• DE | EN

Wind power

Wind power makes the largest contribution to electricity generation from renewable energy sources. In 2019, it was again above the record result of the previous year. Wind power has reached a new record level with an output of 126 terawatt-hours. In 2018, the figure was still 110 terawatt-hours. Wind power generation thus increased by almost 15 per cent compared to the previous year. Particularly noteworthy was the record wind power generation in March of almost 16 terawatt-hours. This could supply around 5 million households with power for one year.

Power from wind is becoming cheaper and cheaper

Since 2010, power generation costs from onshore wind turbines have fallen by 39 per cent and from offshore wind turbines by 29 per cent. Technical developments in wind turbines, such as increased hub heights and larger rotor blades, have led to significantly lower electricity prices in the last ten years. In addition, the growing experience in project development, optimised supply chains, economies of scale and lower maintenance costs are making themselves felt. This is apparent from the current report „Renewable Power Generation Costs in 2019

of the International Renewable Energy Agency (IRENA). IRENA has analysed data from 17,000 projects from 2019. Interesting: In more than half of all newly commissioned large-scale plants for renewable electricity generation, such as wind turbines or solar plants, electricity costs were below the cheapest alternative using fossil fuels.

Wind turbines now dominate the landscape in many regions of the world. The Global Wind Energy Council (GWEC) reports that by the end of 2019, 651 gigawatts of wind power output was installed onshore and offshore worldwide. Almost a third of this, 236 gigawatts to be precise, is located in China, followed by the USA with around 105 gigawatts and Germany with 61 gigawatts. The Chinese also lead the way in annual expansion. Together with the USA, Great Britain, India and Spain, they will have implemented around 70 per cent of the 60.4 gigawatt new installations in 2019.

Incentives and grants of around 73 million euros

Wind power is crucial to the successful implementation of the energy transition. Research institutions and companies are continuously working to further reduce the cost of power from wind energy and to increase the reliability of the plants. In 2019, the German Federal Ministry for Economic Affairs and Energy (BMWi) funded a total of 461 ongoing projects with around 73 million euros. Furthermore, in 2019 the BMWi newly approved 112 research projects in 2019 with a funding budget of around 79 million euros.

 

 

Das Diagramm zeigt die Verteilung der Fördermittel sowie die Entwicklung des Neubewilligungsvolumens im Bereich Windkraft seit 2015.

Verteilung der Fördermittel und Entwicklung des Neubewilligungsvolumens im Bereich Windkraft seit 2015.

Powerful and reliable plants

The funding is intended to contribute to making future plants even more powerful, reliable and available with a higher number of full-load hours. Besides the location, the systems technology is decisive for the level of electricity generation costs. A holistic  plant design is particularly important: As early as the design phase, consideration should be given to the complexity of production, erecting, operation, dismantling and recycling and how the plants or wind farms can be integrated into the power grid Wind turbines and wind farms must be operated intelligently and flexibly. Advanced control strategies can improve the yield or extend the lifetime of the plants. More accurate forecasts allow better predictions of power generation and contribute to supply security.

As wind power continues to expand, wind-friendly locations are becoming rarer, which means that expansion is increasingly taking place in complex terrain. It is therefore essential to use suitable methods to select potentially favourable locations and then to explore the location over a longer period of time using the most economical methods possible.

As the size of modern wind turbines increases, more and more components are reaching the limits of their material stress capacity. New materials, for example for weight reduction or increased reliability, are crucial for effective and economical plant construction and operation.

Wind turbines in the alpha ventus offshore wind farm around the FINO 1 research platform

Wind turbines in the alpha ventus offshore wind farm around the FINO 1 research platform

Logistics and maintenance pose major challenges for the operation of offshore wind farms: The availability of the plants is decisive for their economic efficiency, as offshore wind turbines can only be reached with great effort in the event of defects. This is why innovative grid connection and logistics concepts are important, which take into account the availability of the plants, the transport of personnel and material as well as pooling concepts and operation and maintenance concepts.

 

Thematically related content

This website uses cookies to improve our service. For usage analysis we use Matomo. By further using this site you agree to this use. If you don't want to give your consent or you want to learn more about cookies see our privacy policy .