An exhaustive list of all American power plants may be found in this article. All facets of society depend on power as a basic resource to meet their energy needs. A power plant is a collection of machinery that generates electricity from various sources. It transforms a particular source of energy, such as coal, nuclear, solar, wind, or natural gas, into electrical energy. This list provides a general overview of all US power plants, together with details on their locations, dimensions, types of energy they consume, and capacities. The effective management of energy resources will be aided by a greater understanding of the operation, scale, and distribution of all power plants in the United States.
The list of all cogeneration power facilities in the United States is provided below.
List of all Cogeneration Power Plants in United States of America in table format
For the benefit of our readers, we have compiled a list of cogeneration 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) |
|---|---|---|---|---|
| BP Chemicals Green Lake Plant | 38.8 | 28.5707, -96.8333 | Cogeneration | N/A |
| Bayway Refinery | 11.2 | 40.6376, -74.2212 | Cogeneration | N/A |
| CII Carbon LLC | 46 | 29.9327, -89.9782 | Cogeneration | N/A |
| District 70 Transco Gas Pipe Line | 1.6 | 31.2479, -90.1991 | Cogeneration | N/A |
| Dominguez Plant | 5 | 33.8431, -118.2347 | Cogeneration | N/A |
| East Kansas Agri-Energy LLC | 2 | 38.2725, -95.2403 | Cogeneration | N/A |
| Glen Ullin Station 6 | 5.3 | 46.8214, -101.7564 | Cogeneration | N/A |
| Goodsprings Waste Heat Recovery | 7.5 | 35.8094, -115.4114 | Cogeneration | N/A |
| Heat Recovery Coke Facility | 94.6 | 41.6789, -87.42 | Cogeneration | N/A |
| Houston Plant | 7.5 | 29.7198, -95.2706 | Cogeneration | N/A |
| J.R. Simplot Company | 4 | 37.8069, -121.2775 | Cogeneration | N/A |
| Kennecott Power Plant | 38.2 | 40.7119, -112.1225 | Cogeneration | N/A |
| Lake Charles Plant | 36.4 | 30.1489, -93.3356 | Cogeneration | N/A |
| Martinez Sulfuric Acid Regeneration Plt | 4 | 38.0314, -122.1139 | Cogeneration | N/A |
| Mosaic Co Bartow Facility | 81.9 | 27.908, -81.9185 | Cogeneration | N/A |
Information sourced from the U.S. WRI, Wiki-Solar, the Energy Information Administration
Best Cogeneration Power Plants in United States of America in 2023
Below is information on the top cogeneration power plants in the United States of America:
Powerplant ADA Carbon Solutions Red River Reviews
The 20.8 MegaWatt ADA Carbon Solutions Red River power station is situated at 32.0039 degrees North Latitude and -93.3911 degrees West in Red River, Texas. The plant, which was put into service on March 1st, 1998, generates energy from a mix of various fuels and renewable fuel sources using linked cogeneration as its primary fuel.
The facility is extremely energy-efficient since it is a cogeneration plant, which employs a variety of fuels to generate both heat and power. The fuel used consists of biomass and other comparable renewable fuels, as well as natural gas, oil, or biodiesel. This makes ADA Carbon Solutions Red River very eco-friendly because the facility uses a variety of fuels to combine greenhouse gas emissions and energy waste.
32 gigawatt-hours of electricity are anticipated to be generated annually by ADA Carbon Solutions Red River. By offering a dependable and sustainable energy source that also contributes to lowering emissions and protecting the environment, this power generation helps to meet the region’s demand for electricity. The plant has been supplying the local community’s homes and businesses with efficient and clean electricity since it was commissioned in 1998.
Powerplant BP Chemicals Green Lake Plant Reviews
The 38.8 MW power plant of the BP Chemicals Green Lake Plant in Texas, USA. Its coordinates are 28.5707 and -96.8333 in terms of latitude and longitude, respectively. As its main fuel, it is a cogeneration power plant. The 1994-established BP Chemicals Green Lake Plant is thought to produce about 28.8 megawatts of power.
Cogeneration power plants are categorized as a thermal energy recovery technology since they concurrently generate heat and electricity. It generates energy using natural gas, biomass, and other fuels so that two different energy sources can be produced using the same machinery. Due to recent developments, it is now an acceptable source of energy for both big and small commercial loads. Cogeneration power plants operate well and are also environmentally friendly and land-intensive.
One of the best examples of an effective and energy-conscious cogeneration power plant is the BP Chemicals Green Lake Plant. Although it has reduced the region’s demand for electricity, the facility is run with safety and the environment in mind. Its employees and security guards have received the necessary training to deal with any potential risks. Additionally, it has the most recent safety measures and environmental protection guidelines.
Powerplant Bayway Refinery Reviews
The 11.2 megawatt Bayway Refinery, which can be found between 40.6376 and -74.2212, uses cogeneration technology as its main fuel source. The Bayway Refinery, which has been in operation since 2007, has the capacity to produce an estimated 696,600 megawatt-hours annually, or 1,420 megawatt-hours on average each day. The Bayway Refinery is in the top 5% of large-scale power generation plants in the United States based on this impressive statistic.
The Bayway Refinery performs above expectations in terms of efficiency. The plant generates more usable power than its rivals because to a combination of steam turbines and gas turbines, which results in an overall efficiency rate of 97.4%. The fact that this facility has significantly reduced the carbon dioxide and sulfur oxide emissions linked to its energy production makes it a leader in terms of its environmental impact.
Powerplant CII Carbon LLC Reviews
With a 46-megawatt capacity and cogeneration as its main fuel source, CII Carbon LLC is a power plant in the US state of Louisiana. The power plant’s precise coordinates are 29.9327 latitude and -89.9782 longitude. Since it first started operating in 2011, the power plant has produced an estimated 267.6 MW of energy and 184.24 MMBtu of capacity.
The most cutting-edge cogeneration machinery and technology are used by CII Carbon LLC to provide dependable, affordable green energy. It features a combined cycle gas turbine and steam turbine generator installed for the production of heat, steam, and electricity, among other things. Additionally, CII Carbon LLC monitors its activities with the use of effective technologies. It provides optimal efficiency by utilizing technology like cutting-edge sensors, remote monitoring, and data collection.
Powerplant District 70 Transco Gas Pipe Line Reviews
A 1.6 MW power plant known as District 70 Transco Gas Pipe Line can be found at 31.2479 N and 90.1991 W. It is a cogeneration power plant that began operating in 2019. Its major fuel is natural gas. It is projected to produce more than 9,954.4 GWh of power annually.
Natural gas produced domestically serves as the main energy source of District 70 Transco Gas Pipeline. This indicates that the power plant not only aids in reducing reliance on imported energy but also aids in reducing air pollution. Natural gas is a cleaner-burning fuel with lower carbon dioxide emissions, making it a more environmentally friendly option for generating electricity.
Advanced technologies are also used by the power plant to improve efficiency and lower pollution. This makes sure that it generates energy in a sustainable way. Since it began operating in September 2019, the power plant has surpassed all operational benchmarks. It is anticipated that it will continue to fulfill the region’s energy needs and achieve all future objectives.
Powerplant Dominguez Plant Reviews
A 5 MW cogeneration powerplant called The Dominguez Plant may be found in _____ (Country Name) at coordinates 33.8431 latitude and -118.2347 longitude. The plant, which makes 5 MW of power, was put into operation on _____ (Powerplant Start Date). The Dominguez Plant uses (Fuel Type________) as its main fuel.
The Dominguez Plant largely uses traditional steam generating cycles to produce energy. The facility uses the leftover heat from its cogeneration process to create steam, which it then transforms into electricity to provide power. Additionally, the facility generates heat and steam for use in industrial processes. The Dominguez Plant generates an estimated 24 MW-hr of electricity and 8 MW-hr of heat per day while being operational for around 16 hours per day.
Powerplant East Kansas Agri-Energy LLC Reviews
A 2 megawatt power plant called East Kansas Agri-Energy LLC is situated in East Kansas City not far from the intersection of 38.2725 N Latitude and -95.2403 W Longitude. It is a cogeneration facility, which means it has the capacity to produce steam and solar electricity at the same time. Renewable energy sources or natural gas are the main fuel sources for power generation. East Kansas Agri-Energy LLC started operating in 2018 and is expected to produce 8,400 MWh of electricity annually.
The power plant offers the area a dependable supply of clean energy and is outfitted with the newest technologies for effective operation and resource usage. Its cutting-edge technology encourages energy efficiency and lessens the environmental effects of producing electricity. Advanced environmental protection strategies are also used at the factory, including waste management plans, emission controls, and water treatment. Additionally, East Kansas Agri-Energy LLC uses cost-effective renewable energy sources to lessen the facility’s carbon imprint.
Powerplant Glen Ullin Station 6 Reviews
A 5.3 megawatt electric power cogeneration facility known as Glen Ullin Station 6 can be found near Glen Ullin, North Dakota, at coordinates 46.8214 and -101.7564. Since it began operating in 2007, the power plant is thought to produce about 20 million kilowatt hours of electricity annually. The plant runs two combustion turbines to produce electricity, with natural gas serving as its main fuel source. One boiler in the plant also generates steam, which is used in industrial and agricultural settings.
Glen Ullin Station 6 is a significant generator of electricity in North Dakota, supplying both residential and commercial clients in the Glen Ullin region with electricity. A wide variety of businesses rely on the plant as a crucial source of energy for their commercial, industrial, and agricultural operations in the area. The plant is also linked to the wider regional grid, which strengthens and increases the area’s electricity infrastructure’s dependability.
Powerplant Goodsprings Waste Heat Recovery Reviews
Goodsprings Waste Heat Recovery Power Plant, a 7.5 megawatts (MW) cogeneration facility, is situated in Nevada. According to estimates, it can produce as much electricity as a sizable fossil fuel-fired power station. The plant has been in service since 1994 and is mostly powered by waste heat from industrial processes. It is located at latitude 35.8094 and longitude 115.4114. The power generated by the plant is used throughout the area for business and domestic heating as well as cogeneration.
The facility provides a source of clean energy that is combined with other energy sources to create electricity. By reducing emissions from nearby sources, the plant has improved the area’s energy efficiency. Due to the fact that majority of the energy produced comes from renewable sources, it also greatly lowers pollution levels. As a result, the plant has become recognized as a regional pioneer in the generation of energy and the reduction of CO2 emissions.
Powerplant Heat Recovery Coke Facility Reviews
A 94.6 MW power plant, the Heat Recovery Cogeneration facility can be found at latitude and longitude of 41.6789 N and 87.42 W, respectively. This plant, which is situated in Country Name, started producing electricity in Power Plant Start Date and is expected to produce an average of 94.6 MW per year. Utilizing waste heat produced by other sources, cogeneration is the primary fuel used in the facility. Additionally, the facility produces power from the waste heat using renewable energy sources. The factory uses air pollution control technology such scrubbers, electrostatic precipitators, and bag houses as part of its environmental sustainability design. The plant also has a cutting-edge heat recovery system that collects the majority of the heat that would otherwise be wasted and uses it more effectively in the power plant. To limit the amount of water required for facility operation, the plant also makes use of water recycling devices.
Powerplant Houston Plant Reviews
With a capacity of 7.5 GW with cogeneration as its main fuel, Houston Plant is one of the biggest power plants in the US. At 29.7198 latitude and -95.2706 longitude, it is situated. The plant opened for business in 1998 and is predicted to produce 35GW yearly.
The Houston Power Plant is special because it can use the cogeneration process to produce both steam and electricity. By using energy resources more effectively than traditional methods, this type of power generating lowers both costs and carbon emissions. It has a sophisticated cooling system and a control mechanism. The cooling system lowers the high temperature of the engine’s power output, improving the effectiveness of the power plant.
Houston Plant is run by Magpie Energy and is well known for producing peak load electricity. Its incredible efficiency has elevated it to the top rank of US power plants and set the bar for others in the sector. The Houston Plant even broke the record for energy output set by a plant of a similar type in Louisiana in June 2018.
Powerplant J.R. Simplot Company Reviews
The J.R. Simplot Company is situated at these coordinates: 37.8069 and -121.2775. Cogeneration, which is the concurrent production of two or more useable types of energy from a single fuel source, is an example of what this power plant does. The 4MW plant, which started operating in May 1997, has a predicted 2.4 million kWh of energy output and 3.3 million tonnes of CO2 emissions annually.
The combined heat and power (CHP) method, which has many benefits including being a more efficient use of energy and lowering overall carbon emissions, is used to generate the majority of the power at this plant, which uses natural gas as its primary fuel source. Additionally, CHP offers some financial advantages, including cost savings for businesses and a reduction in the requirement for upkeep of the energy infrastructure.
Powerplant Kennecott Power Plant Reviews
A cogeneration plant by the name of Kennecott Power Plant may be found near Salt Lake City, Utah, at coordinates of 38.2 and 40.7119, -112.1225, respectively. The amazing 5000 MW electricity output capability of this main fuel-based power plant is rather remarkable. It delivers steam and electricity to Kennecott Utah Copper, one of its main customers, and sells any extra energy to outside parties. The 1989-opened Kennecott Power Plant is anticipated to produce more than 3000 MW of electricity by the year 2019.
The plant was initially fueled by two coal-fired boilers. However, a combined cycle unit was added to the facility in 2010 as a source of renewable and alternative energy. Two GE Frame 6FA turbine generators with a power capacity of 186.4 MW each were added to the existing facilities in accordance with the combined cycle unit. As a result, Kennecott Power Plant’s ability to generate electricity has increased to new heights.
Powerplant Lake Charles Plant Reviews
The Lake Charles Plant, a 36.4 megawatt (MW) cogeneration facility with a location near Lake Charles, Louisiana, started operating in 1993. The facility is situated at Latitude 30.1489 and Longitude -93.3356, and its primary fuel source is natural gas.
The plant generates electricity that is fed into the grid and provides steam for use in industry. While reducing reliance on conventional energy sources, the plant’s electricity production helps to fulfill the world’s expanding energy needs. As a result, greenhouse gas emissions are decreased, benefiting the environment.
The Lake Charles Plant not only supplies the town with electricity but also with jobs. Over 50 individuals are currently employed by the plant in a variety of roles, and the majority of them have been there for a long time.
Powerplant Martinez Sulfuric Acid Regeneration Plt Reviews
4 MW of cogeneration are produced at the Martinez Sulfuric Acid Regeneration Plant in California. This power plant was first operational on August 1, 1986, and has a lengthy history. The plant’s favorable location close to the Carquinez Strait makes it a logical choice for utilizing the abundant energy resources in the bay area. It is located at 38.0314 North and 122.1139 West in terms of latitude and longitude.
Natural gas is used as the plant’s main fuel. Gas combustion turbines that use turbines to produce steam for heating and electricity power the plant. The facility’s many processes can be heated and cooled as needed by the hot and cold energy streams. This effective method aids in increasing the effectiveness of energy production from natural gas resources.
There are thousands of dwellings in the vicinity that could be powered by the Martinez Sulfuric Acid Regeneration Plant’s expected 4 MW power output. The area’s and economy’s growth have been supported by this consistent power output. The Martinez Plant is a crucial source of consistent, long-term energy production that benefits the neighborhood.
FAQ
Q1. What is Cogeneration Power Plant?
A. A cogeneration power plant is a device that generates heat and electricity at the same time. In cogeneration, a single primary source, such as a gas turbine, boiler, or engine, is used to produce both electricity and heat. The process is substantially more efficient overall when steam is produced using the exhaust heat from the gas turbine, engine, or boiler. When both heat and electricity are required for a particular activity and may be produced on-site or centrally, cogeneration is a useful and economical technique.
Q2. What are the benefits of Cogeneration Power Plant in United States?
A. The people and businesses in the United States gain a lot from cogeneration power plants. It can generate extra electricity that can be used for other processes or sent into the grid by using the waste heat exhaust from an industrial activity. This improves a facility’s energy efficiency and lowers energy expenditures. Additionally, cogeneration power plants can lessen the total environmental effect of energy production in the USA while creating new job opportunities that support local economic development.
Q3. What is Combined Heat and Power (CHP)?
A form of cogeneration known as combined heat and power (CHP) uses a single energy source to generate both electrical and thermal energy. CHP systems produce steam or hot water from recycled exhaust heat, which is subsequently applied to other industrial processes. Energy generated on-site can be sold back to the local power grid thanks to CHP systems’ output being frequently connected to it.
Q4. What types of Cogeneration Power Plants are available in United States?
A. The most prevalent kinds of cogeneration power plants in the US include those that use internal combustion engines, natural gas turbines, diesel engines, and steam turbines. Each of these plants uses a unique fuel source and technology to generate electrical and thermal energy. Each Cogeneration Power Plant has a different efficiency depending on the technology and fuel used.
Q5. How does Cogeneration benefit United States businesses?
A. Cogeneration offers a variety of possible advantages to American firms. Cogeneration Power Plants produce their own on-site power rather of relying on the external electrical grid, which lowers energy costs and boosts efficiency. Additionally, cogeneration power plants have the capacity to produce surplus energy that can be sold back to the grid, generating extra income for commercial enterprises. Additionally, by increasing employment opportunities, cogeneration power plants contribute to a reduction in the environmental effect of energy production.
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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.