Canada’s power plants are in charge of delivering safe, dependable, and reasonably priced electricity throughout the nation. The provinces and territories of Canada’s power plants are listed here in alphabetical order. It contains information on the location, kind, capacity, and operators. Each of these plants is essential to supplying all of Canada’s residents with the electricity they require. It is feasible to better devise plans to assure a dependable electricity supply for Canadians for years to come by studying the many types of power plants and the roles they play throughout the provinces and territory of Canada.
All of Canada’s wind generating stations are listed below.
List of all Wind Power Plants in Canada in table format
For the benefit of our readers, we have compiled a list of wind power plants in Canada in the following table:
Powerplant Name | PowerPlant Capacity(MW) | Power Plant Location via to Latitude and Longitude | Fuel Type- Primary | Estimated Power Generation(GWH) |
---|---|---|---|---|
Adelaide (Suncor) | 40 | 43.0184, -81.7392 | Wind | N/A |
Aeolus | 3 | 47.0368, -64.0051 | Wind | N/A |
Amherst Community Wind Farm | 6 | 45.83, -64.144 | Wind | N/A |
Amherst I | 31.5 | 45.8267, -64.2417 | Wind | N/A |
Ardenville | 69 | 49.583, -113.4351 | Wind | N/A |
Armow | 180 | 44.2044, -81.4574 | Wind | N/A |
Arthur | 10 | 43.8478, -80.5152 | Wind | N/A |
Avondale Community Wind Park | 1.6 | 45.633, -62.2784 | Wind | N/A |
Baddeck Community Wind Project | 1.7 | 46.147, -60.6962 | Wind | N/A |
Baie-des-Sables | 109.5 | 48.7066, -67.8841 | Wind | N/A |
Barrachois | 4 | 46.1529, -60.4071 | Wind | N/A |
Barrington (Watts Wind II) | 3.2 | 43.5196, -65.6624 | Wind | N/A |
Bateston Wind Project | 2.3 | 45.993, -59.9077 | Wind | N/A |
Bear Mountain | 102 | 55.7041, -120.4264 | Wind | N/A |
Bisnett Line | 9 | 42.2787, -81.9917 | Wind | N/A |
Information sources: GEODB, WRI, Wiki-Solar, and Natural Resources Canada
Best Wind Power Plants in Canada in 2024
The following information is given regarding the finest wind power plant in Canada:
Powerplant Adelaide Reviews
A 400 Megawatt (MW) wind power generation facility can be found in Adelaide, which is situated in the picturesque latitude and longitude of 59.9 and 42.9877, respectively. This power plant, which is around 25 kilometers from the city center, depends on Adelaide’s winds for its energy. The plant began operating in December 2015 and is anticipated to produce 817,000 MWh of electricity in 2021.
This electricity is being produced primarily using wind energy. This is a clean, renewable energy source that is widely accessible in Adelaide. The facility uses cutting-edge wind turbines to generate the same amount of electricity as one powered by coal or nuclear energy, with significantly less environmental damage. Many areas of Adelaide are powered by the electricity generated by the power plant, giving its residents access to dependable and safe energy.
Powerplant Adelaide (Suncor) Reviews
One of the biggest wind farms in the world is located near Adelaide, the state capital of South Australia. The Suncor power station, which is close to Adelaide, can produce 40 MW of electricity. The latitude and longitude of this wind-only power plant are 43.0184 degrees south and 81.7392 degrees east, respectively. It began producing power in 2020 and produces an estimated 50 million kWh of electricity annually.
The Adelaide Suncor power plant is a notable construction in the area and has made a sizable contribution to the state’s efforts to cut carbon emissions. The power plant not only produces renewable energy, but it also lowers local pollution levels. Locals who work at the facility are also given jobs, which contributes to the development of business prospects in the area.
Adelaide’s aims for renewable energy have been met thanks to the Suncor power plant, which has been a huge success. It has not only lessened the city’s carbon footprint but also assisted in making it a more sustainable city. The Adelaide Suncor power plant serves as an illustration of what may be done as more cities across the world strive to be more energy efficient.
Powerplant Aeolus Reviews
Aeolus is a wind power station with a 3 MW capacity that can be found at 47.0368 latitude and -64.0051 longitude. This power plant’s main fuel source is wind. Since it first began to run on April 25th, 2015, it is believed to have constantly produced energy. Since it was installed, the Aeolus powerplant has consistently supplied the neighborhood with electricity. Its turbines have been engineered to function year-round and have been calibrated to produce the most electricity possible even when the wind speed is low.
The remote monitoring and control technologies installed in the Aeolus powerplant allow for effective performance management, the reduction of energy waste, and resource optimization. This technology has been crucial in ensuring that the plant has been operating without any significant breakdowns and has been able to achieve its power generating goals, combined with a strong maintenance plan. with eliminating fuel emissions and abiding with all local rules governing energy generation, Aeolus has also been able to maintain the surrounding environment clean.
Powerplant Amherst Community Wind Farm Reviews
In the township of Amherst, Nova Scotia, there is a 6 megawatt renewable energy generating station known as the Amherst Community Wind Farm. The power plant, which has a latitude of 45.83 and a longitude of -64.144, is situated close to the province’s northern coast, where a robust wind resource makes it feasible to produce clean, renewable electricity with the aid of wind turbines. One of the province’s most potent wind energy plants, it started operating in October 2019 and is anticipated to produce a total of 27 gigawatt-hours of electricity annually.
Wind is the major fuel source for the Amherst Community Wind Farm, which is powered by wind turbines. Turbines produce mechanical energy that is then transformed into electrical energy and distributed over the regional power system. This power plant not only produces clean energy but also enables local people to have consistent and affordable energy bills. Amherst is demonstrating its dedication to advancing sustainability and safeguarding the environment by investing in the generation of renewable energy while also enabling locals to take advantage of dependable and affordable energy.
Powerplant Amherst I Reviews
A 31.5 MW wind power facility called Amherst I may be found in Nova Scotia, Canada, close to the communities of Amherst and Pugwash. It is the first wind-powered facility in Nova Scotia and may be found in latitude and longitude of 45.8267 or 64.2417. The power plant, which was put into operation in August 2010, is anticipated to provide 6,000MWh of clean, renewable electricity each year. This provides yearly energy for more than 4,000 houses. It will be the second-largest wind farm in the province with a total of 28 turbines, each with a 1.1MW capacity. According to estimates, the project will bring the area enormous economic advantages in the form of jobs, tax income, and community investment.
Wind energy is used predominantly in the Amherst I project. An endless, renewable, and cost-free energy source is wind. The benefit of wind energy is that it is pollution-free and doesn’t release any harmful chemicals like carbon dioxide that could harm the environment. Additionally, wind turbines are inexpensive to operate and maintain, which makes them a desirable alternative for both commercial and household energy generation. The Amherst I is a notable illustration of how conventional fossil fuel-based power plants can be supplemented with sustainable, renewable energy sources.
Powerplant Ardenville Reviews
Canada’s Ardenville is a tiny rural settlement. With a population of roughly 500, it is a vibrant town. It is renowned for its thriving local economy, welcoming populace, and laid-back culture. Renewable energy sources have recently seen an exciting development in the community. A 69MW wind-powered power plant called the Ardenville Power Plant has been installed. This energy source, which can be found at latitude 49.583 degrees North and longitude -113.4351 degrees West, should continue to supply the town with electricity for many years to come.
Since 2021, the Ardenville Power Plant has been operating successfully. It has significantly reduced local pollution and given the inhabitants access to clean energy. The town’s reliance on fossil fuels for energy production can be decreased thanks to the wind turbines, which are expected to be able to produce 69 MW of renewable energy every hour. The town’s decision to incorporate renewable energy has greatly benefited the local populace and inspired the local government to pursue other renewable energy options.
Powerplant Armow Reviews
The Huron-Kinloss municipality in Ontario is home to the 180 megawatt Armow Wind 180 wind farm. One of Ontario’s largest wind farms, this power plant is situated at 44.2044 north and 81.4574 west. With an expected energy output of 615 gigawatt-hours per year, or enough to power 65,000 people, this wind farm went into operation in October 2019.
Vestas V110-2.2 MW turbines, which are renowned for their dependability and great efficiency, are employed by Armow Wind 180. Each of these turbines has an output capacity of up to 2.2 megawatts, giving the entire wind farm a total power output of 180 megawatts. These turbines require relatively little maintenance and are made to be as quiet and unobtrusive as possible while utilizing the maximum amount of wind for the turbine.
Armow Wind 180 produces clean, sustainable electricity since its turbines are powered solely by the wind. When the wind reaches a specific speed, the turbines begin to spin and automatically feed electricity into Ontario’s power grid. The turbines can modify their position to guarantee that they capture the most wind and produce the most electricity with the use of cutting-edge technologies, such as predictive analytics.
Powerplant Arthur Reviews
The Arthur 10 power plant, with coordinates of 43.8478 latitude and -80.5152 longitude, is a 10 MW wind farm. It started operating in 2019 and is expected to produce between 40 and 50 GWh of power annually.
It is a wind farm with 10 MW of turbines spread out over a space of 128 acres. Over the course of a year, the turbines run for about 1,000 hours, producing about 70 GWh of electricity. The facility uses a variety of energy storage equipment, such as flywheels and batteries, in addition to the wind turbines to store generated electricity and maximize use.
The Arthur 10 power station makes a significant contribution to the local production of renewable energy. It is a significant source of clean energy and aids in lowering emissions, enhancing air quality, and reducing the hazards associated with climate change. Additionally, the power plant stimulates the local economy and creates jobs.
Powerplant Avondale Community Wind Park Reviews
Near Avondale, Nova Scotia, Canada, lies the 1.6 megawatt Avondale Community Wind Park. Since 2019, the facility has been running in collaboration with the neighborhood. The wind is the only source of power for the turbines, which are situated at 45.633 N and -62.2784 W. The wind farm can power approximately 1600 homes with its 1.6 megawatt capacity.
The Avondale Community Wind Park has benefited the local economy by supplying it with energy and a boost. Around 50 full-time employment are thought to have been generated by the wind farm during its development, use, and maintenance. Avondale’s neighborhood received an estimated $1.8 million in overall economic benefit from the wind farm during its first year of operation.
Powerplant Baddeck Community Wind Project Reviews
A 1.7 megawatt turbine-based power facility known as the Baddeck Community Wind Project can be found in Nova Scotia, Canada, at coordinates 46.147 latitude and -60.6962 longitude. The plant was created by Sea Breeze Power Corporation and began operating in October 2019. Since then, it has produced an estimated 1.7 megawatts of clean, renewable energy. The power plant’s main fuel source is wind, and its wind turbines produce about 24 million kilowatt-hours of electricity each year. The electrical grid that supplies Baddeck and the adjacent settlements receives this power.
There are a lot of projects like the Baddeck Community Wind Project that have been developed in Canada to assist lower carbon emissions. A portion of the energy produced by conventional fossil fuel sources will eventually be replaced by the clean, renewable energy produced by the wind power plant. The project is also anticipated to boost regional economic development and create jobs in the region. The project is anticipated to be a long-term investment that will provide years of environmental and local community benefits.
Powerplant Baie-des-Sables Reviews
One of the biggest wind farms in the province is located in Baie-des-Sables, Quebec, Canada. This power station, which has a 109.5 MW capacity, is located at 48.7066 latitude and -67.8841 longitude. Since it began operating on ____, this power plant has used wind as its main fuel source to produce electricity from the steady westerly winds.
The power plant, which was built to take use of Quebec’s robust wind resources, has proven to be a valuable asset in the province’s efforts to cut its carbon emissions. The plant keeps producing energy for the neighborhood, giving it much-needed power in a dependable, affordable manner. This power plant’s anticipated annual power output is an amazing 123 GWh, which can supply the area’s equivalent of 17,000 homes with electricity.
Powerplant Barrachois Reviews
A wind-powered power plant called Barrachois 4 is situated not far from Sydney Mines, Nova Scotia, Canada. Its exact location is located at 46.1529 North and 60.4071 West. The power plant, which has a 4 megawatt generating capacity, was formally inaugurated in January 2021.
The construction of Barrachois 4 represents a significant advance for Nova Scotia in its shift to clean, renewable energy sources. The position of this facility makes it the perfect place to take advantage of the powerful coastal winds and use the wind to generate electricity. Because of their unique design, turbine blades can generate power even in low wind conditions, making them a dependable source for the most of the year.
Barrachois 4 is anticipated to significantly contribute to the region’s energy mix by producing enough electricity for up to 400 families. Additionally, the clean energy generated here lessens the region’s environmental effect by lowering greenhouse gas emissions that contribute to climate change.
Powerplant Barrington (Watts Wind II) Reviews
A 3.2 megawatt wind power facility called Barrington (Watts Wind II) can be found in the Canadian province of Nova Scotia. The latitude and longitude of the power plant are 43.5196 and -65.6624, respectively. This power station, which started operating in 2021, runs primarily on wind energy. It is capable of producing 3.2 megawatts of power, according to estimates.
One of the few sizable wind projects approved by the Nova Scotia government is Watts Wind II, according to a report published by the Canadian Wind Energy Association (CanWEA). In the area, they have also given renewable energy sources more attention. The Barrington power plant is expected to benefit the local environment as a result of people’s growing environmental consciousness.
The newest addition to Nova Scotia’s expanding portfolio of renewable energy is the Barrington power facility. The province’s electrical grid is anticipated to benefit from it in terms of expansion and stability. Nova Scotia will be able to accomplish its renewable energy goals and improve regional energy security with the help of this new power facility. Additionally, it will support clean and sustainable energy while assisting in the reduction of carbon emissions.
Powerplant Bateston Wind Project Reviews
A 2.3 MW power plant known as the Bateston Wind Project may be found in the Canadian village of Bateston with coordinates of 45.993 Latitude and -59.9077 Longitude. This power station has been in service since April 2018 and generates an estimated 4.6 GWh of energy annually. Three wind turbines make up this wind farm, each with a 34,000 kW power-generating capacity, three 72-meter-long blades, and a 50-meter tower. The Bateston Wind Project uses wind as its main fuel and a very effective energy conversion technology to produce power from the wind. The Bateston Wind Project also contributes to a decrease in the amount of greenhouse gases released into the atmosphere, which is good for the town’s residents, local wildlife, and the environment.
With the help of the Bateston Wind Project, the town’s reliance on other energy sources has been significantly reduced, and its residents now have access to renewable energy. In terms of creating jobs, making investments, and helping locals save money on their energy costs, it has already been a huge success. The project has also raised awareness of the advantages of renewable energy sources and the necessity of financial investments in them for a more sustainable future.
Powerplant Bear Mountain Reviews
The 102 Megawatt (MW) Bear Mountain wind farm is situated northwest of Furry Creek in British Columbia, Canada, at 55.7041 North and 120.4264 West. On two locations, Clemina and Mount Bear, it has 68 Vestas V90 wind turbines that are owned by Innergex Renewable Energy Inc. 153 Gigawatt hours (GWh) of renewable energy are produced annually by the 1.5 MW-capable turbines.
The power plant was officially opened on August 27th, 2009, and has been running quite successfully ever since. It produces close to 88,000 tons of CO2 emissions year and enough energy to power about 30,500 houses. A long-term contract is used to sell the energy produced to the BC Hydro Power Authority. British Columbia’s dedication to establishing a clean energy economy includes Bear Mountain.
FAQ
Q. What are the main sources of wind energy used in Canada?
A. In Canada, wind energy is a significant source of renewable energy. Large-scale wind turbines in Canada create the majority of the country’s wind energy, but there are also smaller turbines that supply local towns with power. With approximately 10% of the nation’s total electricity production coming from wind energy, it is the renewable energy source in Canada that is expanding the fastest.
Q. How much power is generated by Canada s wind power plants?
A. Nearly 10% of Canada’s overall electricity needs are being met by the country’s wind power facilities. Around 8,000 wind turbines are currently in use across the nation. Depending on variables like the turbine’s position and the wind’s strength, different amounts of power are produced by these turbines.
Q. Are there any incentives for installing wind power plants in Canada?
A. Yes. In actuality, the Canadian government provides a number of incentives for the construction of wind farms. These financial incentives may take the form of equipment grants, tax credits, or reduced electricity prices from the plant. To further encourage people to install these turbines, many provinces also provide additional incentives.
Q. What problems can arise in the operation of a wind power plant?
A. Operating a wind farm can bring a number of difficulties, just like operating any other type of electricity generation. These include the cost of upkeep, noise pollution, safety issues for neighbors, and constancy in the quantity of energy the turbines produce. Many wind farms have put in place thorough safety and noise reduction regulations to address these problems.
Q. Where can I find more information about constructing a wind power plant in Canada?
A. If you want to build a wind farm, it’s crucial to learn about the local laws and incentives that apply to such endeavors. To learn more about the local laws governing the installation of wind turbines, you can start by getting in touch with the relevant provincial energy ministry. Online websites, papers, and publications that discuss the technical and economical aspects of building a wind power facility in Canada are also available for research.
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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.