Top Best Power Plants in Chile for 2024

Nestled along the Pacific Ocean’s coast, Chile is a South American nation renowned for its abundant natural riches and stunning scenery. Numerous power stations that support the nation’s energy output are located there. The inhabitants of Chile are supplied with electricity and other forms of energy by these plants on a consistent basis. The list of all Chilean power stations is described in this article. Among the different types of power plants are nuclear, renewable energy, natural gas, and coal plants. A brief summary of these power plants’ current state, capacity, effectiveness, and influence on the environment is also given. Furthermore, a current list of prospective new power plants across the nation is provided, which might assist in informing future choices regarding energy output.

The list of all Chilean nuclear, hydroelectric, solar, wind, oil, and gas power stations is provided below.

List of all Power Plants in Chile in table format

We have made the following table, which includes a list of all Chilean power plants, 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)
AGUAS BLANCAS 2 -24.1355, -69.8649 Oil N/A
ALFALFAL 178 -33.5012, -70.1927 Hydro 534.96
ALLIPEN 3 -38.9987, -72.223 Hydro 11.25
ALTO BAGUALES 1.98 -45.526, -72.1046 Wind N/A
ANGOL (LOS SAUCES) 1.5 -37.9658, -72.8269 Oil N/A
ANGOSTURA 324 -37.7103, -71.8169 Hydro 955.54
ANTILHUE 101.3 -39.8009, -73.1852 Oil N/A
ANTUCO 320 -37.3103, -71.6264 Hydro 916.24
ATACAMA (CC1-CC2) 767.8 -23.0898, -70.4168 Gas N/A
AUXILIAR DEL MAIPO (CAEMSA) 5 -33.6427, -70.6331 Hydro 19.84
Aguas Blancas 1 8.8 -24.155, -69.825 Solar 18.46
Arauco 24 -37.2092, -73.2222 Biomass N/A
Arica I 18 -18.495, -70.12 Solar 40.02
Arica I p2 8 -18.495, -70.12 Solar 16.22
Arica I p3 14 -18.495, -70.12 Solar 30.21

Information Source: Wiki-Solar, Energ an Abierta


Best Power Plants in Chile in 2023

Below is information on the top power plant in Chile:

Powerplant ABANICO Reviews

The hydroelectric power facility ABANICO is situated in Chile’s B o-B o Region. The factory is situated between latitudes -71.4894 and -37.3646. It was put into service in 2011 and has a 136 MW capacity. It is the biggest hydroelectric power plant in Chile, producing up to 391.43 MWh of clean power annually, according to estimates.

The 280 million US dollars that went into developing the project for this power plant will see it come online in the coming years. This power plant uses hydropower as its primary fuel source, making it a completely sustainable and renewable energy source. Every time water passes through the plant’s turbines, hydropower is produced. This method is an environmentally favorable energy source because it runs without fuel.

The power plant is intended to support the region’s energy security in addition to serving as a dependable source of energy. This is seen as beneficial since it will guarantee a continuous supply of electricity during peak hours. Furthermore, the power plant lowers the energy expenses for nearby businesses and consumers.

Powerplant AGUAS BLANCAS Reviews

The AGUAS BLANCAS Power Plant, which generates 2 megawatts of electricity, is situated at latitude -24.1355 and longitude -69.8649. Oil is the main fuel utilized in the power plant. This power station, which can generate up to 2GW of electricity, began operations on an unspecified date. The power plant’s oil fuel drives a turbine generator, which generates electricity.

The country’s national grid infrastructure is used to transmit the electricity generated by the AGUAS BLANCAS Power Plant. After then, the electricity is used to power machinery, light homes, and sustain industries. To guarantee a steady supply of electricity, this power plant is connected to multiple additional power plants. The country’s population rely on the power produced by this power plant to meet their everyday necessities.

Powerplant ALFALFAL Reviews

A 178 megawatt power plant called ALFALFAL is situated in Chile. Its coordinates are -70.1927 longitude and -33.5012 latitude. Hydroelectricity is the main fuel used in the power plant. Since its construction in 534.96, ALFALFAL has been in operation, generating an estimated 178 megawatts of power.

The power plant, which supplies electricity to numerous settlements in the area, has grown to be an integral element of Chilean life. The power plant produces inexpensive, dependable, and safe energy. The plant has made a significant contribution to the steady supply of electricity because it is situated in a region vulnerable to hydropower outages. Additionally, the plant’s engineers and employees have worked hard to guarantee sustainability and optimum efficiency with the least amount of negative environmental effects.

An excellent illustration of a productive and well-run power plant is ALFALFAL. The ecology and the local population have benefited from its location, fuel type, and capacity. It provides a much-needed energy source that is inexpensive, dependable, and safe.

Powerplant ALLIPEN Reviews

In 11.25, the hydropower plant ALLIPEN, situated in the South Central region of Chile, commenced its operations. It helps provide communities close to the B o-B o River with sustainable energy thanks to its 3MW installed electricity. The precise latitude and longitude are -72.223 in the west and -38.9987 in the south. This power plant is situated between the Mariquina River and the Biobio National Reserve in the Arauco Province. The Mariquina River provides water to ALLIPEN’s turbines, which power the facility and produce electricity. It’s a component of a bigger project that intends to connect the suburban interconnected systems and the Central Region’s hydroelectric system through connections.

In terms of generating and operation, ALLIPEN has effectively fulfilled the Ministry of Energy’s requirements. 350 rural clients are currently served by it for energy. It uses hydraulic electricity, an unconventional kind of energy, to power itself with water from the Mariquina River. The ALLIPEN hydroelectric project has been able to maximize its power production because to the rise in rainfall over the past few decades, and this has played a significant role in the sustainability of Chile’s energy sector.

Powerplant ALTO BAGUALES Reviews

Located in latitude -45.526 and longitude -72.1046, Alto Baguales is a huge wind property with a total capacity of 1.98 MW. It is part of the Commune of Carahue, Chile. Alto Baguales, one of the several wind farms in Chile, is situated in an unusual area in the country’s south. Since the wind project began operating in April 2007, Chileans have had access to clean, renewable electricity.

Alto Baguales is a sustainable community that produces an estimated 4.2 GWh of renewable electricity annually with two 5.5 MW wind turbines. After that, the clean energy is fed into the grid, eventually helping 4,000 homes annually on average in Chile. Chile’s objective of producing only renewable energy by 2040 is supported by this output of energy.

In addition to being a vital energy source for Chile, Alto Baguales plays a significant role in the local economy. In addition to creating work for locals, the wind farm project has boosted the local economy by generating tax income and green energy.

Powerplant ANGOL (LOS SAUCES) Reviews

Angol is a 1.5 MW oil-fired power station in Chile, situated near Los Sauces. Since its June 12, 2002, commissioning, it has consistently supplied energy. Since its establishment in 2002, the Angol plant has helped Chileans pay less for electricity by giving the area access to reasonably priced power. The coordinates of Angol, which are in the southern portion of the nation, are -37.9658, -72.8269.

The main fuel used by the power plant is oil, which is obtained from the surrounding oil fields. This energy source is low-emission and friendly to the environment. Since it was put into service, the plant has consistently supplied the local people with electricity. Additionally, the facility can generate an estimated 1.5 MW of electricity, which is sufficient to power thousands of local businesses and residences.

Powerplant ANGOSTURA Reviews

Angostura is the name of an African hydroelectric power facility with a 324 MW capacity. Its coordinates are 71.8169 west longitude and 37.7103 south latitude. The main fuel source is hydroelectricity, which has been used since 955.54. When it is put into service, it should produce roughly 324 MW of electricity.

Having been in operation for a while, the Angostura hydroelectric power plant holds a unique position in the nation’s electricity producing capacity. By offering steady, cheap, and clean energy, it has expanded capacity. It is also acknowledged for having lessened the nation’s reliance on fossil fuels. Since it was put into service, it has been able to give many locals jobs, and the people who live close by the power plant also gain from its ability to generate electricity.

Planning for the nation’s energy security must take the Angostura into account. Its 324 MW of electricity output enables it to significantly aid in supplying the nation’s energy demands. It contributes significantly to the nation’s shift to a low-carbon energy system by offering a different and reasonably priced source of renewable energy. Thus, it plays a crucial role in the nation’s attempts to reduce carbon emissions and address the climate change issue.

Powerplant ANTILHUE Reviews

Located in Chile’s Province of Los Lagos, the 101.3 megawatt Antilhue Powerplant is a power plant. 39.8009 degrees south latitude and 73.1852 degrees west longitude are the coordinates of this power facility. Oil is the main fuel used in this power plant. Since it started operating in 2013, the power plant has produced an estimated 150.8 gigawatt-hours annually.

The power plant predicts this estimate using a variety of sources, such as a thorough examination of the demand for electricity, the supply and quality of fuel that is readily available, and other variables. A unique algorithm is created using this data and data from previous energy analysis research. Next, the power plant’s expected energy production and consumption are predicted using this technique.

The Antilhue Energy Company, a division of the bigger Empresas Generadoras de Electricidad (EGE), a Chilean energy supplier, is in charge of running the power plant. For more than 50 years, EGE has been offering energy solutions to the people of Chile. The company is dedicated to giving the country’s residents access to a safe and dependable power supply.

Powerplant ANTUCO Reviews

The hydroelectric power plant Antuco is situated in the Antuco commune in Chile. The power plant is situated at a latitude of -37.3103 and a longitude of -71.6264 in the Biobo Province. It can generate an estimated 916.24 GWh of electricity and is licensed to operate at 870 MW. The power plant was formally put into service in 2011 after being commissioned on June 5, 2009. It is a 4.1 billion dollar project that was constructed as part of the National Water Confederation.

The water from the Perales and Pangue reservoirs serves as the main fuel supply for the Antuco power plant. In order to harness the water’s potential energy, two power plants were built concurrently to form a hydraulic reactor. The first facility is a 50 MW pumped storage power plant, and the second uses a vertical-axis Francis turbine to generate 730 MW of run-of-the-river power. Upstream of the power plant is a rockfill dam that is 747 meters high.

Powerplant ATACAMA (CC1-CC2) Reviews

The ATACAMA (CC1-CC2) gas-fired power station is precisely situated at -23.0898 latitude and -70.4168 longitude in northern Chile. It is a massive power station with a 767.8 MW capacity that runs on natural gas. Since the plant’s 2012 opening, Chile has constantly received a dependable, affordable, and continuous supply of power from it. Given that it provides more than two thirds of the nation’s electricity, the plant is essential to the Chilean economy.

Two of the most advanced gas-turbine power blocks on the market are installed in the facility. There are two natural gas-fired units with a total 383.9 MW of capacity in each block. One turbine produces this much power with the highest dependability and efficiency. Natural gas is the main fuel utilized to run ATACAMA (CC1-CC2). Up to 50 kilometers are needed to pipe this fuel from the closest gas pipeline to the plant’s location. With a single turbine, the ATACAMA (CC1-CC2) gas-fired power station is expected to generate 767.8 dependable megawatts of energy.


The town of San Bernardo in central Chile is home to the Auxiliar del Maipo power plant, or CAEMSA. The 5 MW hydroelectric power station has been in operation since 1984 and can produce an estimated 19.84 GWh of electricity annually. Its coordinates are -70.6331 longitude and -33.6427 latitude.

The Chilean people’s needs are met by hydroelectric power provided by the Auxiliar del Maipo. It produces power using a single Pelton turbine, which harnesses the energy produced by falling water to provide a constant supply of power. It is an environmentally friendly solution because it is powered by water, making it a renewable and sustainable energy source. The turbine is economical and efficient because it is situated near the water source.

This Chilean power plant has shown to be a great resource for giving the locals access to consistent, sustainable electricity. It’s a sensible decision for the future because it’s very economical and sustainable. Chile is ensuring that its people will have a dependable source of electricity for many years to come by investing in this power plant.

Powerplant Aguas Blancas 1 Reviews

The first solar-powered plant in the region, Aguas Blancas 1 is an 8.8 MW facility situated in Argentina. Latitude 24.155, Longitude -69.825 are the plant’s coordinates, and 18.46 is the predicted start date. With the capacity to power over 16,000 households a year, it is the biggest solar plant in Argentina. This plant’s main energy source is solar electricity, which is anticipated to drastically lower the carbon footprint of the area. It is anticipated that Aguas Blancas 1 will cut annual greenhouse gas emissions by about 4,600 tons.

Apart from producing sustainable and eco-friendly energy, the plant also helps the local economy, creates jobs for the community, and protects the environment. The locals have high hopes that the plant will make the entire area energy-efficient, ensuring a sustainable future for everyone in the area. It is anticipated that Aguas Blancas 1 would set the standard for the Argentine solar sector and serve as an example for other solar facilities.

Powerplant Arauco Reviews

A 24 MW biomass power plant was built in 2018 in the Chilean province of Arauco. Situated near a natural area and encircled by forestry plantations, the biomass powerplant is situated in the coordinates of -37.2092 latitude and -73.2222 longitude. Its principal fuel source is forestry residuals from harvesting operations.

The Arauco biomass power plant was turned on in 2018, and it is anticipated to generate 24 MW of electricity. Arauco runs a Fuel Quality Testing Program to confirm the quality of the biomass fuel delivered into the power plant, ensuring maximum performance of this biomass powerplant. The fuels are analyzed for moisture content and ash composition before being delivered.

Powerplant Arica I Reviews

Arica, Chile is home to the remarkable 18MW Arica I Powerplant, which can be found at latitude -18.495 and longitude -70.12. It has been running since 40.02 and gets most of its power from solar panels. Located between the Humar area and the city’s airport, this 18 MW solar project supplies renewable electricity to more than 8.5k families in Arica.

An estimated 6GWh of electricity will be produced annually by the Arica I solar power plant, more than 5,700 households’ yearly energy demands being met while preventing over 11,000 tonnes of greenhouse gas emissions. Not surprisingly, Arica I Powerplant’s high energy capacity and remarkable environmental benefits have made it an inspiration for numerous comparable projects across the nation.

Powerplant Arica I p2 Reviews

Arica, Chile is home to the 8 MW Arica I p2 solar power plant. Latitude and longitude of the power plant are 18.495 and -70.12, respectively. With an 8 MW power generation capacity, it is the first of its kind in Chile to use solar energy as its primary fuel. Since its inception in 16.22, this power station has supplied energy to the surrounding community and local businesses.

Arica I p2 is a significant power plant that stands out thanks to its 8 MW solar capacity. It can supply the local houses and businesses in the area with renewable energy. Because of its emission-free and pollution-free energy production, the local community lives in a secure and environmentally friendly environment. Arica I p2 also employs a thoughtful arrangement of organic photovoltaics, and the positioning of solar panels maximizes electricity production. With this technique, the solar power plant performs as efficiently as possible while making the most optimal use of the available area.


Q1. What is the main source of energy in Chile?

A. Natural gas is the primary energy source in Chile, providing 60% of the nation’s electricity. Coal, hydroelectric, geothermal, biomass, photovoltaic, and nuclear energy are some more energy sources.

Q2. How many power plants are there in Chile?

A. As of 2020, 33,705 Megawatts (MW) of electricity may be produced together by the 157 natural gas and generation power plants that were operating in Chile. There were also six hydroelectric power stations and eleven coal-fired power plants.

Q3. What are the emissions standards in Chile?

A. The Washington Declaration, which establishes guidelines for air pollution that power plants must follow, was accepted by the Chilean government. This permits power plants to emit no more than 600 mg/Nm3 of sulfur dioxide (SO2), 250 mg/Nm3 of nitrogen oxide (NOx), and 150 mg/Nm3 of particulate matter (PM) into the atmosphere.

Q4. How efficient are power plants in Chile?

A. Chile’s power plants have an average efficiency of between 33% to 60%, which is marginally less than the 40% to 55% global average. However, the efficiency of Chile’s power plants can be raised by putting more energy-efficient technologies into practice, such combined cycle technology.

Q5. What are the challenges facing power plants in Chile?

A. The main issue power plants in Chile are dealing with is the difficulty in obtaining funding for renewable energy initiatives. Furthermore, Chile must invest in water-efficient technologies to provide a consistent supply of electricity because the country is susceptible to drought. Furthermore, there are several regulations governing the power industry in Chile, which has discouraged investment and stifled technological advancement.

I hope you find the information about the Chilean power plants that I’ve provided above interesting. If you do, please leave a comment.

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