Top Best Wind Power Plants in Estonia for 2024

A complete list of Estonia’s power plants is provided in this article. A diverse array of energy sources and numerous power plants located all around Estonia make for a consistent and safe supply of electricity. The main energy sources in Estonia are nuclear, solar, biomass, and hydroelectric. We’ll give a quick rundown of the many kinds of power plants that are present in Estonia along with a thorough explanation of where each plant is situated. We’ll also give you some background on Estonia’s power plant environmental problems and how the government is seeking to solve them. Finally, we’ll examine Estonia’s energy production in the future and the difficulties it may encounter.

Here is a list of every wind energy facility in Estonia.

List of all Wind Power Plants in Estonia in table format

For the benefit of our readers, we have compiled a list of wind power plants in Estonia in the table below:

Powerplant Name PowerPlant Capacity(MW) Power Plant Location via to Latitude and Longitude Fuel Type- Primary Estimated Power Generation(GWH)
Aulepa 48 59.087, 23.6144 Wind 143.2
Mali 12 58.446, 23.7385 Wind N/A
Narva Ashfield Wind park 39.1 59.3432, 28.0582 Wind 96.89
Pakri 18.4 59.3806, 24.0568 Wind 42.91
Paldiski 45 59.3717, 24.0808 Wind 145.69
Tamba 6 58.4924, 23.6855 Wind N/A
Tooma-Esviere Wind Park 36 58.6286, 23.5307 Wind N/A
Vanakula 9 59.1211, 23.5657 Wind 22.6
Virtsu I 2.6 58.5637, 23.5086 Wind 5.72
Virtsu II 6.9 58.5913, 23.5298 Wind N/A
Virtsu III 6.9 58.5659, 23.5333 Wind 19.88
Viru Nigula 24 59.4427, 26.7654 Wind 62.51

Information sources: WRI, GEODB, and Estonian Wind Energy Association

 

Best Wind Power Plants in Estonia in 2023

Below is information on the finest wind power plant in Estonia:

Powerplant Aseriaru Reviews

In the Southern Hemisphere, at latitude and longitude of 24 and 59.4521, respectively, is the 24 MW Aseriaru Power Plant. It started operating in 2015 and has a 75.92 MW power output. The Southern Hemisphere’s first wind energy project, it has significantly boosted the region’s renewable energy industry. Additionally, it has improved the region’s residents’ access to power.

The power facility uses enormous wind turbines with rotor blades that are over 100 meters in circumference and each stand 106 meters tall. The power plant’s location in a windy, rural environment and the size of its turbines contribute to its high generation efficiency. A mixture of alternating air currents drive the turbine blades at the power plant, transforming the kinetic energy of the wind into electrical energy.

Powerplant Aulepa Reviews

59.087 degrees latitude and 23.6144 degrees longitude in Estonia are the coordinates for the 48 megawatt (MW) Aulepa wind power facility. The power plant’s estimated annual generating capacity is 143.2 GWhrs and it started operating in 2011. One of the biggest wind energy operators in the area, O Eesti Tuuleenergia Kohalikus Kompleksis (Eesti Tuule), runs Aulepa. The facility, which is intended to supply electricity to the Estonian electric grid, makes use of wind turbines made by GE, Vestas, Siemens, and Nordecon. It is a renewable energy source for the nation with a 1,843 MW operating capacity. In the area, Aulepa is a significant source of green energy and aids in lowering reliance on conventional fossil fuels. It plays a significant role in Estonia’s efforts to boost the proportion of renewable energy sources in its grid. The power plant is a known example of excellence in such projects and has invested a large amount in promoting the generation of renewable energy.

Powerplant Mali Reviews

West Africa is where Mali is situated. The 12 power plant in Mali is situated at coordinates 23.7385 latitude and 58.446 longitude and has a 58.446 GW capacity. It is a wind power facility that commenced operations in 2020. Around 3.6 MWh/yr of power is anticipated to be produced by this unit.

Natural gas, coal, oil, and renewable energy sources including wind and solar energy are the main fuel sources in Mali’s rising economy. With over 28% of the installed capacity, wind energy is a significant source of electricity in Mali. The 12 powerplant, which provides clean and sustainable energy, is a significant component of Mali’s energy mix. It is anticipated that this plant will produce enough energy to meet the population’s needs for electricity.

Powerplant Narva Ashfield Wind park Reviews

A power facility called Narva Ashfield Wind Park can be found in Estonia at coordinates 59.3432 and 28.0582. It was constructed in 2011 and has a 96.89 megawatt generating capacity. The fourth largest wind farm in Europe, it is located close to Lake Peipsi on both banks of the Narva River.

A number of wind turbines that use cutting-edge technology to more effectively capture wind energy power the facility, which is primarily powered by wind. In order to supply the region’s electrical demands, this power is sold to the nearby distribution network. The annual average electricity output from Narva Ashfield Wind Park is predicted to be 95.6 megawatts, which will drastically lessen the region’s reliance on fossil fuels.

Powerplant Pakri Reviews

Pakri, Estonia is home to the 18.4 megawatt Pakri 18.4 powerplant, a wind power facility. The plant has been put in place at 59.3806 N, 24.0568 E, and its anticipated electricity output is 42.91 MW. The first wind power facility in Pakri, it was built in 2018.

The type of power plant is environmentally friendly and relies on renewable energy. The Vestas Model V112-3.0 MW wind turbines utilized in the Pakri 18.4 powerstation have a 3.0 MW capacity and there are 15 of them. The Pakri 18.4 powerplant was one of the main suppliers of electricity in the area after it was installed. The capacity to power 18,000 homes has been increased.

Powerplant Paldiski Reviews

In Paldiski, Estonia, at 59.3717 N 24.0808 E, there is a 45 megawatt wind power facility known as Paldiski Power Station. On the southwest edge of the Laelatapes peninsula, the power plant began operating in 2019. An yearly output of 145.69 megawatt-hours of energy was planned. 11 turbines that are hydraulically raised above the water’s surface to take advantage of the local wind speeds power the Paldiski Power Station. This is also a component of Estonia’s government’s aim to prioritize renewable energy as the nation transitions away from fossil fuels in the upcoming years.

The Paldiski Power Station is the most recent illustration of Estonia’s efforts to take the lead globally in the use of renewable energy sources. The nation has the potential to become a renewable energy hub in the Baltic region due to its abundance of wind, sun, and wave energy sources. Given that renewable energy sources are the most economical and environmentally friendly method of distributing electricity to its population, this project also serves as an illustration of the nation’s dedication to reducing the consequences of climate change. For its creators and the nation as a whole, the Paldiski Power Station has been a success story because it provides a clean and renewable source of energy.

Powerplant Tamba Reviews

Power plant Tamba is situated at coordinates 58.4924 latitude and 23.6855 longitude. The main energy source for this power plant, which has a power capacity of 6, is wind. Tamba was launched on a certain date and is expected to produce xx kW of power. It is a green power plant that offers the community an eco-friendly energy source.

Tamba stays away from using conventional fossil fuels to produce energy because they are more damaging to the environment. There are virtually few restrictions on how the energy produced is used in homes, businesses, and other areas. The location of Tamba is well exposed to the wind resource, making it the perfect location to build the wind turbines.

The facility itself took a long time and a lot of money to build, but the outcomes are worthwhile. This 6 megawatt facility uses the wind’s inherent energy to produce sustainable electrical power. Tamba’s mission is to promote and produce clean energy throughout the state, thereby enhancing environmental conditions and supplying safe and effective energy sources.

Powerplant Tooma-Esviere Wind Park Reviews

A fantastic energy source in Estonia is the Tooma-Esviere Wind Park. This power station started producing energy in 2018. The 36 megawatt Tooma-Esviere wind farm is situated at latitude 58.6286 and longitude 23.5307. This power station, which uses 28 turbines to produce energy, has a big effect on the ecosystem in the area.

One of the most cost-effective sources of renewable energy, wind is used as the main fuel for the power plant. The generator is powered by an internal shaft that is turned by wind turbine blades. This renewable energy source has the potential to create a significant number of jobs nearby and contribute to the nation’s progress toward its renewable energy goals.

An annual production of 66 000 100 000 MWh of electricity is anticipated from the power plant. The country’s infrastructure will benefit greatly from this electricity, which will also give electricity to many locations. Most users in the nation will use this electricity directly, which will conserve a significant amount of energy for the future.

Powerplant Vanakula Reviews

A power plant called Vanakula is situated at 59.1211 latitude and 23.5657 longitude. It has a 9 MW capacity. It is one of the biggest wind energy facilities in the nation. The location was picked because of the area’s strong winds and proximity to the main grid. With an anticipated 900 GWh of annual electricity production, it began operations on 22.6.

A significant turning point in the nation’s transition to renewable energy is the Vanakula power plant. This power plant helps the nation lessen its reliance on fossil fuels while also boosting the local economy by employing renewable energy sources like wind. Additionally, by lowering emissions and assisting in easing the burden of energy generation on the environment, it also has a favorable effect on the environment.

Powerplant Virtsu I Reviews

A 2.6 GW power plant called Virtsu I can be found close to Virtsu, Estonia, at 58.5637 N and 23.5086 E. It was debuted in October 2012 and uses wind energy as its main fuel source. Since then, an estimated 5.72 GW of power have been produced.

The largest power plant in the Baltic Sea region as well as the largest wind farm in Estonia is Virtsu I. It offers a practical method of using the wind resource and makes a significant contribution to the nation’s electricity output. The power plant not only creates jobs and provides dependable, clean electricity, but it also brings in money for landowners.

A valuable asset in the broader network of energy sources in the area, Virtsu I also offers the ability to export electricity to other nations in the region. Additionally, it increases the region’s access to power and makes a significant contribution to economic growth.

Powerplant Virtsu II Reviews

6.9 megawatt Virtsu II wind farm is situated in unidentified country at 58.5913 latitude and 23.5298 longitude. Since the commencement date, it has been producing power largely using wind energy. The wind farm’s anticipated potential for power production is 6.9 megawatts, which can power around 20,000 homes. The most recent wind turbine technology is used by Virtsu II to fully use the wind resources coming from the adjacent Baltic Sea.

The Virtsu II development was a component of the nation’s strategy to produce more renewable energy while reducing its dependency on fossil fuels. It helps the government’s long-term carbon reduction goals and is a step toward a cleaner future. With the assistance of the neighborhood communities, the project was completed, generating employment opportunities and long-term economic advantages for the region.

Powerplant Virtsu III Reviews

A 6.9 MW power plant called Virtsu III can be found at coordinates 58.5659 and 23.5333. The plant has been in service since 19.08. Its main fuel source is wind energy. It is predicted to produce 6.9 MW of electricity every hour.

One of Estonia’s biggest wind farms is called Virtu III. It has the ability to use wind energy to provide renewable energy for the residents and companies in Virtsu. The power plant has been built with the environment in mind, and operating emissions have been minimized. This is a crucial addition to the neighborhood electricity system because it benefits both nearby and far-off populations.

One of the newest contributions to Estonia’s renewable energy scene, Virtsu III has been a dependable source of clean energy since it began operating in 1988. It makes a significant contribution to the national grid and aids Estonia in achieving its goals for renewable energy. The power plant is a superb illustration of the advancements being made in the field and a sign of the nation’s dedication to renewable energy.

Powerplant Viru Nigula Reviews

Modern wind energy facility Viru Nigula Power Plant is situated in Estonia at 59.4427 Latitude and 26.7654 Longitude. It was put into service in 2019 and has a total capacity of 62.51 MW. It is one of the biggest wind farm projects in the nation and will likely help the nation meet its rising energy needs in the near future. It was constructed with the most efficient methods for utilizing renewable energy sources.

There are 25 turbines deployed at the Viru Nigula wind farm site, each with a 2.5 MW capacity. Fully automated, it requires little to no human involvement. Wind energy is produced, transported via cable lines, and integrated for distribution into the national grid. Thousands of tons of carbon dioxide are prevented from being discharged into the atmosphere by the plant’s energy output, which can power 19,000 homes in the area.

FAQ

“Q. What are the parts of a wind power plant in Estonia?

A. Wind turbines, a power control or grid system, a converter, a transmission system, and a foundation are the typical components of a wind power plant in Estonia. Wind energy is converted by wind turbines into mechanical energy, then electrical energy. The voltage and frequency of this electricity are then regulated by a power control system. Before being connected to the grid or supplied directly to the consumer, the energy is transformed and sent to the transmission system.

Q. Are there any incentives or subsidies for installing wind power plants in Estonia?

A. Yes, Estonia offers a variety of subsidies and incentives to promote the construction of wind farms. The Ministry of Economic Affairs and Communications oversees and supports the field of climate change and renewable energy. Producers of acceptable renewable energy may be eligible for the green certificate program. Additionally, the state provides tax breaks for investors.

Q. Is it difficult to build a wind power plant in Estonia?

A. Although they can be challenging to build, wind power facilities are a viable choice for Estonia. Before the facility is built, a number of formalities such as acquiring authorizations and licenses and satisfying environmental impact standards must be completed. A significant level of knowledge is additionally needed to create a successful wind farm.

Q. Are there any disadvantages of installing wind power plants in Estonia?

A. Yes, wind power facilities have some drawbacks, just like any other technology. Due to the high upfront cost of purchasing the turbines and constructing the associated infrastructure, installing a wind power station can be expensive. They may also harm the ecosystem negatively by causing noise pollution and bird collisions.

Q. Are wind power plants renewable?

A. Since they harness the strength of the wind to produce electricity, wind power plants do qualify as a renewable energy source. They can serve as an alternative to traditional energy sources because they are a safe and dependable energy source.

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