Wind farm in Panketal
German electricity by source in 2022
  •   Brown coal: 106.64 TW⋅h (21.8%)
  •   Hard coal: 55.58 TW⋅h (11.4%)
  •   Natural gas: 46.43 TW⋅h (9.5%)
  •   Wind: 123.44 TW⋅h (25.2%)
  •   Solar: 57.61 TW⋅h (11.8%)
  •   Biomass: 42.18 TW⋅h (8.6%)
  •   Nuclear: 32.79 TW⋅h (6.7%)
  •   Hydro: 15.05 TW⋅h (3.1%)
  •   Oil: 0.68 TW⋅h (0.1%)
  •   Other: 8.66 TW⋅h (1.8%)
Net generated electricity in 2022[1]
Wind park in Bernburg, consisting entirely of Enercons
Erection of an Enercon E70-4 in Germany

Wind power in Germany is a growing industry. The installed capacity was 55.6 gigawatts (GW) at the end of 2017, with 5.2 GW from offshore installations. In 2020, 23.3% of the country's total electricity was generated through wind power, up from 6.2% in 2010 and 1.6% in 2000.[2]

More than 26,772 wind turbines were located in the German federal area by year end 2015, and the country has plans for further expansion.[3][4] As of the end of 2015, Germany was the third largest producer of wind power in the world by installations, behind China and the USA.[5] Germany also has a number of turbine manufacturers, like Enercon, Nordex and Senvion.

In the first half of 2021, with 22% a contribution to German electric generation, wind was the second most important contributor, following coal, which was the top producer, with 27%. In 2020 wind was the top generator.[6]

The German Federal Government has enacted plans to expand offshore wind energy, with targets of 30 gigawatts by 2030, increasing to 70 gigawatts by 2045. This move is part of a strategy to enhance the country's renewable energy portfolio and reduce dependence on energy imports.[7] To achieve these goals, the government is implementing measures to streamline planning and approval processes for wind energy projects.[8]

Onshore wind power

Since 1995, onshore wind energy has been an important and major industry in Germany. In 1995, the gross production of onshore wind power was 1,530 GWh. By 2019, gross production from onshore wind power was over 101,000 GWh, allowing Germany to power about a fifth of the country from wind.[9] Larger onshore installations are in the works, which could possibly see a larger percentage of wind energy powering Germany. Germany is also notable for having some major wind turbine manufacturers based there, such as Enercon in Aurich, Senvion in Hamburg, and Nordex in Rostock.

Offshore wind power

Offshore wind farms in the German Bight

Offshore wind energy also has great potential in Germany.[10] Wind speed at sea is 70 to 100% higher than onshore and much more constant. As of 2007, a new generation of 5 MW or larger wind turbines which are capable of making full use of the potential of wind power at sea had been developed. This made it possible to operate offshore wind farms in a cost-effective way.[11]

On 15 July 2009, the first offshore German windturbine completed construction. This turbine is the first of a total of 12 wind turbines for the alpha ventus offshore wind farm in the North Sea.[12]

Following the 2011 Japanese nuclear accidents, Germany's federal government began work on a new plan for increasing renewable energy commercialization, with a particular focus on offshore wind farms.[13] Under the plan, large wind turbines were to be erected far away from the coastlines, where the wind blows more consistently than it does on land, and where the enormous turbines won't bother the inhabitants. The plan aimed to decrease Germany's dependence on energy derived from coal and nuclear power plants.[14] The German government wanted to see 7.6 GW installed by 2020 and as much as 26 GW by 2030.[15]

A major challenge was the lack of sufficient network capacities for transmitting the power generated in the North Sea to the large industrial consumers in southern Germany.[16]

In 2014 410 turbines with 1747 megawatts were added to Germany's offshore windparks. Due to not yet finished grid-connections, only turbines with combined 528.9 megawatts were added to the grid feed at the end of 2014. Despite this, the gigawatt offshore windpower barrier was reportedly breached by Germany around the end of 2014[17] During 2015 offshore windpower was tripled to over 3 gigawatts capacity, signalling the growing importance of this sector.[18]

At the end of 2019, Germany had installed 1,469 offshore wind turbines with a total capacity of 7.52 GW. Capacity in the North Sea reached 6.44 GW, capacity in the Baltic Sea reached 1.08 GW. In total, 25.8 TWh of power were produced in German offshore wind parks in 2019.[19]

Government support

Since 2011, Germany's federal government has been working on a new plan for increasing renewable energy commercialization,[20] with a particular focus on offshore wind farms.[14]

In 2016, Germany decided to replace feed-in tariffs with auctions from 2017, citing the mature nature of the windpower market being best served in this way.[21] These auctions have resulted in some future offshore wind farms to be operated at market prices and receive no subsidy.[22]

As part of measures to increase wind power installations and usage, the Scholz cabinet adopted a law requiring Germany to set aside 2% of its total land area by 2032 for wind energy use.[23]

Energy transition

Energy transition scenario in Germany

The 2010 "Energiewende" policy has been embraced by the German federal government and has resulted in a huge expansion of renewables, particularly wind power. Germany's share of renewables has increased from around 5% in 1999 to 17% in 2010, reaching close to the OECD average of 18% usage of renewables.[24] Producers have been guaranteed a fixed feed-in tariff for 20 years, guaranteeing a fixed income. Energy co-operatives have been created, and efforts were made to decentralize control and profits. The large energy companies have a disproportionately small share of the renewables market. Nuclear power plants were closed, and the existing 9 plants will close earlier than necessary, in 2022.

The reduction of reliance on nuclear plants has so far had the consequence of increased reliance on fossil fuels and on electricity imports from France. However, in good wind Germany exports to France; in January 2015 the average price was €29/MWh in Germany, and €39/MWh in France.[25] One factor that has inhibited efficient employment of new renewable energy has been the lack of an accompanying investment in power infrastructure (SüdLink) to bring the power to market.[24][26] The transmission constraint sometimes causes Germany to pay Danish wind power to stop producing; in October/November 2015 this amounted to 96 GWh costing 1.8 million euros.[27]

The German states have varying attitudes to the construction of new power lines. Industry has had their rates frozen and so the increased costs of the Energiewende have been passed on to consumers, who have had rising electricity bills. Germans in 2013 had some of the highest electricity costs in Europe.[28]

Public opinion

Wind power Germany 2016 fact sheet: electricity generation, development, investments, capacity, employment and the public opinion.[4]

[29]

In Germany, hundreds of thousands of people have invested in citizens' wind farms across the country and thousands of small and medium-sized enterprises are running successful businesses in a new sector that in 2015 employed 142,900 people and generated 12.3 percent of Germany's electricity in 2016.[30]

However, more recently, there has been increasing local resistance to the expansion of wind power in Germany, due to its impact on the landscape, incidents where patches of forest where removed to build wind turbines, the emission of low frequency noise,[31][32] and the negative impact on wildlife, such as birds of prey and bats.[33][34]

Repowering

Repowering, the replacement of first-generation wind turbines with modern multi-megawatt machines, is occurring in Germany. Modern turbines make better use of available wind energy and so more wind power can come from the same area of land. Modern turbines also offer much better grid integration since they use a connection method similar to conventional power plants.[35][36]

Statistics

Annual Wind Power in Germany 1990-2015, shown in a semi-log plot with installed capacity (MW) in red and power generated (GWh) in blue

Installed wind power capacity and generation in recent years is shown in the tables below:

Total

Total installed capacity and generation in Germany (land and sea-based combined)[18]
Year 1990199119921993199419951996199719981999
Installed Capacity (MW) 551061743266181,1211,5492,0892,8774,435
Net Generation (GW·h) 711002756009091,5002,0322,9664,4895,528
Capacity factor 14.74%10.77%17.99%21.01%16.79%15.28%14.93%16.21%17.81%14.23%
Year 2000200120022003200420052006200720082009
Installed Capacity (MW) 6,0978,73811,97614,38116,41918,24820,47422,11622,79425,732
Net Generation (GW·h) 9,51310,50915,78618,71325,50927,22930,71039,71340,57438,648
Capacity Factor 17.76%13.73%15.05%14.85%17.69%17.03%17.12%20.50%20.26%17.15%
Year 2010201120122013201420152016201720182019
Installed Capacity (MW) 26,90328,71230,97933,47738,61444,54149,53455,55059,42061,357
Net Generation (GW·h) 37,79348,88250,67151,70857,35779,08478,416103,707107,889123,545
Capacity Factor 16.04%19.43%18.62%17.63%16.96%20.27%18.02%21.31%20.73%22.99%
Year 20202021
Installed Capacity (MW) 62,70863,865
Net Generation (GW·h) 129,644111,734
Capacity Factor 23.54%19.97%

Offshore only

Total installed capacity and generation (sea-based only) [18]
Year 2009201020112012201320142015201620172018201920202021
Installed Capacity (MW) 30801882685089943,2834,1525,4066,3937,5557,7747,774
Generation (GW·h) 381745687229051,4498,16212,09217,41419,17924,37926,90324,014
Generation in the North Sea (in TWh) 20.222.818.5
Generation in the Baltic Sea (in TWh) 4.14.23.5
 % of Wind Gen. 0.10.51.21.41.82.610.516.016.814.9919.22021.1
Capacity Factor 12.39%24.83%34.49%30.67%20.34%16.64%28.38%33.15%36.77%34.25%36.84%39.40%35.26%

By State

Geographic distribution of wind farms in Germany
Installed capacity and wind share of annual electricity consumption by state end June 2022[37]
State No. Turbines Installed
Capacity [MW]
Watts
per capita
 % Share in electrical
consumption [2011]
 Saxony-Anhalt2,8305,3092,44748.11
 Brandenburg3,9848,0673,17847.65
 Schleswig-Holstein3,0677,2152,46946.46
 Mecklenburg-Vorpommern1,8373,5562,20746.09
 Lower Saxony6,10111,7851,46824.95
 Thuringia8501,73382112.0
 Rhineland-Palatinate1,7583,8629409.4
 Saxony8711,2733148.0
 Bremen872012974.7
 North Rhine-Westphalia3,5736,5483653.9
 Hesse1,1392,3373712.8
 Saarland2135205292.5
 Bavaria1,1322,5751951.3
 Baden-Württemberg7721,7291550.9
 Hamburg67122650.7
 Berlin61740.0
Onshore total 28,287 56,848
offshore North Sea1,2696,698
offshore Baltic Sea2321,096
Offshore total 1,501 7,794
Germany Total29,78864,64277617.6

See also

References

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  2. "Share of electricity production from wind: Germany". OurWorldInData. 2023. Retrieved 2023-10-07.
  3. "Wind energy in Germany".
  4. 1 2 "GERMANY: WIND POWER FACTSHEET 2016". Strom-Report.
  5. "Global-Wind-2015-Report" (PDF). GWEC. p. 9, 10.
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  14. 1 2 Schultz, Stefan (23 March 2011). "Will Nuke Phase-Out Make Offshore Farms Attractive?". Spiegel Online. Retrieved 26 March 2011.
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  16. The Wall Street Journal Online, 24 April 2012
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  18. 1 2 3 "Federal Ministry for Economic Affairs and Energy (Germany), Zeitreihen zur Entwicklung der erneuerbaren Energien in Deutschland, Stand February 2022".
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  20. "100% renewable electricity supply by 2050". Federal Ministry for Environment, Nature Conservation and Nuclear Safety. 26 January 2011. Archived from the original on 9 May 2011. Retrieved 4 June 2011.
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  22. Eckert, Vera (10 September 2021). "Zero Subsidy: Germany Awards Offshore Wind Licenses for 2026". Offshore Engineer Magazine. Archived from the original on 10 September 2021.
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  24. 1 2 "Germany's energy transformation Energiewende". The Economist. Jul 28, 2012. Retrieved 6 March 2013.
  25. Click Green (3 February 2015). "UK and German wind energy records drive down winter electricity bills". clickgreen.org.uk.
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  27. Jesper Starn, Weixin Zha (1 December 2015). "Germany Pays to Halt Danish Wind Power to Protect Own Output". Bloomberg News.
  28. "Germany's energy reform Troubled turn". The Economist. 9 Feb 2013. Retrieved 6 March 2013.
  29. "Community Wind Farms". Archived from the original on July 20, 2008. Retrieved April 7, 2012.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  30. "Community Power Empowers". Dsc.discovery.com. 26 May 2009. Retrieved 17 January 2012.
  31. "Nach Vorwürfen – Wirsol geht in die Informationsoffensive". Archived from the original on 2021-01-21. Retrieved 2019-06-09.
  32. "Spagat zwischen Klimaschutz und Naturschutz". Deutschlandfunk. Deutschlandfunk. Retrieved 9 June 2019.
  33. Wang, Shifeng (April 2015). "Ecological impacts of wind farms on birds: Questions, hypotheses, and research needs". Renewable and Sustainable Energy Reviews. 44: 599–607. doi:10.1016/j.rser.2015.01.031.
  34. Voigt, Christian (April 2015). "Wildlife and renewable energy: German politics cross migratory bats". European Journal of Wildlife Research. 61 (2): 213–219. doi:10.1007/s10344-015-0903-y. S2CID 15232410.
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