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GE VERNOVA TO COLLABORATE WITH DUKE ENERGY ON NATION’S FIRST 100% GREEN HYDROGEN-FUELED PEAKING POWER PLANT
Duke Energy’s DeBary plant is expected to become among the first commercially operational power plants to produce, store, and use green hydrogen for peaking power applications.
Duke Energy's DeBary plant
GE Vernova’s Gas Power business announced that it will support the development of an end-to-end green hydrogen system that Duke Energy plans to build and operate at its DeBary plant, located in Volusia County, Florida near Orlando. When operational in 2024, the new hydrogen system will provide peak power to Duke’s customers at times of increased electricity demand.
The plant will be the first in the nation and among the world’s first power plants to produce and use green hydrogen to power a gas turbine for peaking power applications, when the grid requires additional electrical generation to meet demand. The production, storage, and end-use will be co-located at the DeBary power plant.
GE Vernova will support the integration of the turbine with green hydrogen, including the upgrade on one of the four GE 7E gas turbines installed at the site to accommodate hydrogen fuel blends of significant volumes. This will be the first commercial operation of this ability.
The DeBary Hydrogen Project will leverage Duke Energy’s installed solar array to operate electrolyzers to create green hydrogen, which will be stored on-site. Then, the green hydrogen will be used to power the gas turbine with up to 100% hydrogen fuel to support periods of peak demand for electricity.
Demand for energy in the United States and globally is increasing rapidly, making it even more challenging to rely solely on intermittent, renewable energy to keep the power grid operational when the wind is not blowing, or the sun is not shining. However, hydrogen produced from excess renewable energy during optimal generation conditions and stored for later use by gas turbines can provide a unique mechanism to help ensure reliable, affordable, and more sustainable electricity generation.
GE began working with Duke Energy on a hydrogen plant readiness assessment in 2021. Following the installation of the electrolyzer equipment and hydrogen storage capacity on site, GE Vernova will execute modifications to the existing gas turbine infrastructure at the DeBary plant, including the fuel handling systems, valves and piping compatible with higher blends of hydrogen operation and up to 100% hydrogen (by volume). GE Vernova will also install the fuel skid with hydrogen blending, finalize control modifications, and support the overall integration of the project to support 100% hydrogen operation expected in 2024.
Green Hydrogen production and storage system
When fully operational, the converted 83 megawatt (MW) 7E gas turbine will have the ability to operate on natural gas, liquid fuel, 100% hydrogen, or a blend of natural gas and hydrogen providing the site with complete fuel and operating flexibility while maintaining plant reliability.
Located just north of Orlando, the Duke Energy Florida DeBary plant consists of a 74.5 MW solar power plant spread across an area covering the equivalent of almost 200 football fields and a 692 MW gas power plant for reliable reserve power. The power plant is powered by six of GE’s 7B gas turbines and four of GE’s 7E gas turbines.
GE Vernova’s Gas Power business announced that it will support the development of an end-to-end green hydrogen system that Duke Energy plans to build and operate at its DeBary plant, located in Volusia County, Florida near Orlando. When operational in 2024, the new hydrogen system will provide peak power to Duke’s customers at times of increased electricity demand.
The plant will be the first in the nation and among the world’s first power plants to produce and use green hydrogen to power a gas turbine for peaking power applications, when the grid requires additional electrical generation to meet demand. The production, storage, and end-use will be co-located at the DeBary power plant.
GE Vernova will support the integration of the turbine with green hydrogen, including the upgrade on one of the four GE 7E gas turbines installed at the site to accommodate hydrogen fuel blends of significant volumes. This will be the first commercial operation of this ability.
The DeBary Hydrogen Project will leverage Duke Energy’s installed solar array to operate electrolyzers to create green hydrogen, which will be stored on-site. Then, the green hydrogen will be used to power the gas turbine with up to 100% hydrogen fuel to support periods of peak demand for electricity.
Demand for energy in the United States and globally is increasing rapidly, making it even more challenging to rely solely on intermittent, renewable energy to keep the power grid operational when the wind is not blowing, or the sun is not shining. However, hydrogen produced from excess renewable energy during optimal generation conditions and stored for later use by gas turbines can provide a unique mechanism to help ensure reliable, affordable, and more sustainable electricity generation.
GE began working with Duke Energy on a hydrogen plant readiness assessment in 2021. Following the installation of the electrolyzer equipment and hydrogen storage capacity on site, GE Vernova will execute modifications to the existing gas turbine infrastructure at the DeBary plant, including the fuel handling systems, valves and piping compatible with higher blends of hydrogen operation and up to 100% hydrogen (by volume). GE Vernova will also install the fuel skid with hydrogen blending, finalize control modifications, and support the overall integration of the project to support 100% hydrogen operation expected in 2024.
Green Hydrogen production and storage system
When fully operational, the converted 83 megawatt (MW) 7E gas turbine will have the ability to operate on natural gas, liquid fuel, 100% hydrogen, or a blend of natural gas and hydrogen providing the site with complete fuel and operating flexibility while maintaining plant reliability.
Located just north of Orlando, the Duke Energy Florida DeBary plant consists of a 74.5 MW solar power plant spread across an area covering the equivalent of almost 200 football fields and a 692 MW gas power plant for reliable reserve power. The power plant is powered by six of GE’s 7B gas turbines and four of GE’s 7E gas turbines.
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