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Full wind power ahead

How we set new standards both onshore and offshore

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If you want the energy transition, you need wind power. As one of the largest energy companies in Germany and Europe, we see ourselves as pioneers and forerunners in this field. For more than 30 years, we have been driving forward numerous wind power projects – thus contributing to a sustainable energy supply. We aim to achieve climate neutrality for our company by 2035 – and wind energy also plays a key role in this.

0 %

of electricity in Germany is generated by wind farms.

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were installed in Germany in the first half of 2023.

0 megawatts

are produced by EnBW today with its onshore and offshore wind power plants.

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are supplied with green electricity by EnBW Wind Farm Prötzel II.

In focus
Green light for “He Dreiht”
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It is one of the largest energy transition projects in Europe: Our “He Dreiht” wind farm is being built around 85 kilometers northwest of Borkum and around 110 kilometers west of Helgoland. It is scheduled to go into commercial operation in 2025. With an output of up to 960 megawatts, it will supply 1.1 million households with green energy in purely mathematical terms.

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Onshore
Success story onshore wind power
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Onshore wind energy has been an important pillar of the energy transition for many years. Expansion is worthwhile wherever sufficient wind power is available. As a rule, wind turbines are higher inland than on the coast - allowing optimum wind harvesting.

1,031 MW installed capacity group-wide
34,000 households supplied with electricity from the Buchholz wind farm alone
200 m and more is the usual height of new plants

Our onshore wind farms at a glance

Windpark Wiemerstedt

Windpark Buchholz III

Windpark Düsedau

Windpark Benndorf

Windpark Langenburg

Windpark Ober-Ramstadt

Windpark Freckenfeld

Windpark Hüttersdorf

Windpark Steinheim

EnBW milestones onshore wind power
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In 1989, we put our first wind turbine into operation in Heroldstatt in the Swabian Alb. Since then, a lot has happened. Fancy a journey through time?

1989
Rotor blades or rotary axis?

In Heroldstatt, our predecessor company Energie-Versorgung Schwaben (EVS) puts the first wind turbine into operation: It has a conventional three-blade rotor. Another plant followed in 1990: The newly developed Darrieus prototype with a vertical rotary axis. It did not become established – due to its lower electrical output.

1990–2000
Between upswing and downturn

At the beginning of the 1990s, wind energy experienced its first upswing, supported by state subsidies. However, a lack of public acceptance and planning and supply security make it difficult for the industry. The first Renewable Energy Sources Act (EEG) comes into force in 2000 - an important step for the energy transition. More and more wind farms are being built in Germany - such as our plants in Westerheim, Schnittlingen, Eppenrod and Düsedau in 2001 and 2002.

Illustration onshore wind
2009
Onshore wind farm of superlatives

Today, numerous EnBW wind farms are located in the north of Germany – where the most wind can be harvested. Our Buchholz wind farm in the Heidekreis district of Lower Saxony has been in operation since 2009. It originally consisted of 18 turbines, but was expanded to a total of 24 wind turbines in two further construction phases in 2012 and 2017. This makes it one of the largest EnBW wind farms.

2009
We are going international

Together with the Turkish company Borusan, we establish the joint venture "Borusan EnBW Enerji" based in Istanbul – and thus enter the international wind power business. Projects in countries such as France, Sweden and Great Britain follow.

2011
Nuclear phase-out and energy transition

22,200 wind turbines were in operation in Germany in 2011, contributing 8 percent to the energy mix. Following the nuclear disaster in Fukushima, Germany decided to accelerate its nuclear phase-out – and with it a comprehensive change in generation. One thing is certain: Wind power will play an important role in our energy mix in the future.

2016–2018
Expansion is under way

Aalen-Waldhausen, Bühlertann, Dünsbach, Goldboden-Winterbach, Rosenberg: These are just a few of our numerous wind farms that are being built over the next few years. This is often the case after long project planning and construction phases, as the requirements from environmental protection to monument protection are high. In Langenburg, we are testing innovative safety lighting with radar technology that only activates when aircraft are approaching: this reduces light smog.

2023
Wind farm at an altitude of 1,000 meters

A wind farm with two wind turbines is being built north of the municipality of Häusern in the district of Waldshut. The location is the Gießbacher Kopf, a forested mountain ridge which, due to its elevation of more than 1,000 meters, has a high wind potential. The wind farm is currently EnBW’s turbine at the highest altitude.

2023
First repowering project

In the area of the Hanseatic town of Osterburg in Saxony-Anhalt, we are carrying out our first repowering at the Düsedau wind farm, which has been in existence since 2003. We are completely dismantling the five old wind turbines with a hub height of 70 meters and a total installed capacity of 7.5 megawatts and replacing them with four 169-meter-high turbines with a total installed capacity of 22.4 megawatts.

Offshore
Pioneering work for offshore wind power
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Offshore wind energy plays a key role in the green transformation of our energy supply. That is why we have been committed to this demanding business area for years – in direct confrontation with the power of the elements.

976 MW installed capacity group-wide
6 million households can be supplied with electricity from Morven, Morgan and Mona in future.
236 m largest currently planned rotor diameter

Our offshore wind farms at a glance

Offshore wind farm He Dreiht

Offshore wind farm Baltic 1

Offshore wind farms Hohe See and Albatros

Offshore wind farm Baltic 2

EnBW milestones offshore wind power
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Our first (offshore) milestone was the launch of Baltic 1, the first German commercial wind farm in the Baltic Sea. Review and preview.

2008
Set sails

EnBW acquires the project rights to four offshore wind farms in the German North and Baltic Seas. This lays the foundation for EnBW Baltic 1 and 2 (Baltic Sear) as well as EnBW Hohe See and EnBW “He Dreiht” (North Sea).

2010–2011
Cast off for Baltic 1

We are writing offshore history and starting construction of the first commercial wind farm in Germany in the Baltic Sea, Baltic 1. On April 3 at around 10:00 a.m., the former German Chancellor Angela Merkel takes the almost 50-megawatt wind farm into operation. With 21 turbines, located around 16 kilometers north of the Darß/Zingst peninsula, we can cover the electricity needs of 50,000 households in one year. This allows us to save 167,000 tons of CO₂. And yet, who would have thought back then that we would continuously surpass every other one of our wind farm projects in terms of output and area from now on?

2013–2015
Second Baltic Sea wind farm: Baltic 2

Just two years after the commissioning of Baltic 1, the foundations for a second wind farm in the Baltic Sea can already be seen: EnBW Baltic 2. In 2015, the former CEO Frank Mastiaux opens the wind farm - from the museum ship Gorch Fock 1. Baltic 2 generates five times more power than its predecessor and can produce electricity for around 340,000 households in purely mathematical terms.

At the same time, we turn our attention to the North Sea and secure another offshore project in 2014: EnBW Albatros, 105 kilometers north of Borkum and northwest of Helgoland.

2017
We show that things are turning around

In the first German tender for an offshore wind farm project, EnBW secures the contract for the EnBW He Dreiht (Low German: “It is turning”) wind farm in the North Sea. And it really is bringing more movement into the industry: The offshore wind farm is one of the first projects without feed-in subsidies – in other words, it will operate without state support, will not receive any feed-in tariffs under the German Renewable Energy Sources Act (EEG) and can be refinanced thanks to long-term purchase agreements.

2018
Floating technology for deep waters

Together with the US company Trident Winds, EnBW establishes a joint venture to realize the 650-1,000-megawatts Morro Bay offshore wind project on the Californian coast. It explores so-called floating technology: Floating offshore wind turbines will soon make foundations in the seabed obsolete. In this way, wind power can also be produced in the deeper waters of the US West Coast.

2018–2019
Benefiting from the North Sea breeze: Hohe See and Albatros

In order to increase the share of renewable energies in our generation capacity to 40 percent by 2020 – more than twice as much as in 2012 – EnBW is becoming active with two further offshore parks in the North Sea. Built at a cost of 2.2 billion euros, the total of 87 turbines covering an area of 53 square kilometers with a total output of more than 600 megawatts were connected to the grid at the beginning of 2020. That is enough for 710,000 households. EnBW Hohe See and EnBW Albatros are located close to each other and share a common infrastructure for maintenance and supply. EnBW opens offices in Taipei, New Jersey and Boston for international offshore projects.

2020
"Nezzy²": A wind turbine learns how to swim

With our Nezzy² project, we are continuing to investigate how wind turbines can be used in coastal regions with greater water depths. Together with partners, we are developing the prototype of a floating wind turbine. After an approximately 20-meter-high 1:10 scale model has been tested in the Baltic Sea, the full-size plant is finally to go into test operation off the coast of China.

2021–2022
Offshore commitment across borders

EnBW is continuously expanding its offshore expertise and is also establishing its international reputation. Together with bp, we are awarded the contract for three wind farms with a total capacity of 5.9 gigawatts at land auctions in the UK. Project names: Mona, Morgan and Morven - in the Irish Sea and on the east coast of Scotland.

We are handing over our offshore activities in the USA to TotalEnergies, a French multi-energy company, in order to focus more strongly on the European market.

2023
A new era in sight

April 15, 2023 at 11:59 p.m.: Block II of the Neckarwestheim nuclear power plant (GKN II) is taken off the grid as planned, bringing the era of German nuclear power to an end. In the same year, we reaffirm our commitment to wind power with the final investment decision for EnBW He Dreiht. This means its construction phase can begin.

2025
He Dreiht is connected to the grid

Our largest offshore project to date is scheduled to go into operation in 2025 with 64 wind turbines and a total output of 960 megawatts, which is expected to supply over one million households. This makes He Dreiht one of the leading energy transition projects in Europe; it will be able to produce more megawatts in itself than our four existing wind farms combined.

2028
Out into Irish seas

Around 30 kilometers off the coast of England, the two wind farms EnBW Mona and Morgan are expected to be taken into operation in the Irish Sea. Their total output is expected to be around 3 gigawatts.

2030
Scotland, ahoy!

Only a short time after the wind farms in the Irish Sea, EnBW is planning to develop the Scottish Sea in 2030. We expect the Morven wind farm to be taken into operation there in 2030, with construction scheduled for 2026/2027. Together, the three wind farms Morven, Mona and Morgan can supply around 6 million households with green electricity over a total area of 1,660 square kilometers.

2050
Aiming for more than 50 percent wind power

According to the Frauenhofer Institute's forecast, Germany will obtain more than half (51.8 percent) of its electricity mix from wind power in 2050. We want to make a significant contribution to this with our offshore projects: Our wind energy capacities are set to increase to 4,000 megawatts by 2025 - this would not be possible without the EnBW offshore wind farms.

Expansion
Wind energy on course for growth
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We have our roots in Baden-Württemberg and are continuing to expand our market-leading position here. We are also active with various subsidiaries and partnerships throughout Germany and in selected foreign markets, including France, Sweden, the UK and Turkey. Our extensive project pipeline shows this: We continue to focus on growth – onshore and offshore.

We are thinking ahead with wind power
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New technologies help to increase the output of wind farms, reduce costs and minimize environmental impact. This is how we make wind energy indispensable for the green energy mix.

Harvesting wind with a kite

Connected to the ground station via a cable winch, Germany's first SkyPower100 flying kite soars to heights of 200 to 400 meters. There is always wind here - for reliable energy generation.

Illustration of a sky kite
Use of drones in the wind farm

They help with maintenance and will even be used to transport materials and people across the sea in the future. How drones support us in the operation of wind farms: Offshore Logistics Drones research project.

A wind turbine learns how to swim

At present, we can only anchor offshore wind turbines at a water depth of up to 50 meters in the seabed. The Nezzy² floating wind turbine can also be used to develop other marine areas in the future.

Nezzy floating wind power plant
Prevent outages with AI

With the help of artificial intelligence (AI), we at EnBW listen into our wind turbines, process hundreds of thousands of data points per minute and, if necessary, intervene before the technicians are even on site.

Preventing power outages with AI
Green hydrogen generated from sea wind

Offshore wind turbines produce green electricity. In future, green hydrogen can also be produced on site. The H₂ Mare research project is investigating this potential.

Production of green hydrogen
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EnBW E-Cockpit: The app that shows where electricity is generated

The "EnBW E-Cockpit" app makes our generation data transparent. It shows in real time the current performance of our wind energy and photovoltaic systems.

EnBW E-Cockpit für iOS

EnBW E-Cockpit für Android

Current onshore wind power output
MW
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Environmental protection
With respect for people and nature

Whether on land or in the open sea, the construction of a wind turbine always represents an intervention in a natural habitat. This makes it all the more important for us to implement wind farm projects in an environmentally friendly way. We plan exclusively for areas designated for wind power and ensure environmental compatibility with numerous expert reports. We also invest in ecological compensation measures such as the reforestation of trees or the creation of orchards. This increases the benefits for our environment.

Wind energy & environmental protection

Offshore wind farm habitats

Wind in the forest

Wind turbines infrasound

SF₆ in wind turbines

Contact
Shaping the future of energy together
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From securing land to dismantling, we offer services along the entire value chain. We take on the project planning and long-term operation of the systems and rely on an early dialog with citizens for each of our projects. Our team of experts will be happy to answer any questions you may have about projects or specific cooperation.

Wind for local authorities

Wind for citizens

Wind for land owners

Wind for project planners

Services for wind farm operators

People at EnBW

When we talk about the energy transition, we are not only thinking about innovative technologies, but also about the people who are working for a sustainable future every day. Many of EnBW's 26,000 employees work in the wind energy sector. They make a significant contribution to the successful implementation of our goals. And have a task for themselves that is more than just a job.

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