Country	Turbines and model	Commissioned	References
Walney	367	United Kingdom	102 × Siemens SWT-3.6	2012	[15][16]
Thanet	300	United Kingdom	100 × Vestas V90-3MW	2010	[17][18]
Horns Rev II	209	Denmark	91 × Siemens 2.3-93	2009	[19]
Rødsand II	207	Denmark	90 × Siemens 2.3-93	2010	[20]
Lynn and Inner Dowsing	194	United Kingdom	54 × Siemens 3.6-107	2008	[21][22][23][24]
Robin Rigg (Solway Firth)	180	United Kingdom	60 × Vestas V90-3MW	2010	[25][26]
Gunfleet Sands	172	United Kingdom	48 × Siemens 3.6-107	2010	[26][27]
Nysted (Rødsand I)	166	Denmark	72 × Siemens 2.3	2003	[21][28][29]
Ormonde	150	United Kingdom	30 × REpower 5.0	2011	[26][30]

Offshore wind turbines are less obtrusive than turbines on land, as their apparent size and noise is mitigated by distance. Because water has less surface roughness than land (especially deeper water), the average wind speed is usually considerably higher over open water. Capacity factors (utilisation rates) are considerably higher than for onshore locations.^[31]

The province of Ontario in Canada is pursuing several proposed locations in the Great Lakes, including the suspended^[32] Trillium Power Wind 1 approximately 20 km from shore and over 400 MW in size.^[33] Other Canadian projects include one on the Pacific west coast.^[34]

As of 2010, there are no offshore wind farms in the United States. However, projects are under development in wind-rich areas of the East Coast, Great Lakes, and Pacific coast.^[14]

Installation and service / maintenance of off-shore wind farms are a specific challenge for technology and economic operation of a wind farm. Service vessels have to be operated nearly 24/7 (availability higher than 80 % of time) to get sufficient amortisation from the wind turbines.^{[citation needed]} Therefore special fast service vehicles for installation (like Wind Turbine Shuttle) as well as for maintenance (including heave compensation and heave compensated working platforms to allow the service staff to enter the wind turbine also at difficult weather conditions) are required. So-called inertial and optical based Ship Stabilization and Motion Control systems (iSSMC) are used for that.

By region[link]

Australia[link]

Canada[link]

Image of Pubnico Wind Farm taken from Beach Point, Lower East Pubnico, Nova Scotia

Large wind farms in Canada^[38]

Name	Capacity (MW)	Location	Province
Anse-à-Valleau Wind Farm	100	49°03′36″N 64°33′18″W / 49.06°N 64.555°W / 49.06; -64.555 (Anse-à-Valleau Wind Farm)	Quebec
Caribou Wind Park	99	70 km west of Bathurst	New Brunswick
Bear Mountain Wind Park	120	Dawson Creek	British Columbia
Centennial Wind Power Facility	150	Swift Current	Saskatchewan
Enbridge Ontario Wind Farm	181	Kincardine	Ontario
Erie Shores Wind Farm	99	Port Burwell	Ontario
Jardin d'Eole Wind Farm	127	Saint-Ulric	Quebec
Kent Hills Wind Farm	96	Riverside-Albert	New Brunswick
Melancthon EcoPower Centre	199	Melancthon	Ontario
Port Alma Wind Farm	101	Chatham-Kent	Ontario
Chatham Wind Farm	101	Chatham-Kent	Ontario
Prince Township Wind Farm	189	Sault Ste. Marie	Ontario
St. Joseph Wind Farm	138	Montcalm	Manitoba
St. Leon Wind Farm	99	St. Leon	Manitoba
Wolfe Island Wind Project	197	Frontenac Islands	Ontario

China[link]

Wind farm in Xinjiang, China

In just five years, China leapfrogged the rest of the world in wind energy production, going from 2,599 MW of capacity in 2006 to 62,733 MW at the end of 2011. ^[39][40][41]. However, the rapid growth outpaced China's infrastructure and new construction slowed significantly in 2012.^[42]

At the end of 2009, wind power in China accounted for 25.1 gigawatts (GW) of electricity generating capacity,^[43] and China has identified wind power as a key growth component of the country's economy.^[44] With its large land mass and long coastline, China has exceptional wind resources.^[45] Researchers from Harvard and Tsinghua University have found that China could meet all of their electricity demands from wind power through 2030.^[46]

By the end of 2008, at least 15 Chinese companies were commercially producing wind turbines and several dozen more were producing components.^[47] Turbine sizes of 1.5 MW to 3 MW became common. Leading wind power companies in China were Goldwind, Dongfang Electric, and Sinovel^[48] along with most major foreign wind turbine manufacturers.^[49] China also increased production of small-scale wind turbines to about 80,000 turbines (80 MW) in 2008. Through all these developments, the Chinese wind industry appeared unaffected by the global financial crisis, according to industry observers.^[48]

According to the Global Wind Energy Council, the development of wind energy in China, in terms of scale and rhythm, is absolutely unparalleled in the world. The National People's Congress permanent committee passed a law that requires the Chinese energy companies to purchase all the electricity produced by the renewable energy sector.^[50]

European Union[link]

Parts of this article (those related to section) are outdated. Please update this article to reflect recent events or newly available information. Please see the talk page for more information. (December 2010)

A wind farm in a mountainous area in Galicia, Spain

Wind farm in Lower Saxony, Germany

The European Union has a total installed wind capacity of 74,767MW. Germany has the second largest number of wind farms in the world after the United States. Its installed capacity was 25,777 MW at the End of 2009. The fourth country in capacity was Spain with 19,149 MW. Italy was in the sixth position, with 4,850 MW.^[51]

Whitelee Wind Farm near Glasgow, Scotland is Europe's largest windfarm with a total capacity of 322 MW. In 2012 Europe's largest windfarm will be Fântânele-Cogealac Wind Farm near Tulcea, Romania with 600 MW (300 MW already operational) ^[52] ).

In 2006, the British government gave planning consent for the world's largest offshore wind farm, the 'London Array'. It is currently being built 12 miles off of the Kent coast and will include 341 turbines when finished.

An important limiting factor of wind power is variable power generated by wind farms. In most locations the wind blows only part of the time, which means that there has to be back-up capacity of conventional generating capacity to cover periods that the wind is not blowing. To address this issue it has been proposed to create a "supergrid" to connect national grids together^[53] across western Europe, ranging from Denmark across the southern North Sea to England and the Celtic Sea to Ireland, and further south to France and Spain especially in Higueruela which was considered for some time the biggest wind farm in the world.^[54] The idea is that by the time a low pressure area has moved away from Denmark to the Baltic Sea the next low appears off the coast of Ireland. Therefore, while it is true that the wind is not blowing everywhere all of the time, it will always be blowing somewhere.

South Africa[link]

Turbines at the Darling Wind Farm, South Africa.

There are currently no large scale wind farms operational in South Africa, though a number are in the initial planning stages. Most of these are earmarked for locations along the Eastern Cape coastline.^[55][56][57] Eskom has constructed one small scale prototype windfarm at Klipheuwel in the Western Cape and another demonstrator site is near Darling with phase 1 completed. The first commercial wind farm, Coega Wind Farm in Port Elisabeth, was developed by the Belgian company Electrawinds.

United States[link]

Brazos Wind Farm in the plains of West Texas

U.S. wind power installed capacity now exceeds 46,919 MW and supplies 3% of the nation's electricity.^[65][66]

New installations place the U.S. on a trajectory to generate 20% of the nation’s electricity by 2030 from wind energy.^[67] Growth in 2008 channeled some $17 billion into the economy, positioning wind power as one of the leading sources of new power generation in the country, along with natural gas. Wind projects completed in 2008 accounted for about 42% of the entire new power-producing capacity added in the U.S. during the year.^[68]