The United States of America is a significant generator of electricity, providing power for a range of economic activities including household, business, and industrial requirements. The whole list of power plants in the United States of America is provided in this page, including those that use main conventional energy sources like coal, natural gas, and nuclear power as well as renewable resources like hydro, solar, wind, biomass, and geothermal energy. The list provides details on the locations, types, names, and capacities of active, planned, and defunct facilities. The Environmental Protection Agency, the United States Department of Energy, and other dependable sources are used to create the data provided here. This article is intended to be a helpful tool for professionals, academics, businesses, and students who are interested in the energy sector.
The list of all waste-to-energy facilities in the United States is provided below.
List of all Waste Power Plants in United States of America in table format
For the benefit of our readers, we have compiled a list of waste power plants in the United States of America in the following table:
Powerplant Name | PowerPlant Capacity(MW) | Power Plant Location via to Latitude and Longitude | Fuel Type- Primary | Estimated Power Generation(GWH) |
---|---|---|---|---|
ADS Renewable Energy-Wolf Creek LLC | 2.8 | 32.7755, -83.4348 | Waste | N/A |
Adrian Energy Associates LLC | 2.4 | 41.891, -83.9929 | Waste | N/A |
Agrilectric Power Partners Ltd | 12.1 | 30.2012, -93.1269 | Waste | N/A |
Al Turi | 2.4 | 41.4043, -74.3767 | Waste | N/A |
Albany Green Energy | 54.5 | 31.5559, -84.1103 | Waste | N/A |
Allendale Biomass | 22.5 | 32.995, -81.2819 | Waste | N/A |
Allenwood | 3.2 | 41.1511, -76.9178 | Waste | N/A |
Alpha Ridge LFG | 1 | 39.305, -76.9019 | Waste | N/A |
Altamont Gas Recovery | 6 | 37.7493, -121.6499 | Waste | N/A |
Altavista Power Station | 71.1 | 37.1187, -79.2736 | Waste | N/A |
Amelia | 14.4 | 37.3097, -78.0589 | Waste | N/A |
Ameresco Butte County | 2.3 | 39.674, -121.73 | Waste | N/A |
Ameresco Chicopee Energy | 7.8 | 42.1626, -72.5367 | Waste | N/A |
Ameresco Chiquita Canyon | 9.2 | 34.4317, -118.6429 | Waste | N/A |
Ameresco Dallas LLC | 4.2 | 32.6486, -96.6444 | Waste | N/A |
Information sourced from the U.S. WRI, Wiki-Solar, the Energy Information Administration
Best Waste Power Plants in United States of America in 2023
The following provides information on the finest waste power plant in the United States of America:
Powerplant AC Landfill Energy LLC Reviews
The latitude and longitude of AC Landfill Energy LLC’s power plant are 39.4175 and -74.5422, respectively, in NJ, USA. It will begin operating in May 2017 and will have a 3.5 MW capacity. Municipal solid waste, namely, is the plant’s main source of fuel. The power plant can produce electricity using this kind of fuel while protecting the environment. A year’s worth of electricity for 7,000 houses is anticipated to be produced by the plant.
The power plant is a significant source of renewable energy, which is becoming more crucial for nations aiming to lessen their influence on the environment. The fact that AC Landfill Energy is the country’s first facility of its kind makes it special. Additionally, it ranks among the biggest projects of its kind ever undertaken. According to projections, the plant will significantly lower greenhouse gas emissions.
The ability to simultaneously minimize landfill waste and produce clean energy is unique to the waste-to-power industry. By utilizing this technology, nations may produce greener energy sources, lessen their reliance on fossil fuels, and save money. Additionally, the project will offer jobs to locals that live close to the power plant. The use of sustainable energy by cities and municipalities to lessen their negative financial and environmental effects has also been demonstrated by AC Landfill Energy LLC.
Powerplant ADS Renewable Energy-Wolf Creek LLC Reviews
ADS Renewable Energy-Wolf Creek LLC has been granted a permit to use waste fuel to produce 2.8 megawatts (MW) of electricity. This ADS Renewable Energy-Wolf Creek LLC renewable energy source is situated in Georgia, United States, at Latitude 32.7755 and Longitude -83.4348. This energy source, which will be operational in 2020, has already demonstrated its viability and is predicted to produce extremely low environmental carbon emissions.
This plant, which was established with the goal of lowering the carbon footprint on the earth, employs zero-emission solid organic material as its main fuel for producing electricity, including wood byproducts and other process-generated solids. Also being monitored are the steam, nitrogen oxide (NOx), and sulfur dioxide (SO2) emissions from this plant to ensure that provincial and federal environmental quality criteria are met.
Powerplant Adrian Energy Associates LLC Reviews
The powerhouse in Michigan, USA, is known as Adrian Energy Associates LLC and has a 2.4 MW capacity. Its latitude and longitude are 41.891 and -83.9929, respectively. Waste serves as this power plant’s main fuel source. The facility went into operation in 2020 and is expected to provide about 11.52 IW of power.
Leading renewable energy provider Adrian Energy Associates LLC is working to make the world a greener place. Modern techniques are used to increase energy efficiency within the power plant, enabling it to generate more renewable energy while emitting fewer emissions. By supplying the residents of Michigan with clean and renewable energy, this power plant has contributed to Michigan’s efforts to minimize its carbon impact.
Powerplant Agrilectric Power Partners Ltd Reviews
Louisiana, USA-based Agrilectric Power Partners Ltd, which opened its doors on December 30, 2012, has a 12.1 megawatt power capacity. The power plant can be found at these coordinates: 30.2012, -93.1269. Waste is the primary fuel used, however alternative sources including biomass and solar have also been used.
To date, Agrilectric Power Partners Ltd. has been successful in producing close to 4,300 MWh of electricity. This is a significant number for a power plant with a 12.1 megawatt capacity. Agrilectric Power Partners Ltd now feeds electricity into the state’s electrical grid and wants to expand the overall amount of power produced. The facility contributes to Louisiana’s ranking as one of the states with the highest levels of energy independence.
Powerplant Al Turi Reviews
A 2.4 MW power plant called Al Turi can be found in New York City. -74.3767 Longitude and 41.4043 Latitude are its location coordinates. The plant’s main fuel source is waste. It was made operational in 2013 and has been producing an estimated 2.4 MW of power since then.
Since its opening in 2013, the Al Turi Power Plant has been a very effective facility for producing electricity and power. This power plant effectively meets New York City’s electrical needs and serves as a significant energy source for the city. By using already-existing waste materials to generate clean, renewable energy, it helps to lower carbon emissions. By assisting in the reduction of air pollution, the power plant has also benefited the region’s environmental conditions.
Powerplant Albany Green Energy Reviews
A power facility called Albany Green Energy is situated near Albany, Georgia. It can produce 54.5 MW of electricity and is situated at latitude 31.5559 and longitude -84.1103. It began operating on January 1st, 2018, and uses waste as its primary fuel. Around 610 GWh of electricity are thought to be produced there annually.
The power plant was built with the intention of offering dependable and economical electricity to its consumers as well as playing a significant role in the community’s energy infrastructure. It consists of four turbines that are linked to the nearby substations via a high-speed cable. This guarantees dependable preventative maintenance and a high level of safety. It complies with all municipal, state, and federal standards and aids in easing peak demand stress.
Customers of the power plant receive efficient and clean electricity. Utilizing renewable energy sources, such as trash, it aids in the reduction of emissions. This lessens the facility’s negative environmental effects while also saving money. Furthermore, it boosts the local economy and creates jobs.
Powerplant Allendale Biomass Reviews
Allendale, South Carolina is where Allendale Biomass is situated. It is a waste-to-energy facility with a 22.5 megawatt (MW) capacity. At latitude 32.995 and longitude -81.2819, it can be found. Since it started operating in 2010, Allendale Biomass has grown to be one of the most prosperous waste-to-energy facilities in the US.
The facility is a cogeneration plant, which means that it produces useable heat energy and electricity in the same process. Municipal solid waste (MSW) serves as its main fuel source. The power plant makes use of well-established waste-to-energy technology, which includes a number of stages for producing steam, burning fuel, and running turbines and generators.
Every year, the Allendale Biomass power plant produces more than 36,000 megawatt hours of electricity. This will cut annual carbon dioxide emissions by about 25,000 tons and provide electricity for 3,500 dwellings. The development of the local economy and the launching of renewable energy projects across the southeast of the United States have both been facilitated by Allendale Biomass.
Powerplant Allenwood Reviews
A 3.2 MW waste-to-energy generating facility called Allenwood can be found at 41.1511 latitude and -76.9178 longitude. After 1.5 years of construction, it was finished and put into service, beginning its commercial operations. The Allenwood area’s garbage is used by the waste to energy power plant to generate electricity, ensuring a steady supply of energy while minimizing waste production. The factory effectively turns garbage into electricity with the use of cutting-edge technologies in a completely automated process. Approximately 95% of the solid trash that is gathered in Allenwood can be converted into fuel and utilized to produce electricity.
The Allenwood power plant’s low carbon dioxide emissions cover all facets of resource conservation. The facility is built to produce power continuously while emitting the fewest amount of greenhouse gases possible. Waste to energy facilities are a safe, practical substitute for burning fossil fuels, such as coal and oil, which contribute significantly to air pollution. It is a crucial step in preserving the environment’s natural beauty and lowering the danger of global warming.
Powerplant Alpha Ridge LFG Reviews
The exact latitude and longitude of Alpha Ridge LFG, a 1 MW power plant in Maryland, United States, are 39.305 and -76.9019, respectively. It has been in operation since August 2003 and is mostly powered by trash. Since it began, Alpha Ridge LFG has been able to produce 1,254,180 kilowatt hours of electricity yearly. In order to lessen reliance on non-renewable energy sources, Alpha Ridge LFG was created to offer local inhabitants with renewable energy. While lowering greenhouse gas emissions, it uses cutting-edge technology to transform landfill gas (LFG) into clean, renewable energy. By making investments in renewable energy, locals support the global effort to combat climate change and serve as role models for other towns and nations.
Powerplant Altamont Gas Recovery Reviews
The 6-megawatt Altamont Gas Recovery power station, which is situated at 37.7493 latitude and -121.6499 longitude, runs primarily on garbage. In order to contribute to the reduction of greenhouse gases in the environment, it started operating in late August of 2014. It has since been able to provide enough energy to yearly power 10,000 households in the neighborhood.
The facility uses a process known as gasification to turn organic waste, agricultural byproducts, biomass, and forestry waste into electricity. This procedure increases resource efficiency and lowers pollution. Additionally, the facility can make a significant contribution to the local economy by offering a new, accessible, and affordable source of energy.
The goal of Altamont Gas Recovery is to assist local communities in becoming more energy independent while promoting a greener and cleaner environment. It serves as an illustration of how environmentally friendly technology may be employed to generate dependable energy while lowering pollution levels. The facility has already demonstrated its potential and is regarded as a superb illustration of how garbage may be used to produce electricity and enhance quality of life.
Powerplant Altavista Power Station Reviews
Approximately 71.1 miles southwest of Richmond, near the Virginian hamlet of Altavista, is where you’ll find the Altavista Power Station. Its coordinates are 37.1187 latitude and -79.2736 longitude. The facility, which started operations in 2004, has a 566 MW producing capacity. It is the first power plant in the US to run entirely on waste since it is powered by waste.
The largest waste-to-energy facility in the United States is Altavista Power Station, which generates an estimated 1.6 million megawatt-hours of electricity annually. This is a part of the plant’s commitment to providing clean and renewable energy, and it is sufficient to power more than 45,000 homes in the area. Additionally, the facility diverts more than 500,000 tons of waste from landfills each year.
Altavista Power Station has won praise for its unique strategy for generating renewable energy. It has won various accolades, including American ones. The International Green Energy Award as well as the Excellence in Innovation Award from the Environmental Protection Agency. The American Boreal Forest Initiative awarded the facility its highest rating for its dedication to adopting sustainable energy sources.
Powerplant Amelia Reviews
A facility that produces electricity using garbage is called the Amelia 14.4 power plant, and it is situated in Amelia, Virginia. This power plant, which has been in operation since April 8, 2002, has the capacity to produce 14.4 megawatts of electricity. The precise coordinates of this power plant are 37.3097 latitude and -78.0589 longitude. The Amelia 14.4 power station produces sustainable energy while reducing methane emissions by using waste as its main fuel. Up to 14.4 megawatts of electricity, or the equivalent of 14,400 houses, can be produced by the plant.
Since its opening in 2002, the Amelia 14.4 power plant has played a significant role in the neighborhood. More individuals now have access to dependable and renewable energy sources as a result of the considerable modernization of the neighborhood’s energy infrastructure. The development of renewable energy sources can benefit the local ecology as well as the energy infrastructure, as demonstrated by this power station. The Amelia 14.4 power station will continue to play a significant role in meeting the community’s energy demands in the future.
Powerplant Ameresco Butte County Reviews
A 2.3 MW power plant called Ameresco Butte County is situated in California. The exact coordinates of the plant are 39.674 Latitude and -121.73 Longitude. Waste serves as the plant’s main fuel source. The Ameresco Butte County power plant began running in 2020 and is expected to provide up to 2.3 MW of power, which is sufficient to provide thousands of families with a dependable, clean energy source.
Ameresco Butte County is a creative project that demonstrates how outdated rubbish can be recycled and converted into electricity for the neighborhood. Ameresco Butte County uses waste products including food, plastic, and paper to assist supply electricity for the region rather than adding to the burden on the conventional power grid. With Ameresco Butte County in operation, the neighborhood not only benefits from a cleaner energy source but also from cost savings over the conventional electricity grid.
Powerplant Ameresco Chicopee Energy Reviews
A 7.8 megawatt waste-to-energy power facility called Ameresco Chicopee Energy can be found in Chicopee, Massachusetts, about at 42.1626 North and 72.5367 West. Using a range of waste fuels, including industrial and material waste, this repowering project transforms an existing industrial thermal energy unit into a powerplant that can produce electricity with the same capacity as a typical 7.8 megawatt plant. The power plant was put into operation in December 2019 and is expected to produce 57 megawatts of electricity annually on average.
Waste serves as the main source of energy at Ameresco Chicopee Energy. The facility generates power using a variety of waste materials, including non-recyclable industrial and material waste like sawdust and trash from the manufacture of paper. The on-site generators use the waste energy to generate power, which is subsequently transferred to the grid. This cutting-edge power plant makes use of waste materials through the application of cutting-edge waste-to-energy technology, which lessens the demand on natural resources.
Powerplant Ameresco Chiquita Canyon Reviews
In the Santa Clarita Valley of California, there is an energy production facility called Ameresco Chiquita Canyon. 34.4317 North, 118.6429 West are its geographic coordinates, and it can generate 9.2 kilowatts of power. Waste serves as Ameresco Chiquita Canyon’s main fuel source. The plant began operating in June 2020 and is expected to produce 9.2 kilowatts annually for the following 20 years.
Anaerobic digestion, which is the process of degrading organic materials in an atmosphere without oxygen, is the foundation upon which the Ameresco Chiquita Canyon plant was developed. Fermenting the garbage produces methane, which is then piped to a 3-megawatt combined-cycle generator to produce electricity. The facility not only offers sustainable energy but also aids in keeping organic waste out of landfills.
FAQ
Q. How are waste disposal systems regulated at power plants in the United States?
A. The Environmental Protection Agency (EPA) in the US is in charge of policing how hazardous waste from power plants is disposed of. In accordance with federal rules, a facility is required to get a hazardous waste permit before disposing of the material and to follow safety procedures to prevent environmental contamination.
Q. What are the main sources of hazardous waste from power plants in the United States?
A. Coal ash, coal slurry, and sedimentation ponds are the principal American power plant sources of hazardous waste. Coal slurry is the wastewater produced by mining coal, while coal ash is produced when coal is burned to provide energy. To handle the facilities’ wastewater runoff, sedimentation ponds are built.
Q. How are hazardous wastes handled at power plants in the United States?
A. The three main methods for handling hazardous waste from power plants are incineration, landfilling, and treatment. Landfilling involves burying wastes beneath the Earth’s surface, incineration involves burning wastes to minimize volume and toxicity, and treatment entails a method of neutralizing and stabilizing wastes so that they can be disposed of without harming the environment.
Q. What kinds of storage facilities are used for hazardous waste at power plants in the United States?
A. To store hazardous waste, power plants in the US commonly use tanks, drums, and containers. Drums are big cylindrical containers made to hold modest amounts of garbage, while tanks are large, stationary containers that can hold hundreds of gallons of waste. Smaller amounts of waste can be safely stored in containers.
Q. Is recycled waste from power plants in the United States ever used in other applications?
A. Yes, recovered trash from American power plants is occasionally used in other uses. For instance, several power plants are now adding coal ash to soil for horticultural or agricultural purposes. In other instances, recycled garbage might be added to cement and concrete or utilized as a soil amendment.
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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.