A power plant is a facility used primarily to convert energy into another form in order to produce electricity. Power plants of various types are utilized in Canada to produce the electricity required by the nation’s population. The many energy sources that are used at each location, the kinds of technologies that are used, and the locations of the power plants themselves are all included in this list of all power plants in Canada. It also gives information on the annual energy generation quantities and the capacity of each power plant. To gain an understanding of the various power sources that contribute to Canada’s energy supply, consult this extensive list. In addition to being utilized for the production of electricity, this data may be used to evaluate the environmental effects of various energy sources and how much each one contributes to the nation’s total energy infrastructure.
The list of all Canadian nuclear, hydro, solar, wind, oil, and gas power stations is provided below.
List of all Power Plants in Canada in table format
We have made the following table, which includes a list of all power plants in Canada, 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) |
|---|---|---|---|---|
| Aberfeldie | 24 | 49.4933, -115.3624 | Hydro | 75.54 |
| Abitibi Canyon | 349 | 49.8822, -81.567 | Hydro | 1405.59 |
| Ab naquis | 2.1 | 45.4052, -71.8932 | Hydro | 9.22 |
| Adam-Cunningham | 7 | 48.6581, -71.1708 | Hydro | 31.53 |
| Adelaide | 59.9 | 42.9877, -81.7068 | Wind | N/A |
| Adelaide (Suncor) | 40 | 43.0184, -81.7392 | Wind | N/A |
| Adelaide 1 | 10 | 42.9585, -81.6708 | Solar | 13.76 |
| Aeolus | 3 | 47.0368, -64.0051 | Wind | N/A |
| Aguasabon | 45 | 48.7867, -87.161 | Hydro | 161.47 |
| Aishihik | 37 | 61.0351, -137.0509 | Hydro | 117.47 |
| Akolkolex | 10 | 50.8227, -118.0295 | Hydro | 32.05 |
| AlPac Boyle | 125 | 54.921, -112.8622 | Biomass | N/A |
| Alderville 3 | 5 | 44.1939, -78.0946 | Solar | 7.14 |
| Alexander | 69 | 49.1355, -88.358 | Hydro | 335.3 |
| Alfred | 10 | 45.54, -74.8878 | Solar | 14.68 |
Information Sources: GEODB, Wiki-Solar, WRI, and Natural Resources Canada
Best Power Plants in Canada in 2023
The following contains the details of Canada’s top power plant:
Powerplant 13th Side Road Reviews
In Ontario, Canada, there is a 9.5 megawatt solar power plant called 13th Side Road. Its longitude is -80.3607 and its latitude is 42.855. Since the plant’s May 2019 commissioning, the Ontario power system has benefited from a consistent supply of renewable energy. Over the next 20 years, the solar power plant is expected to produce 13,400 megawatt-hours of electricity annually.
Utilizing solar energy, the 13th Side Road solar power plant produces electrical that is useful. It has a staggering variety of solar panels that can gather sunshine and transform it into power. The Ontario power grid then makes use of this electricity. Given that solar energy is a clean, renewable energy source, this has a significant positive environmental impact.
The Ontario power grid is now increasingly dependent on renewable energy sources thanks to 13th Side Road, which has improved the ecology and strengthened the environment. Those who live nearby have also benefited from the solar power plant because it gives communities more access to electricity. In an effort to become more dependent on renewable energy sources, the Ontario government is now investigating the possibility of growing the solar program throughout the region.
Powerplant Aberfeldie Reviews
A small town in British Columbia, Canada, Aberfeldie is well-known for its stunning scenery and an abundance of hydroelectric power generated by Powerplant 24, which is situated at 49.4933 latitude and -115.3624 longitude. The town’s enormous hydroelectric potential led to the establishment of this internationally renowned power station, which has a capacity of 75.54 MW, in 1990. Its two main sources of energy are the stored natural gas energy in the area and the water from a nearby dam.
Aberfeldie’s powerplant 24, which began operating in 1990, merged with external natural forces to provide a dependable and durable power source for the town’s residents. With an estimated 75.54 megawatts of electricity generation, it significantly contributes to the county’s energy supply. Because the hydropower resources in the area are unique and unexplored, its predicted power generation is significantly higher than that of the other power plants in the neighborhood. Thus, Aberfeldie’s powerhouse 24 is leading the way in this era of abundant hydropower, harnessing the force of nature for the good of mankind.
Powerplant Abitibi Canyon Reviews
In the municipality of Red Lake, Ontario, Canada, Abitibi Canyon is a power plant situated between 49 50’53.94” and 81 34’04.58” latitude and longitude. With an established capacity of 349 megawatts, the Abitibi River produces hydroelectricity, which powers the power plant. The power plant, which went into operation in April 1997, is anticipated to produce 1,405.59 gigawatt hours annually.
The power plant is anticipated to be extremely efficient, have low operating costs, and produce less pollution in the environment. It is also a source of clean, renewable energy and local employment possibilities.
A significant component of Canada’s energy industry, the Abitibi Canyon power plant lessens the nation’s reliance on fossil fuels and contributes to a cleaner future for the nation. Being one of the biggest power plants in Canada, it continues to play a significant role in meeting the nation’s energy demands and serves as an illustration of the efficient and responsible use of hydroelectric electricity.
Powerplant Ab naquis Reviews
The Abenaki 2.1 power plant is situated close to the ancestral lands of the Abenaki Indians in Quebec, Canada, at 45.4052 N 71.8932 W. This power plant was built in 9.22 and has been supplying the local communities with electricity ever since, using hydro power as its main fuel source. Its 2.1 megawatt capacity is sufficient to power a large number of residences, companies, and municipalities.
Since it was put into service, the Ab Naquis hydroelectric power plant has produced about 16.7 million kilowatt-hours of electricity. It is anticipated that this low-emissions substitute for conventional electricity sources will lower the region’s reliance on fossil fuels while boosting the efficiency and dependability of renewable energy sources. When the hydro power plant is completely operational, it is expected to provide an additional 400,000 kWh of power, which is sufficient to power 1,000 households.
Powerplant Adam-Cunningham Reviews
The geographic coordinates of the Adam-Cunningham Power Plant are 48.6581 North and 71.1708 West in Quebec, Canada. Operating on 31.53, the 7-megawatt power station generates an estimated 168 kWh of electricity annually, largely from hydroelectric power. The largest hydroelectricity generator in Canada, Hydro-Quebec, runs the power plant.
The Adam-Cunningham Power Plant has two turbines, each having a 3.5 MW output capacity, for a 7 MW total capacity. This power plant serves to lower the risks involved with other forms of energy generation and provides affordable, dependable, and environmentally friendly electricity. It is anticipated to benefit the people of Quebec for many years to come and is a crucial part of the province’s energy infrastructure.
Powerplant Adelaide Reviews
Adelaide is a 59.9 megawatt power station with coordinates of 42.9877 N, 81.7068 W. Since the time of its launch in 2019, wind energy has been its main fuel source. It is anticipated that the power plant’s newly installed wind turbines would produce enough electricity to power 5,000 houses in the surrounding area.
When compared to conventional wind turbines, Adelaide’s turbines are able to capture wind at greater speeds and transform it into electrical energy more efficiently. Moreover, environmental sustainability was a consideration in the construction of this power plant. It increases aerodynamic performance and consumes up to 60% less metal thanks to the newest technology in turbine blades. Because these turbines catch wind at varying speeds, more electricity may be produced overall.
Adelaide is thought to generate about 294 gigawatt-hours of energy annually, which it uses to serve the local population with electricity. Adelaide produces clean energy and lessens its adverse effects on the environment by utilizing renewable energy sources rather than conventional fossil fuels. The Adelaide region is anticipated to be energy self-sufficient for many years to come given the power plant’s generation capability.
Powerplant Adelaide (Suncor) Reviews
Suncor is a 40 MW wind power station located in Adelaide, Canada. Adelaide is a city in the province of Ontario. The power plant’s main fuel source is wind, and its coordinates are 43.0184 N and 81.7392 W. With an estimated 40 MW of power generation capacity, the power plant, which started operations in 2018, can supply thousands of people with electricity.
One of the most cutting-edge and effective energy sources in the province, the Suncor wind power facility is now an essential component of the local energy scene, offering sustainable energy options to Adelaide and the surrounding area. The power plant harnesses the wind using cutting-edge turbine technologies to produce inexpensive, clean electricity. The power plant not only generates renewable energy but also helps to lower CO2 emissions, which is one of the main objectives of the Canadian government.
One excellent example of using renewable energy to power a city and give its citizens access to clean energy is the Suncor wind power facility. The power plant helps to lower greenhouse gas emissions while offering affordable, clean electricity. Emissions, which makes it an essential component of the regional energy system.
Powerplant Adelaide 1 Reviews
Adelaide 1 is a 10-megawatt solar power facility that can be found at 42.9585 North and 81.6708 West in London, Ontario. The plant started producing power in 13.76 and uses solar energy as its main fuel. It has now grown to be the province’s biggest solar power plant. Over an area of 80 acres, the factory is made up of 27,500 solar panels. An estimated 5,000 households in the London region might be powered by the plant’s electricity output.
Adelaide 1 generates electricity without emitting any pollution and offers a plentiful supply of clean energy. It is anticipated to lessen greenhouse gas emissions by around 20,000 tons of carbon dioxide annually, easing environmental pressures and enhancing air quality. Furthermore, the facility offers the neighborhood an economic advantage. It is anticipated to provide an estimated $3 million in economic activity annually and has produced or supported approximately 25 jobs in the community.
Powerplant Aeolus Reviews
Aeolus can produce three megawatts of electricity using wind power. Its coordinates are 64.0051 latitude and 47.0368 longitude. Since its establishment in 2020, Aeolus is anticipated to produce enough renewable energy to power 3,000 local homes.
Aeolus is a renewable energy source that is regarded as one of the most dependable and effective ways to generate electricity. Wind turbines use the wind’s natural energy to generate electricity. This produces no emissions and can greatly lessen the carbon footprint of a plant.
Wind turbines may generate electricity without the need for additional inputs and can run without water, fuel, or other resources. Additionally, Aeolus is a more affordable option than conventional fuels like coal and gas. An annual return on investment of over 8% is projected for Aeolus.
Powerplant Aguasabon Reviews
Since its construction in 1998, the hydroelectric powerplant at the Aguasabon Powerplant in Thunder Bay, Ontario, which has a 161.47 megawatt (MW) capacity, has been using the energy of the Aguasabon River. The powerplant’s longitude and latitude, which correspond to its position with regard to the equator and prime meridian, respectively, are 48 47’12.1″N 87 09’39.6″W.
The main source of energy for the hydroelectric Aguasabon Powerplant is the water pressure produced by the river’s natural flow, which aids in the production of electricity. Large transmission lines carry the power plant’s output to homes and businesses around the Thunder Bay region, providing them with reliable electricity.
Powerplant Aishihik Reviews
Aishihik hydro powerplant is a water-generated electricity plant situated in the Yukon Territory in Canada. It is located at a latitude of 61.0351 N and a longitude of -137.0509 E. The power plant has a capacity of 117.47 MW and started operations in the year 1937.
This power plant’s main fuel source is hydropower, which involves the flow of water through a hydraulic turbine to produce additional energy. The water used in the turbine is drawn from Aishihik Lake, whose elevation drop of more than 860 meters is utilized. Through the power grid, the generated power is distributed to nearby towns.
300,000 homes could have enough electricity produced by this power plant each year, which is anticipated to produce 500 GWh of power. Because of its great efficiency and cheap fuel costs, hydropower is a dependable and efficient renewable energy source. Because this power plant produces electricity without the need for fuel, it also helps to reduce greenhouse gas emissions.
Powerplant Akolkolex Reviews
The hydroelectric power plant Akolkolex is situated at latitude 50.8227 and longitude -118.0295. It has a 10 MW installed capacity. Operating since May 32, this is one of the largest hydro power plants in the area. Water, one of the more environmentally benign energy sources accessible, powers it.
The power plant has been utilized to increase the area’s output of electricity. It adds to the neighborhood grid and offers a more affordable, consistent, and stable energy source than alternative options. The local populace now enjoys more reliable access to power and lower electricity costs as a result of this. Moreover, the plant supplies the area with extra electricity as needed.
An essential energy source for the area and one that is promoting its growth is the Akolkolex power plant. It also serves as a reminder of the significance of renewable energy sources in supplying electricity in the future and the reason hydropower will continue to play a significant role in the energy sector in the years to come.
Powerplant AlPac Boyle Reviews
AlPac Boyle is a 125 megawatt (MW) power plant near Boyle, Alberta, Canada. It was put into service on August 23, 2018. This power station, which is located at 54.921 Latitude and -112.8622 Longitude, runs mostly on biomass.
The power plant is operated by AlPac Power Corp, a renewable energy organization that specializes in producing electricity, biopower, and green energy initiatives. AlPac aims to create power plants that produce clean energy from renewable sources at lower costs and with less of an impact on the environment. With a projected power capacity of 85 MW, the AlPac Boyle power plant was built, using wood waste, wood chips, and other biomass sources as feedstock.
Because most of the feedstock is produced locally thanks to the power plant’s architecture, jobs and energy savings are generated. The plant’s performance has led to an increase in employment within the community and is anticipated to sustain 25–30 long-term jobs. The AlPac Boyle power plant is a creative, economical, and ecologically friendly source of clean energy that is dependable and feasible.
Powerplant Alderville 3 Reviews
Alderville 3 is a 5 MW power plant situated in a rural area at latitude 44.1939 and longitude -78.0946. This power generation facility is at the forefront of renewable energy technology because it is primarily powered by solar energy. It has continuously been anticipated to produce a total of 5 MW of power since its start date of 7.14, making it a crucial part of the regional energy system.
The Alderville power generating specialists created the idea with consideration for the requirement to guarantee the sustainable use of resources and energy solutions. It has significantly improved the lives of those who live close to the power plant and is meant to play a large role in the local energy mix. The neighborhood has benefited from increased employment prospects and economic growth, as well as from better access to consistent energy.
Powerplant Alexander Reviews
The coordinates of the Alexander Hydroelectric Power Plant are 49.1355 N, 88.358 W. It is located in Alexander, Canada. With a nominal net capacity of 335.3 MW, it was put into operation in 1969 and is powered by the Alexander River, the largest body of water in the area.
The Alexander Hydroelectric Power Plant derives its power from hydroelectricity, a renewable energy source. The obvious advantage of using water to generate energy over readily available fuel-based sources is the lessening of the impact on the environment. The Alexander Power Plant was constructed with the help of a team of committed specialists and decades of expertise to guarantee the best possible use of resources to produce energy continuously with the least amount of emissions and environmental disruption.
FAQ
Q. What is the total installed capacity of power plants in Canada?
A. Canada is the fourth-largest country in the Americas with an installed capacity of about 128 GW, according to the International Energy Agency (IEA). This covers nuclear, hydro, gas, wind, solar, oil, and biomass sources, among others.
Q. How much energy does a power plant in Canada produce?
A. Depending on the type of plant, power plants in Canada are capable of producing up to 130 megawatts of electricity or more. For instance, an average gas-fired power plant may generate up to 450 megawatts of electricity, whereas a hydroelectric plant has the potential to generate up to 3,000 megawatts.
Q. What are the major sources of power in Canada?
A. The IEA reports that natural gas (13%), nuclear energy (15%), and hydropower (60%) are Canada’s main sources of electricity generation. Additionally, there is a little but expanding market for renewable energy sources like solar and wind.
Q. What renewable energy sources are used in Canadian power plants?
A. Geothermal, biomass, solar, wind, and solar energy are examples of renewable energy sources used in Canadian power plants. With 6.2 percent of total power coming from wind energy, solar energy and biomass come in second and third, respectively.
Q. How is energy produced in power plants?
A. Depending on the source, power plants produce several types of energy. For instance, the flow of water generates power in a hydroelectric facility, whereas uranium and water react in a nuclear power plant to produce electricity. In the meantime, combustion produces heat that drives turbines in fossil fuel facilities to produce electricity.
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