An exhaustive list of all the power plants in operation in Belarus may be found in this article. It contains information on the different fuels utilized to produce electricity as well as the overall output capacity of each power plant. Additionally, a review of Belarus’s current energy production situation and its progress toward lowering emissions from power generating will be included in the essay. A summary of the nation’s current policies regarding nuclear, renewable, and other energy sources will also be included in the article. The essay will also analyze how Belarus’s present economic circumstances are affecting the country’s power sector. Lastly, the paper will provide some perspectives on Belarus’s electrical industry’s prospects.
The list of all Belarusian nuclear, hydroelectric, solar, wind, oil, and gas power stations is provided below.
List of all Power Plants in Belarus in table format
We have compiled a list of all Belarusian power plants into the following table for the convenience of our readers:
Powerplant Name | PowerPlant Capacity(MW) | Power Plant Location via to Latitude and Longitude | Fuel Type- Primary | Estimated Power Generation(GWH) |
---|---|---|---|---|
Blizhnyaya Rechitsa | 55 | 53.64, 31.55 | Solar | 81.48 |
Blizhnyaya Rechitsa 2 | 109 | 53.625, 31.6 | Solar | 162.19 |
Bobruisk CHP-2 Power Plant Belarus | 180 | 53.1895, 29.2055 | Gas | N/A |
Bragin EP | 4.1 | 51.784, 30.2559 | Solar | 6.25 |
Brahin | 18.5 | 51.797, 30.209 | Solar | 28.21 |
Chechevicy | 11.3 | 52.92, 30.85 | Solar | 17.24 |
Elsk | 16.3 | 51.77, 29.155 | Solar | 24.87 |
Gomel-1 CHP Power Plant Belarus | 6 | 52.4141, 31.0031 | Gas | N/A |
Gomel-2 CHP Power Plant Belarus | 544 | 52.4492, 30.8167 | Gas | N/A |
Grodno CHP-2 Power Plant Belarus | 180 | 53.6675, 23.9272 | Gas | N/A |
Lida Power Plant Belarus | 43 | 53.9011, 25.291 | Gas | N/A |
Lukoml Thermal Power Plant Belarus | 2460 | 54.6803, 29.1341 | Gas | N/A |
Minsk-3 CHP CCGT Power Plant | 542 | 53.8799, 27.6476 | Gas | N/A |
Minsk-4 CHP CCGT Power Plant | 1035 | 53.872, 27.4022 | Gas | N/A |
Minsk-5 CHP CCGT Power Plant | 780 | 53.612, 27.954 | Gas | N/A |
Information Sources: Wiki-Solar, GEODB
Best Power Plants in Belarus in 2024
Below is information on Belarus’s top power plant:
Powerplant Bereza SDPP Thermal Power Plant Belarus Reviews
Founded in 2011, the Bereza SDPP Thermal Power Plant generates 1130 MW of power using gas and is situated at 52.4538 latitude and 25.1926 longitude. Owing to its state-of-the-art engine technology, this facility can supply the nation’s electrical needs. Gas is the main fuel used in this plant because it can produce energy in a way that is both economical and efficient.
The plant has contributed significantly to the grid’s ability to receive dependable electricity ever since it opened. Millions of people could be powered by the electricity the facility produces, assisting the nation in meeting its electrical needs and achieving greater energy security. This power plant not only supplies the nation with electricity, but it also creates jobs and chances for economic growth.
The Bereza SDPP Thermal Power Plant has demonstrated its dependability as a supply of energy that can meet the needs of the nation. This power plant has greatly decreased Belarus’ environmental footprint by generating green jobs and cutting carbon emissions, assuring a safe and sustainable future for the nation.
Powerplant Blizhnyaya Rechitsa Reviews
Situated in Belarus’s Minsk Oblast, Blizhnyaya Rechitsa has housed a 55 MW solar power plant since its establishment in 2019. The power plant is situated close by, along the banks of the River Berezina, at 53.64 N, 31.55 E in terms of latitude and longitude. Based on all of its running hours, the facility has an estimated total capacity of 81.48MW. The power plant’s main fuel source is solar energy, which benefits the local population’s economy and environment.
The plant now employs a large number of locals in a variety of disciplines, including management, operation, maintenance, and installation. The facility is thought to be able to produce enough electricity to cover the energy requirements of far over 10,000 local families. The power plant is also seen as a crucial component of Belarus’s solar energy mix, aiding in the transition away from the nation’s reliance on coal and other environmentally hazardous energy sources.
Powerplant Blizhnyaya Rechitsa 2 Reviews
A 109 MW solar power facility called Blizhnyaya Rechitsa 2 can be found at 53.625 East latitude and 31.6 North latitude. Solar energy is the power plant’s main fuel source. With a projected power generation of 109 MW, this power station went online in 162.19.
Not long after the first Blizhnyaya Rechitsa 1 powerhouse was built, Blizhnyaya Rechitsa 2 was established. Constructed at an expected cost of $116 million, the power plant uses multiple technologies to convert solar radiation into electrical power. Photovoltaic cells are used to turn solar energy into electrical power. After being delivered to a step-up transformer via medium-voltage cables, the energy is elevated to the proper voltage and then transferred back to the national grid for utilization and reclamation.
One of the biggest solar power plants in the nation, Blizhnyaya Rechitsa 2 generates four megawatts of electricity every hour. It is in charge of giving the area a sizable amount of electricity and is assisting in lessening the reliance of the nation on fossil fuels. The power plant combats the effects of climate change and helps to reduce emissions.
Powerplant Bobruisk CHP-2 Power Plant Belarus Reviews
Situated at 53.1895 latitude and 29.2055 longitude, the 180 MW combined cycle gas turbine (CCGT) power station known as the Bobruisk CHP-2 Power station is situated in Belarus. Reopened in July 2015, it is one of Belarus’s biggest power plants. Natural gas is the main fuel type used in this power plant. It is anticipated that this power plant will provide enough electricity to power over 400,000 households in Belarus.
For Belarus, the Bobruisk CHP-2 Power Plant is a significant renewable energy source. A plentiful and comparatively clean fuel source is natural gas. Compared to burning coal or oil, it emits less carbon dioxide and generates less pollutants than some other fuel sources, such as coal. Furthermore, natural gas does not produce dust and particulate pollution or ash ponds because it produces less ash than coal.
Powerplant Bragin EP Reviews
In Belarus’s Bragin area is the 4.1 MW solar power plant known as Bragin EP. The solar power plant is located specifically at 51.784~ N and 30.2559~ E latitude and longitude. With 4.1 MW of installed capacity, solar energy is the plant’s main energy source. It is projected to generate about 4.5 gigawatt-hours of clean electricity yearly since it was put into service on 6.25. The government’s goal of increasing the proportion of renewable energy in the energy mix is supported by the solar power plant, which also helps to lessen the region’s reliance on nonrenewable energy sources.
Utilizing cutting-edge solar technology, such as photovoltaic systems, thin-film solar modules, and polycrystalline solar panels, the solar power plant is able to generate the most electricity possible from sunshine. Energy storage technologies, which reduce solar energy’s unpredictability and provide a consistent supply of electricity throughout the day, are another aspect of the project.
The Bragin EP will be powered by solar energy, which will assist Belarus in lowering its emissions of damaging greenhouse gases. It will lower the district’s electricity costs and increase the portfolios of renewable energy expenses. Bragin EP offers an excellent illustration of how the country is moving toward a greener and more sustainable future and is turning into a supporter of renewable energy.
Powerplant Brahin Reviews
Brahin is a power plant that is located at latitude 51.797 and longitude 30.209 in the Mahilyow region of Belarus. On February 28th, 2021, it was initiated. Brahin is mostly powered by solar energy and has an 18.5 MW total power plant capacity. The power plant uses solar panels and other solar energy-generating components that are made to function well year-round in a variety of weather situations. The power plant is expected to generate up to 18.5 MW of power annually due to its excellent efficiency.
The relevant authorities manage the operation and maintenance of Brahin, while the technicians are closely tasked with ensuring that the plant and its associated components operate as intended. The power plant’s location complies with local safety regulations, protecting the environment from any potential harm that could be brought on by noise or pollutants from the facility. In addition, the plant has been granted permission by the local government to produce electricity in compliance with the existing rules.
In the near future, the Brahin powerplant is anticipated to provide the Mahilyow region’s energy supply with a much-needed boost. It is a noteworthy improvement to the community’s infrastructure and has given the locals access to a steady and dependable supply of renewable energy. The region’s energy difficulties will now be addressed by adding more solar panels and effectively utilizing the solar energy that is now accessible thanks to Brahin.
Powerplant Chechevicy Reviews
In the center of Europe sits a power plant called Chechevicy. Its coordinates are 30.85 longitude and 52.92 latitude. With an 11.3 megawatt capacity, solar energy serves as the plant’s main fuel source. It started producing electricity in 17.24 and is expected to do so for 1.2 megawatts a year.
Modern inverter technology is used by the Chechevicy power plant to generate solar power. With two battery banks installed to store extra electricity, the system can generate up to 450 volts of power. This project’s solar panels have the best energy efficiency and a 25-year functioning life guarantee.
An incredible accomplishment for the nation, the Chechevicy power plant might open the door for other renewable energy sources. Both the amount of energy consumed and the related expenses have been significantly decreased. The plant has produced more than 8.5 megawatts of renewable energy thus far, and in the coming years, it is anticipated to produce 10 megawatts.
Powerplant Elsk Reviews
Recently, Elsk, a little community perched on a mountain in the USA’s Midwest, received a 16.3 kW solar power plant. Given the community’s location at 51.77 degrees latitude and 29.155 degrees longitude, solar radiation is at its strongest, providing the village with electricity. The residents of Elsk are happy that clean, renewable energy is now available since they have had enough of paying exorbitant electricity costs for so long.
After installation, the solar plant started operating on 24.87 towards the end of 2018. Ever since, Elsk has powered the majority of its vital everyday services using clean and green energy. Compared to the previous several years, electricity bills have drastically decreased, and the villagers are relieved that they will always have access to enough energy.
The region’s similar activities have been prompted by the success of this solar power facility. Installing renewable energy sources has become quite popular, and Elsk’s residents want other adjacent towns to have access to the same power for the benefit of the entire region.
Powerplant Gomel-1 CHP Power Plant Belarus Reviews
With a 6 megawatt capacity, the Gomel-1 CHP Power Plant in Belarus runs on gas. Its projected annual generation capacity is 6 megawatts, with an unclear start date. The coordinates of latitude 52.4141 and longitude 31.0031 are used to locate the power plant.
The only energy source in the region, Gomel-1 CHP Power Plant provides thousands of Belarusians with dependable, safe power. The power plant provides constant electricity to the cities and towns in the vicinity. The facility is operated and managed by highly skilled individuals with years of energy industry experience.
One of Belarus’s most effective power plants, Gomel-1 CHP Power Plant is a crucial component of the nation’s energy infrastructure. The plant contributes significantly to the nation’s energy security by offering dependable and reasonably priced electricity. Several safety systems are in place at the facility to guarantee a steady supply of electricity and guard against any unfavorable events.
Powerplant Gomel-2 CHP Power Plant Belarus Reviews
Gomel-2 CHP Power Plant, Belarus: Situated at 52.4492 latitude and 30.8167 longitude, Gomel-2 CHP Power Plant is a 544 MW gas-fired thermal power plant. Natural gas serves as the main fuel source for the power plant. From its October 30, 1966, commissioning, the Gomel-2 CHP Power Plant has been in operation. The power plant’s primary goals are to produce steam for industrial usage and electricity.
The power plant can generate 544 MW of electricity, with an estimated 3,665 GWh of power generated annually. The Power Plant has a 41.7% thermal efficiency. The plant is equipped with two technical steam turbines, two water-to-steam boilers, and four Mitsubishi gas turbines. Additionally, it has two 100 MW heat-only boilers, one of which is the only hot-water boiler that is currently in operation and has a working system.
One of Belarus’s oldest and most dependable power plants is the Gomel-2 CHP Power Plant. The plant continues to run at high efficiency and reliability ratings even though it is getting older. For more than 50 years and with many more to come, the Gomel-2 CHP Power Plant has been reliably supplying electricity to the people of Gomel.
Powerplant Grodno CHP-2 Power Plant Belarus Reviews
With a 180 MW capacity, the Grodno CHP-2 Power Plant in Belarus is the largest gas-fired power plant in the nation. The precise coordinates of the plant are 23.9272 East Longitude and 53.6675 North Latitude. With its proximity to Poland and Lithuania’s borders, this place is strategically significant. Since the facility opened for business in 1999, gas has been its main fuel. It is now anticipated to produce between 18 and 20 MW of power.
With up to 30 MWh of storage capacity, the Grodno CHP-2 Power Plant provides dependable services and four-hour maintenance for the reservoir as a whole. In order to ensure a constant flow of power output, it even offers real-time adjustments of daily workloads, reflecting significant changes in the load curve on-site. Utilizing the combustion gas after it goes through the turbine, the plant’s waste heat recovery system heats the air for the winter. This lowers pollutant levels, which benefits the environment.
Powerplant Lida Power Plant Belarus Reviews
Primarily powered by gas, the Lida Power Plant is situated in Belarus. Its precise location is 53.9011 Latitude and 25.291 Longitude, and it has a 43 MW capacity. The plant started producing electricity in July 2019 and is anticipated to produce up to 30.61 GWh yearly. Modern safety features and technologies are included in the Lida Power Plant to guarantee optimal dependability and efficiency.
Cogeneration turbines, which are installed in the plant, offer the benefit of collecting kinetic energy during the manufacturing process, optimizing fuel use and contributing to the reduction of emissions. Furthermore, the facility makes use of lean gas technology, which lowers emissions and electricity prices simultaneously.
The Lida Power Plant constantly uses the newest goods and technology, like air filtration systems, absorption chillers, condensers, and scrubbers, to reduce greenhouse gas emissions and comply with tight environmental laws. All safety requirements are rigorously followed in order to guarantee safe and effective operation; this includes routinely inspecting the cooling and emissions systems of the power plant.
Powerplant Lukoml Thermal Power Plant Belarus Reviews
With a 2460 MW capacity, the Lukoml Thermal Power Plant in Belarus uses gas as its primary fuel source. It was put into operation in 2016 and presently provides 2,400 GWh of electricity annually to the nation. The thermal power plant is located at 54.6803, 29.1341.
One of the biggest thermal power plants in the nation is Lukoml. Energoinvest, a highly significant national firm based in Belarus that specializes in energy investment, is responsible for its development and upkeep. Six high-efficiency gas turbine units, each with a 400 MW peak output, power the facility. The gas turbines employ air as their working fluid to generate steam, which powers the power turbines.
Belarus uses a lot of energy, and the Lukoml Thermal Power Plant provides that energy. Furthermore, the power plant is a major collaborator in the development of the largest hydroelectric power plant in the nation, which is under development as of 2016. The integration of energy generated by the hydro power plant with the national grid will be possible thanks to the Lukoml Plant.
Powerplant Minsk-3 CHP CCGT Power Plant Reviews
February 2005, 126 MW
A combined cycle gas fueled combustion turbine provides 542 MW of gas-fired power to the Minsk-3 CHP CCGT Power Plant in Minsk, Belarus. 53.8799 latitude and 27.6476 longitude identify its location. The facility began producing energy in February 2005 and runs mostly on natural gas. The plant is expected to generate 126 MW of power.
One of Belarus’s most effective and hygienic gas-fired electric power plants is the Minsk-3 CHP Power Plant. It has modern gas turbine technology that makes advantage of the most recent combined-cycle methodology. The plant runs as efficiently as possible and offers a variety of services that are vital to the nation’s energy system’s stability. This entails fulfilling environmental protection requirements while offering frequency management and backup power.
Powerplant Minsk-4 CHP CCGT Power Plant Reviews
The Minsk-4 CHP CCGT Power Plant is situated at 53.872 latitude and 27.4022 longitude in Minsk, Belarus. It runs mostly on gas and has a 1035 MW overall capacity. In 1992, the power plant began to generate electricity. An estimated 8,400 GWh of power are generated annually.
The Minsk-4 CHP CCGT Power Plant benefits the area in a number of ways. It lessens the total environmental impact of power generating and gives the local population a dependable source of electricity. Additionally, the plant lowers the cost of electricity in the area, which benefits both homes and businesses. Additionally, because it employs a large number of locals, its operations support the growth of the local economy.
The Minsk-4 CHP CCGT Power Plant makes a significant contribution to Belarus’s energy environment. The plant is a great value to the area since it helps to keep energy costs down and provides consistent electricity. Additionally, by lowering pollutants and air pollution, its operation promotes a healthier local environment. All things considered, the plant plays a significant role in the nation’s energy infrastructure.
FAQ
Q. What are the major power plants in Belarus?
A. The Astravyets nuclear power plant, which became fully operational in 2020, is the first nuclear power station in Belarus; other important power plants include the Polessk HPP, the Neman HPP, the Rzhev HPP, and others. There are two types of hydroelectric plants: the larger Polessk HPP and the smaller Neman HPP. In the Mogilev Region lies a coal-fired power plant called the Rzhev HPP.
Q. What type of energy does the Astravyets nuclear power plant produce?
A nuclear power station called Astravyets uses nuclear fission technology to generate electricity. This kind of technology generates heat using uranium fuel rods, which is subsequently converted to steam and, finally, electricity.
Q. What is the capacity of the Neman HPP?
A. A smaller hydroelectric facility, the Neman HPP has a capacity of roughly 25 MW. It is situated in Belarus’s Hrodna region.
Q. What is the purpose of the Rzhev HPP?
A coal-fired power plant called the Rzhev HPP is situated in Belarus’s Mogilev area. Its goal is to meet the growing demand for electricity in the area, particularly during peak hours, and was constructed to do so. It can handle roughly 400 MW of power.
Q. What other renewable energy sources are used in Belarus?
Apart from hydroelectric and nuclear power, Belarus generates a substantial quantity of electricity through alternative renewable energy sources as wind, solar, and biomass. As part of the government’s renewable energy initiative, numerous solar power installations have been erected, and more are in the works. Additionally, a significant portion of the nation’s electricity is produced by wind turbines.
I hope you enjoy reading this information about all of Belarus’s power plants. If you do, please leave a remark. If not, please let us know.
Cory Combs is the Lead Writer and a key contributor at PowerPlantForum.com, a top resource for energy professionals and enthusiasts. With over a decade of experience in power plant operations and a degree in Electrical Engineering, Cory is a recognized authority in the field. His expertise in optimizing energy systems is informed by extensive hands-on experience and research. Follow Cory for the latest updates and expert insights on Instagram.