All of Denmark’s active power plants are listed here. Over the past few decades, Denmark has established itself as a global leader in the production of sustainable energy. Having said that, Denmark has incorporated a varied mix of sources, including natural gas, nuclear power, oil, and renewables like wind and biomass, into its national energy portfolio. This list provides a thorough overview of all the power plants that are currently operational inside the borders of Denmark, together with details on their energy production, energy sources, and geographic location.
Here is a list of every wind energy facility in Denmark.
List of all Wind Power Plants in Denmark in table format
For the benefit of our readers, we have compiled a list of wind power plants in Denmark in the following table:
Powerplant Name | PowerPlant Capacity(MW) | Power Plant Location via to Latitude and Longitude | Fuel Type- Primary | Estimated Power Generation(GWH) |
---|---|---|---|---|
Avedore Holme | 11 | 55.6022, 12.4611 | Wind | 31.46 |
Draeby Fed | 9.2 | 55.4503, 10.5215 | Wind | 31.14 |
Frederikshavn | 8 | 57.4438, 10.5621 | Wind | 14.33 |
Hagesholm | 23 | 55.7606, 11.5615 | Wind | N/A |
Hollandsbjerg | 16.5 | 56.4845, 10.2489 | Wind | 37.89 |
Horns Rev A | 160 | 55.5297, 7.9062 | Wind | 592.73 |
Horns Rev B | 209.3 | 55.6, 7.5825 | Wind | 839.8 |
Klim Fjordholme | 67.2 | 57.0599, 9.1563 | Wind | 172.68 |
Middelgrunden | 20 | 55.6908, 12.6703 | Wind | 46.58 |
N rre kse S | 17.3 | 57.1252, 9.5452 | Wind | N/A |
Rejsby Hede | 23.4 | 55.0373, 8.6666 | Wind | 64.7 |
Roedsand 1 | 165.6 | 54.54, 11.715 | Wind | 510.25 |
Roedsand 2 | 207 | 54.5228, 11.5447 | Wind | 804.88 |
Ronland 1 | 17 | 56.663, 8.2202 | Wind | 50.21 |
Samso | 23 | 55.72, 10.5801 | Wind | 64.4 |
Wiki-Solar, WRI, GCPT, GEODB, CARMA are information sources.
Best Wind Power Plants in Denmark in 2023
Below is information about the top wind farms in Denmark:
Powerplant Anholt Reviews
With a 399.6 megawatt electrical output, the Danish offshore wind power project Anholt began operations in 2013. With a latitude and longitude of 56.603 north and 11.209 east, respectively, the Anholt Wind Farm is situated off the coast of Jutland, about 11 kilometers from the island of Anholt and 32 kilometers from the mainland. Anholt, Denmark’s first sizable offshore wind farm, contributes to the nation’s aim to cut CO2 emissions by 40% from 1990 levels by 2020.
The Anholt Wind Farm is the first offshore wind farm to use two different turbine types, and it has 111 turbines, comprising 91 3.6 MW Siemens turbines and 20 3.0 MW Siemens turbines. The project is expected to produce 1,200 gigawatt-hours of electricity annually, enough to supply electricity to more than 400,000 Danish homes.
Powerplant Avedore Holme Reviews
One of the biggest wind power plants in the nation is Avedore Holme, an 11-megawatt facility close to Copenhagen, Denmark. It is located at coordinates 55.6022 latitude and 12.4611 longitude. The power plant’s main fuel source is wind, and it started operating on 31.46.
The Avedore Holme Power Plant is a key component of Denmark’s efforts to use renewable energy. Nearly 40% of the electrical energy produced in the nation is derived from wind energy. The 11-megawatt plant can generate more than 90 GWh annually, which is sufficient to power about 30,000 houses, and it occupies a space of 40 hectares, or more than 100 acres. The power plant also generates jobs and benefits the local economy in countless other ways.
Powerplant Draeby Fed Reviews
Location of the Draeby Fed 9.2 power plant: 10.5215 longitude and 55.4503 latitude. Wind energy serves as the plant’s main fuel source. The facility is expected to have a 9.2GW capacity for power generation as of 31.14, the commencement date. One of the biggest wind farms in the nation is it.
An important component of the nation’s electrical system is the Draeby Fed 9.2 power plant. The construction of this plant is anticipated to result in a 75 percent boost in the nation’s overall energy generation. Additionally, this facility is predicted to cut carbon dioxide emissions by 9.4%, aiding in the fight against global warming.
The Draeby Fed 9.2 power plant has been beneficial for the growth of the surrounding area, giving residents jobs and enhancing access to energy for homes and businesses. The plant’s contribution to sustainability is further increased by its placement in a sparsely inhabited area, which prevents ecological harm to local flora and fauna and land species.
Powerplant Frederikshavn Reviews
The Danish municipality of Frederikshavn is home to the Frederikshavn 8 wind farm. The location of this wind farm is given by the coordinates 57.4438N 10.5621E. It was founded in 2014 and has an 8 megawatt installed capacity. A rough estimate of 14.33 megawatt-hours of pure, renewable electricity from the wind will be produced by it.
The 67-meter-tall Harboore wind turbines TG6000 utilized at Frederikshavn have a maximum production capacity of 2.3 megawatts. The electricity produced is sent to the neighborhood utility grid and contributes to a decrease in atmospheric carbon dioxide emissions. In order to maximize the power production of the wind turbine, wind speed and direction sensors are monitoring the entire area close to Frederikshavn 8.
Powerplant Hagesholm Reviews
Denmark’s Hagesholm wind power facility is situated at latitude 55.7606 and longitude 11.5615. 23 MW of power may be generated by the facility, which debuted in November 2009. The power plant’s main fuel source is wind, which produces about 37 GWh of clean electricity each year.
With a height of 120 meters, Hagesholm is home to 34 wind turbines. This results in a 51.6 hectare total rotor area. The turbines can always be tilted to the best angle possible to face the wind. This is because they are built with a tilting mast. The wind turbines can operate effectively in all weather conditions and even in extremely light winds. Because of this, wind energy is a dependable and affordable energy source.
The owner of the power plant is a private investor who put more than 30 million euros into its construction and development. Denmark and its neighboring nations get the electricity produced by the power plant for use in their local homes and businesses. The power plant lowers the cost of energy bills while ensuring the nation’s energy security. It promotes sustainability and lowers carbon emissions.
Powerplant Hollandsbjerg Reviews
Denmark’s Hollandsbjerg wind farm has a 16.5 megawatt capacity. It is one of the biggest land-based wind farms in Europe and the largest in the nation. The site has 37 wind turbines and is situated at latitude 56.4845 and longitude 10.2489. It is expected that the wind farm, which was put into operation in 2019, will produce 37.89 megawatt hours of electricity annually, more than enough to power more than 10,000 homes. The wind farm’s location near the ocean allows it to take advantage of the region’s consistent and reliable wind flow.
Because the facility’s wind turbines can generate power even in light winds, they are the perfect option for building a sizable utility-scale plant. Modern technology is used throughout the turbines, including temperature sensors, improved pitch and speed controls, and advanced blade design. This aids in ensuring the turbines, which turn wind energy into electricity, operate at their peak efficiency and dependability.
Powerplant Horns Rev A Reviews
At 55.5297 latitude and 7.9062 longitude, in Denmark, lies the 160 megawatt Horns Rev A power station, which is primarily powered by wind energy. On October 14, 2002, the power plant initially started operating, with an annual wind energy output capacity of 592.73 megawatts. One of the most well-known offshore wind turbines in the world, Horns Rev A can generate enough electricity to supply more than 160,000 Danish homes.
In contrast to the traditional design, the wind turbines utilized at Horns Rev A are fitted with more modern, efficient designs, allowing for higher production capacities and less area needs than those of wind farms that are sourced from the land. This lowers expenses, reduces the need for land, and helps with environmental or power conservation goals. Without the need for extra storage devices, the energy generated by this power plant is sent directly into the electrical grid system.
Powerplant Horns Rev B Reviews
A power station called Horns Rev B is situated in Denmark. It is precisely situated at 55.6 and 7.5825 in terms of latitude and longitude. The power plant, which has a 209.3 MW capacity, has been in use since 839.8. Horns Rev B uses wind as its main fuel source, which is collected from the neighborhood.
Power generation at Horns Rev B has been successful and effective. Throughout Denmark, it has been able to supply electricity to tens of thousands of homes. Since the power plant produces clean, renewable energy, both residential and commercial consumers frequently choose it. Additionally, Horns Rev B offers a varied energy mix, lowering reliance on conventional fossil fuels.
Horns Rev B has received praise for being a ground-breaking wind energy deployment structure. For the rest of the globe, it has excelled in terms of cost-effectiveness and success rate, serving as a superb model. Horns Rev B is an example of how wind energy has the potential to be a major source of energy.
Powerplant Klim Fjordholme Reviews
A 67.2 MW wind power facility called Klim Fjordholme can be found in Norway’s Klim municipality, close to Fjordholme. The facility is situated at latitude 57.0599 and longitude 9.1563, with an estimated annual power generation of 172.68 GWh. The facility’s main source of electricity is wind.
In October 2012, the Klim Fjordholme power station started operating for profit. The factory has a space of around 220 acres and consists of 22 wind turbines, each with a 3 MW capacity. The plant also has a transformer substation connected to a regional power system, allowing it to occasionally export electricity to other nearby countries as well as transport electricity throughout a large territory.
Powerplant Middelgrunden Reviews
In the Danish resund, there is a 20 MW offshore wind farm called Middelgrunden. There are 11 wind turbines in the offshore wind farm, each producing 2 MW of electricity. The wind farm, which lies 4 km south of Amager and 4 km southeast of Central Copenhagen, serves as an illustration of sustainable energy generation with an emphasis on minimizing negative effects on the environment and neighborhood.
The Middelgrunden Wind Farm, which is located at the given coordinates of 55.6908 and 12.6703, has been in operation since 2000 and is expected to produce 46.58 GWh annually. It can power up to 20,500 houses annually, which makes it a sizable source of renewable energy in Denmark. However, because of their size and placement in shallow coastal waters, the wind turbines may be seen on the horizon from the city’s surrounding neighborhoods.
Powerplant N rre kse S Reviews
The 17.3 megawatt N rre kse S wind farm is situated at 57.1252 latitude and 9.5452 longitude. Wind energy is the main fuel utilized at N rre kse S. Unknown year, however it was anticipated that the wind farm would start producing electricity in 2018.
In contrast to other wind farms, N rre kse S stands out due to its distance from the western Danish shore. Instead, it is situated in the heart of Denmark’s continental region, Jutland. N rre kse S is one of the biggest wind farms in the nation despite its remote location. When fully operational, it should be able to supply almost 17,000 homes with power.
The capacity and location of N rre kse S make it a significant component of the Danish renewable energy portfolio. The power plant helps the nation reach its aim of totally relying on renewable energy sources while also providing a clean supply of energy for thousands of residences. This objective is furthered by N rre kse S, a representation of development and environmental responsibility.
Powerplant Rejsby Hede Reviews
Rejsby Hede, a power station with a 64.7 MW capacity, is situated in Denmark. It started operating in 2011 and provides the nation with a green and affordable energy source, with wind serving as the main fuel source. The coordinates of Rejsby Hede are Latitude 23.4 and Longitude 55.0373. This location was picked because of the area’s favorable wind currents, which produce an expected high level of power generation of up to 64.7 MW.
Modern Rejsby Hede Power Plant makes use of wind turbines and a cutting-edge energy management system to produce energy as efficiently as possible. It now serves as an illustration of the effective use of renewable energy sources in the production of energy and has given Denmark access to reliable, affordable electricity. The Rejsby Hede power station has greatly decreased the nation’s CO2 emissions by using wind as its main fuel source.
Powerplant Roedsand 1 Reviews
With a power plant capacity of 165.6 megawatts, Roedsand 1 is a power plant with coordinates of 54.54 latitude and 11.715 longitude. Roedsand 1 started operating in 2010 and generates 510.25 megawatts of power largely from wind.
The Roedsand 1 Powerplant, which is situated in the municipality of East Denmark, is an excellent illustration of how to generate renewable energy. The area’s energy requirements may be met in large part by the energy produced on site by the wind turbines. The power plant, which produces clean, renewable energy that is now a cornerstone in the area’s energy needs, has developed into a pillar of the region’s energy output.
Roedsand 1 aids in laying the foundation for future success as awareness and use of renewable energy expand. A fresh interest in renewable energy sources has been sparked by Denmark’s success in adopting low-carbon energy production, demonstrating the significance of wind and other alternative energy sources in Denmark and around the world.
Powerplant Roedsand 2 Reviews
A 207 megawatt (MW) wind power facility called Roedsand 2 may be found in Southern Denmark, Denmark, at 54.5228 N and 11.5447 E. It is situated next to the town of F borg and 64 kilometers southwest of the city of Odense. The 205 wind turbines at the Roedsand 2 Power Plant each have a 1 MW capacity. Its output is sufficient to meet the electrical needs of 190,000 Danish households. Since its August 2008 debut, the wind power plant has been producing electricity using wind energy.
The 132 kV high voltage transformer at the power plant’s own transformer station serves as the connection point for all 205 of Roedsand 2’s turbines. All of the electricity produced by the wind turbines is channeled into Denmark’s national transmission grid, from whence it is sent to other major cities for further use. Roedsand 2 uses 5-bladed wind turbines because they are best suited to the local wind patterns. Additionally, the power plant produces an estimated 804.88 GWh of wind energy annually.
Powerplant Ronland 1 Reviews
The approximate latitude and longitude of the Ronland 1 power plant in England are 56.663 and 8.2202. The power plant has a 17 megawatt (MW) installed capacity. The Ronland 1 power station has been in service since 50.21 and uses wind energy as its main fuel source. The maximum annual power production capacity of the Ronland 1 is predicted to be 16,686 megawatt-hours (MWh).
The Ronland 1 power station makes a significant contribution to the domestic energy market in England. Local residences and businesses can receive a consistent supply of electricity from the power plant. Furthermore, the Ronland 1 is assisting in lowering the nation’s total dependency on imported fossil fuels thanks to its large capacity and dependable energy supply. The country’s energy infrastructure is becoming more effective and productive as a result of this.
FAQ
Q. What are the main types of wind power plants in Denmark?
A. Onshore wind turbines, offshore wind farms, floating wind turbines, and smaller wind turbines for dispersed energy production are the four primary types of wind power facilities in Denmark. The most prevalent form, onshore turbines are often installed on high steel towers. Offshore wind farms are substantial undertakings on the open ocean that typically consist of a number of connected and anchored turbines. Most commonly deployed on barges or other floating structures that can be moved to and from sites, floating turbines are a more modern invention. Smaller dispersed wind turbines are designed to enable localized energy generation and are often put on roofs or other structures.
Q. How does Denmark measure the wind power capacity?
A. Megawatts (MW), a unit of power equivalent to one million watts, are used to measure the amount of wind power available in Denmark. As of 2020, Denmark’s total wind power capacity was 4,845 MW, ranking it as the fourth-largest wind power generator in the European Union.
Q. Is Denmark continuing to invest in wind power production?
A. Yes. By 2030, Denmark wants to generate 50% of its electricity from renewable sources, and one of the key sources to that end is wind power. As a result, there have been ongoing investments in wind energy over the past few years, and Denmark is now the global leader in newly installed capacity per person.
Q. What environmental concerns or impacts does wind power have?
A. There are several negative environmental effects or problems with wind power. The turbines’ noise pollution, the disruption of bird migration paths, and, of course, the potential harm to local ecosystems caused by construction are just a few of them. In Denmark, the government has established restrictions to minimize any potential environmental harm, and these concerns are taken into account when approving wind power stations.
Q. What incentives are available to encourage wind power production in Denmark?
A. A variety of incentives are offered by the Danish government to encourage the use and growth of renewable energy sources like wind power. These include feed-in tariffs, which provide payments for each megawatt hour of electricity produced, subsidies to cover a portion of the cost of installation and operations, and additional tax breaks. Due to these subsidies, wind energy is now a competitively priced energy source in Denmark.
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